U.S. patent application number 14/695669 was filed with the patent office on 2016-10-27 for vehicular door assembly and methods of use and manufacture thereof.
The applicant listed for this patent is Honda Motor Co., Ltd.. Invention is credited to Noriyuki Muto, Robert T. Wilson, III.
Application Number | 20160311295 14/695669 |
Document ID | / |
Family ID | 57136297 |
Filed Date | 2016-10-27 |
United States Patent
Application |
20160311295 |
Kind Code |
A1 |
Wilson, III; Robert T. ; et
al. |
October 27, 2016 |
VEHICULAR DOOR ASSEMBLY AND METHODS OF USE AND MANUFACTURE
THEREOF
Abstract
Some embodiments are directed to a vehicular door assembly that
includes a door that is movable between the open and closed
positions, and a window panel assembly that includes interior
member, a frame member surrounding the interior member, and a
plurality of connector assemblies. A interior member mount assembly
includes a bracket, a spring guide, and a spring. The bracket
includes a base portion rigidly connected to the door, and a flange
portion that defines an aperture and that extends at an angle
relative to the base portion. The spring guide is movable within
the aperture. A first end of the spring is connected to the
bracket, and a second end of the spring is connected to the spring
guide. The spring guide is connected to one of the plurality of
connector assemblies, such that the spring guide is movable within
the aperture as the door moves between open and closed
positions.
Inventors: |
Wilson, III; Robert T.;
(Marysville, OH) ; Muto; Noriyuki; (Columbus,
OH) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Honda Motor Co., Ltd. |
Tokyo |
|
JP |
|
|
Family ID: |
57136297 |
Appl. No.: |
14/695669 |
Filed: |
April 24, 2015 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
B60J 1/2011 20130101;
B60R 21/06 20130101; B60J 5/0487 20130101; B60J 5/0468
20130101 |
International
Class: |
B60J 5/04 20060101
B60J005/04; B60J 1/16 20060101 B60J001/16 |
Claims
1. A vehicular door assembly that is movable between an open
position that provides a door opening enabling passenger ingress
and egress to a vehicular passenger compartment, and a closed
position that at least partially obstructs the door opening and
thereby impedes such ingress and egress, the door opening being
bounded at an upper end by an upper vehicular frame member, the
vehicular door assembly comprising: a door that is movable between
the open and closed positions; a window panel assembly that
includes an interior member, a frame member surrounding the
interior member, and a plurality of connector assemblies that
facilitate connection of the frame member to the door and to the
upper vehicular frame member; and a window mount assembly that
includes a bracket, a spring guide, and a spring, the bracket
including a base portion rigidly connected to the door and a flange
portion that defines an aperture and that extends at an angle
relative to the base portion, the spring guide being movable within
the aperture, a first end of the spring being connected to the
bracket and a second end of the spring being connected to the
spring guide, the spring guide being connected to one of the
plurality of connector assemblies such that the spring guide is
movable within the aperture as the door moves between open and
closed positions.
2. The vehicular door assembly according to claim 1, wherein the
plurality of connector assemblies include a first connector
connected to the spring guide and a second connector connected to
the upper vehicular frame member at a mounting location, and the
door pivots about a hinge axis that is offset from the mounting
location.
3. The vehicular door assembly according to claim 1, wherein the
plurality of connector assemblies include a first connector that is
movable through a stroke distance as the door moves between the
open and closed positions.
4. The vehicular door assembly according to claim 1, wherein the
plurality of connector assemblies include a tether connected to the
frame member.
5. The vehicular door assembly according to claim 1, wherein the
upper vehicular frame member defines a portion of a vehicular roll
cage, and the door includes a door panel.
6. The vehicular door assembly according to claim 1, further
including a hinge assembly that includes a hinge post, an upper
door mount, and a lower door mount, an upper end of the hinge post
being connected to the upper door mount, a lower end of the hinge
post being connected to the lower door mount, the hinge post being
connected to the door panel, the upper and lower door mounts being
rigidly connected to the vehicular roll cage.
7. The vehicular door assembly according to claim 1, wherein the
plurality of connector assemblies include at least one of a
plurality of tether straps, a plurality of connector members, and a
plurality of D-ring pairs.
8. The vehicular door assembly according to claim 1, wherein the
aperture includes a substantially C-shaped slot and a pair of
keyway portions, the C-shaped slot defining a stem portion and a
head portion, the spring guide being configured to engage a
perimeter of the C-shaped slot and to pass through the slot as the
spring guide moves between first and second positions.
9. The vehicular door assembly according to claim 1, wherein the
spring guide includes a main body portion, a mounting portion, and
a pair of arm portions, the arm portions being connected to and
extending from a first end of the main body portion, the mounting
portion being connected to and extending from a second end of the
main body portion that is opposite to the first end.
10. The vehicular door assembly according to claim 9, wherein the
main body portion of the spring guide is hollow and substantially
cylindrical, and defines an elongated slot and a cut-out portion,
the elongated slot extending from the first end of the main body
portion to the second end, the elongated lot being centered between
the pair of arm portions.
11. The vehicular door assembly according to claim 1, wherein the
spring is disposed within the hollow interior of the main body
portion of the spring guide, and the spring is a coil spring.
12. The vehicular door assembly according to claim 1, wherein the
interior member is configured as at least one of a mesh interior
member and a transparent pane interior member.
13. A window mount assembly for use with a vehicular door assembly
that is movable between an open position that provides a door
opening enabling passenger ingress and egress to a vehicular
passenger compartment, and a closed position that at least
partially obstructs the door opening and thereby impedes such
ingress and egress, the door opening being bounded at an upper end
by an upper vehicular frame member, the vehicular door assembly
also including a door that is movable between the open and closed
positions, and a window panel assembly that includes an interior
member, a frame member surrounding the interior member, and a
plurality of connector assemblies that facilitate connection of the
frame member to the door and to the upper vehicular frame member,
the window mount assembly comprising: a bracket including a base
portion configured to be rigidly connected to the door and a flange
portion that defines an aperture and that extends at an angle
relative to the base portion; a spring guide that is movable within
the aperture, the spring guide being configured to be connected to
one of the plurality of connector assemblies such that the spring
guide is movable within the aperture as the door moves between the
open and closed positions; and a spring having first and second
ends, the first end of the spring being connected to the bracket,
and the second end of the spring being connected to the spring
guide.
14. The window mount assembly according to claim 13, wherein the
plurality of connector assemblies include a first connector that is
movable through a stroke distance as the door moves between the
open and closed positions.
15. The window mount assembly according to claim 13, wherein the
interior member is configured as at least one of a mesh interior
member and a transparent pane interior member.
16. The window mount assembly according to claim 13, wherein the
aperture includes a substantially C-shaped slot and a pair of
keyway portions, the C-shaped slot defining a stem portion and a
head portion, the spring guide being configured to engage a
perimeter of the C-shaped slot and to pass through the slot as the
spring guide moves between first and second positions.
17. The window mount assembly according to claim 13, wherein the
spring guide includes a main body portion, a mounting portion, and
a pair of arm portions, the arm portions being connected to and
extending from a first end of the main body portion, the mounting
portion being connected to and extending from a second end of the
main body portion that is opposite to the first end.
18. The window mount assembly according to claim 17, wherein the
mounting portion of the spring guide is configured to be connected
to the one of the plurality of connector assemblies.
19. The window mount assembly according to claim 17, wherein the
main body portion of the spring guide is hollow and substantially
cylindrical, and defines an elongated slot and a cut-out portion,
the elongated slot extending from the first end of the main body
portion to the second end, the elongated lot being centered between
the pair of arm portions.
20. A method of manufacturing a vehicular door assembly that is
movable between an open position that provides a door opening
enabling passenger ingress and egress to a vehicular passenger
compartment, and a closed position that at least partially
obstructs the door opening and thereby impedes such ingress and
egress, the door opening being bounded at an upper end by an upper
vehicular frame member, the method of manufacturing comprising:
surrounding at least one of a mesh interior member and a
transparent pane interior member with a frame member; facilitating
connection of the frame member to a door and to the upper vehicular
frame member with a plurality of connector assemblies, the door
being movable between the open and closed positions; rigidly
connecting a base portion of a bracket to the door; forming an
aperture in a flange portion of the bracket, the flange extending
at an angle relative to the base portion; disposing a spring within
a spring guide such that the spring guide is movable within the
aperture; connecting a first end of the spring to the bracket;
connecting a second end of the spring to the spring guide; and
connecting the spring guide to one of the plurality of connector
assemblies, such that the spring guide is movable within the
aperture as the door moves between open and closed positions.
Description
BACKGROUND
[0001] The disclosed subject matter relates to vehicular door
assemblies, and methods of use and manufacture thereof. More
particularly, the disclosed subject matter relates to methods and
apparatus for enabling or facilitating movement of vehicular door
assemblies, such as between open and closed orientations.
[0002] Certain features of many related art self-propelled vehicles
can be specially configured based on the path on which they are
intended to travel, including: 1) an improved path (such as paths
paved with a durable surface material, e.g., asphalt, concrete,
stone, brick, etc.), 2) an unimproved path (such as a dirt path),
and/or 3) any unmarked path of travel (such as along a wooded area,
open field, rocky area, water feature, etc.). For example, many
related art "off-road vehicles" can be specially configured to
enhance performance while traveling along an unimproved or unmarked
path, such as to provide enhanced durability or to facilitate other
performance aspects relevant to off-road travel.
[0003] This specialized configuration can involve the design of
door(s), hatch(es), etc., such as those separating a passenger area
from the environment in which the vehicle is operating. These
door(s), hatch(es), etc., can include or otherwise involve
assemblies of multiple elements, including a vehicular frame and at
least one of a fixed window, a movable window, a fixed net, a fully
removable net, a partially removable net, a front hinge assembly, a
rear hinge assembly, etc.
SUMMARY
[0004] Certain of these related art vehicular door(s), hatch(es),
etc., may be subject to various disadvantages. As one example, some
vehicular doors include a lower door structure and a window panel
configured as a net, netting, mesh, transparent or semi-transparent
panel, etc. configured to obstruct (partially or completely) an
opening defined between the lower door structure and an upper
vehicular frame element (such as a portion of a vehicular roll
cage). Some of these doors are configured to be movable between
open and closed positions to facilitate ingress, egress, etc. of a
vehicle passenger. For example, the lower door structure can be
rotatably fixed to the vehicle, and in some cases connected to the
vehicular frame by a hinge.
[0005] However, rotation of the lower door structure creates
challenges with regard to the net. For example, rigidly connecting
the net to the lower door structure and the upper vehicular frame
element may impede door rotation and thus impede opening of the
door, especially for window panel configurations that cover a
relatively large area above the lower door structure. In other
words, opening of the door causes the window panel to stretch
(because it is also attached to the upper vehicular frame element)
and thereby resist rotation of the lower door structure.
[0006] The window panel can be configured to be manually removable
(partially or fully) from the lower door assembly and/or upper
vehicular frame element. In other words, the window panel can be
removed prior to opening the lower door structure, such as to
facilitate vehicular passenger ingress or egress, and then
reattached upon closing of the lower door structure. However,
removing and reattaching the window panel can be inconvenient,
inefficient, etc.
[0007] Thus, it may be beneficial to provide a door assembly that
addresses at least one of the above and/or other disadvantages of
the related art, such as by providing a vehicular door assembly
that does not impede opening of the door while remaining attached
to the lower door structure and upper vehicular frame element. It
may also be beneficial to provide such a door assembly that covers
a sufficient area between the lower door structure and upper
vehicular frame element. It may be further beneficial to provide
such a door assembly that enables tension of the window panel to be
maintained while the door is in the open configuration and/or
closed configuration.
[0008] Some embodiments are therefore directed to a vehicular door
assembly that is movable between an open position that can provide
a door opening enabling passenger ingress and egress to a vehicular
passenger compartment, and a closed position that can at least
partially obstruct the door opening and thereby can impede such
ingress and egress, the door opening can be bounded at an upper end
by an upper vehicular frame member. The vehicular door assembly can
include a door that is movable between the open and closed
positions, and a net assembly that can include an interior member,
a frame member surrounding the interior member, and a plurality of
connector assemblies that can facilitate connection of the frame
member to the door and to the upper vehicular frame member. The
vehicular door assembly can also include a window mount assembly
that can include a bracket, a spring guide, and a spring. The
bracket can include a base portion rigidly connected to the door,
and a flange portion that can define an aperture and that can
extend at an angle relative to the base portion. The spring guide
can be movable within the aperture. A first end of the spring can
be connected to the bracket, and a second end of the spring can be
connected to the spring guide. The spring guide is connected to one
of the plurality of connector assemblies, such that the spring
guide can be movable within the aperture as the door moves between
open and closed positions.
[0009] Some other embodiments are directed to a window mount
assembly for use with a vehicular door assembly that can be movable
between an open position that can provide a door opening enabling
passenger ingress and egress to a vehicular passenger compartment,
and a closed position that can at least partially obstruct the door
opening and thereby can impede such ingress and egress. The door
opening can be bounded at an upper end by an upper vehicular frame
member. The vehicular door assembly also can include a door that is
movable between the open and closed positions, and a window panel
assembly that can include an interior member, a frame member
surrounding the interior member, and a plurality of connector
assemblies that can facilitate connection of the frame member to
the door and to the upper vehicular frame member. The window mount
assembly can include a bracket including a base portion configured
to be rigidly connected to the door, and a flange portion that can
define an aperture and that extends at an angle relative to the
base portion. A spring guide can be movable within the aperture.
The spring guide can be configured to be connected to one of the
plurality of connector assemblies, such that the spring guide is
movable within the aperture as the door moves between the open and
closed positions. A spring can have first and second ends, the
first end of the spring can be connected to the bracket, and the
second end of the spring can be connected to the spring guide.
[0010] Still other embodiments are directed to a method of
manufacturing a vehicular door assembly that is movable between an
open position that provides a door opening enabling passenger
ingress and egress to a vehicular passenger compartment, and a
closed position that at least partially obstructs the door opening
and thereby impedes such ingress and egress, the door opening being
bounded at an upper end by an upper vehicular frame member. The
method of manufacturing can include: surrounding at least one of a
mesh interior member and a transparent interior member with a frame
member; facilitating connection of the frame member to a door and
to the upper vehicular frame member with a plurality of connector
assemblies, the door being movable between the open and closed
positions; rigidly connecting a base portion of a bracket to the
door; forming an aperture in a flange portion of the bracket, the
flange extending at an angle relative to the base portion;
disposing a spring within a spring guide such that the spring guide
is movable within the aperture; connecting a first end of the
spring to the bracket; connecting a second end of the spring to the
spring guide; and connecting the spring guide to one of the
plurality of connector assemblies, such that the spring guide is
movable within the aperture as the door moves between open and
closed positions.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011] The disclosed subject matter of the present application will
now be described in more detail with reference to exemplary
embodiments of the apparatus and method, given by way of example,
and with reference to the accompanying drawings, in which:
[0012] FIG. 1 is a perspective view of a first exemplary vehicle
including a door assembly in accordance with the disclosed subject
matter.
[0013] FIG. 2 is a top view of the vehicle and door assembly of
FIG. 1 showing the door assembly in an open position.
[0014] FIG. 3 is a side view of the door assembly of FIGS. 1 and
2.
[0015] FIG. 4 is a side view of a window panel assembly of the door
assembly of FIG. 3.
[0016] FIG. 5 is a top view of a bracket of the door assembly of
FIG. 3.
[0017] FIG. 6 is a side view of the bracket of the door assembly of
FIG. 3.
[0018] FIG. 7 is an end view of the bracket of the door assembly of
FIG. 3.
[0019] FIG. 8 is a side view of a spring guide of the door assembly
of FIG. 3.
[0020] FIG. 9 is an end view of the spring guide of the door
assembly of FIG. 3.
[0021] FIG. 10 is a side view of a connection member of the door
assembly of FIG. 3.
[0022] FIG. 11 is a cross-section view taken along line 11-11 of
FIG. 10.
[0023] FIG. 12 is an enlarged view of a portion of FIG. 3 with the
door assembly in a closed position.
[0024] FIG. 13 is an enlarged view of a portion of FIG. 3 with the
door assembly in the in an open position.
[0025] FIG. 14 is a side view of a portion of a partially assembled
second exemplary vehicle in accordance with the disclosed subject
matter.
DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS
[0026] A few inventive aspects of the disclosed embodiments are
explained in detail below with reference to the various figures.
Exemplary embodiments are described to illustrate the disclosed
subject matter, not to limit its scope, which is defined by the
claims. Those of ordinary skill in the art will recognize a number
of equivalent variations of the various features provided in the
description that follows.
[0027] I. Overall Vehicle
[0028] FIGS. 1 and 2 are a perspective view and a top view,
respectively, of a first exemplary vehicle 10 in accordance with
the disclosed subject matter. The exemplary vehicle 10 of FIGS. 1
and 2 is configured for travel along any one or combination of
improved, unimproved, and unmarked paths. The vehicle 10 can be
specialized for use on an unimproved path or on an unmarked path,
and be referred to as a multipurpose utility vehicle (MUV) or as a
side-by-side all-terrain vehicle (S.times.S, or S.times.S ATV).
[0029] The vehicle 10 can include a body 12, a pair of front
wheels, 14L, 14R, a pair of rear wheels 16L, 16R (the right-side
rear wheel 16R is obstructed from view in FIG. 1 and is shown in
FIG. 2), a roll cage 18, a pair of front door assemblies 20L, 20R,
a pair of rear door assemblies 21L, 21R, a frame assembly, and a
powertrain. The frame assembly is hidden from view in FIG. 1 by the
body, and the powertrain is omitted from FIG. 1 for simplicity and
clarity of the drawing.
[0030] The vehicle 10 can include a pair of front seats 22L, 22R
and a pair of rear seats 23L, 23R mounted in a passenger area of
the vehicle 10. The roll cage 18 can be configured to extend around
and above the seats 22L, 22R, 23L, 23R and the passenger area. The
roll cage 18 can cooperate with the body 12 and/or at least a
portion of the frame assembly to define a pair of door openings
through which a passenger may pass in order to enter or exit the
passenger area.
[0031] The door assemblies 20L, 20R, 21L, 21R can be configured to
selectively open and close access through the door openings by
moving between a closed position and a fully opened position. In
the closed position, the door assemblies 20L, 20R, 21L, 21R can
span the respective door openings to obstruct access to the
passenger area via the door openings. In the closed position, the
front portion of the door assembly 20L, 20R, 21L, 21R can be
latched to the roll cage 18. The fully opened position can be any
position where the door assemblies 20L, 20R, 21L, 21R are pivoted
away from the respective door openings to provide substantially
unobstructed access to the passenger area via the door openings.
FIG. 1 shows the door assemblies 20L, 20R, 21L, 21R in the closed
position. FIG. 2 shows the left-side front door assembly 20L in a
fully opened position and the remaining door assemblies 20R, 21L,
21R in the closed position.
[0032] II. Door Assembly
[0033] FIG. 3 shows an exemplary embodiment of the left-side front
door assembly 20L. The right-side door assembly 20R can be the same
as, i.e., mirror image of, the left-side door assembly 20L. The
rear door assemblies 21L, 21R can be configured with similar
structure as the front door assemblies 20L, 20R but with a
different overall aesthetic appearance and geometry. Each door
assembly 20L, 20R, 21L, 21R can include a door 24, window panel
assembly 26, hinge assembly 28, and handle and latch assembly
30.
[0034] Each door assembly 20L, 20R, 21L, 21R can be configured as a
rear-hinged door assembly. The window panel assembly 26 can be
connected to the door and the roll cage 18 in any appropriate
manner that can permit the door 24 and window panel assembly 26 to
pivot as a unit between open and closed positions, such as adjacent
a rear edge of the door 24. This configuration obviates
disconnecting the window panel assembly 26 from either or both of
the door 24 and the roll cage 18 during ingress and egress with the
passenger area, thereby simplifying such ingress and egress.
Further details of the connection between the window panel assembly
26 and the each of the door 24 and the roll cage 18 will be
discussed below.
[0035] As shown in FIG. 3, the door 24 can include an inner door
panel 32 and an outer door panel 34 connected to the inner door
panel 32 in any appropriate manner, such as but not limited to
mechanical fastener(s), adhesive, welding, interference fit,
snap-fit, etc. At least a portion of the hinge assembly 28 and at
least a portion of the handle and latch assembly 30 can be housed
between the door panels 32, 34. The inner door panel 32 can be
configured to provide enhanced strength and/or rigidity to the door
24. The outer door panel 34 can be configured to provide an
aesthetic appearance for the exterior surface of the door 24.
[0036] The hinge assembly 28 can include a hinge post 36, an upper
door mount 38 and a lower door mount (omitted for clarity and
simplicity of FIG. 3--see, for example, lower door mount 239 in
FIG. 14). The hinge post 36 can be connected to one or both of the
door panels 32, 34. An upper end of the hinge post 36 can be
rotatably connected to the upper door mount 38, and a lower end of
the hinge post 36 can be rotatably connected to the lower door
mount. The upper door mount 38 and lower door mount can be rigidly
connected to the frame and/or the roll cage 18 in any appropriate
manner, such as but not limited to mechanical fastener(s),
adhesive, welding, etc.
[0037] III. Window Panel Assembly
[0038] As shown in FIGS. 3 and 4, the window panel assembly 26 can
include a frame member 44, an interior member 46, and a plurality
of connector assemblies.
[0039] The frame member 44 can be formed from any appropriate
known, related art or later developed material, such as a flexible
material including but not limited to polyester, nylon, etc. The
frame member 44 can be configured from individual strips that can
be connected together in any appropriate manner, such as but not
limited to sewing, adhesive, mechanical fastener(s), etc.
[0040] The window panel assembly 26 can be configured using a
variety of materials, including a net assembly and/or a transparent
panel assembly. FIGS. 1-4 illustrate the exemplary window panel
assembly 26 configured as a net. FIG. 14 illustrates a front
left-side door assembly 220L that can include a window panel
assembly configured as a net and a rear left-side door assembly
221L that can include a window panel assembly configured as a
transparent panel assembly.
[0041] If the window panel assembly 26 is configured as a net
assembly, the interior member 46 can be configured as a mesh formed
from a plurality of criss-crossing and spaced apart strips, wires,
threads, etc., or formed by making holes in a solid sheet of
material. The mesh interior member 46 can be formed from any
appropriate known, related art or later developed material, such as
but not limited to polyester, nylon, etc. The mesh interior member
46 can be formed by any appropriate process, such as but not
limited to molding, weaving, etc. The openings of the mesh interior
member 46 can be formed with any appropriate geometry, such as but
not limited to polygonal, circular, etc. The openings of the mesh
interior member 46 can have any dimension(s) appropriate for the
desired performance of the window panel assembly 26 configured as a
net. The mesh interior member 46 can be secured to and surrounded
by the frame member 44 in any appropriate manner, such as but not
limited to sewing, adhesive, crimping, etc. In an exemplary
embodiment, each individual strip of the frame 44 can be folded,
the mesh interior member 46 can be inserted into the folded strips,
and each half of each folded strip can be sewn together, thereby
sandwiching the mesh interior member 46 in each folded strip of the
frame 44.
[0042] If the window panel assembly 26 is configured as a
transparent panel assembly, interior member 46 can be configured as
a transparent or semi-transparent pane. The interior member 46 can
be solid or can include one or more holes to achieve desired
performance. The interior member 46 also can be flexible so that
the window panel assembly 26 can be rolled or folded, as needed.
However, exemplary embodiments are intended to include a
transparent pane interior member 46 that is rigid to the extent
that the pane interior member 46 will not move with respect to
itself during normal operation of the vehicle, and cannot be rolled
or folded without the use of a tool. The interior member 46 can be
formed from any appropriate material such as but not limited to
polyvinylchloride, methyl methacrylate (a.k.a., acrylic glass),
other vinyls, glasses, metal foils, etc., and can include various
films thereon such as one-way mirrored films, paints, etc.
[0043] The plurality of connector assemblies can be configured as
any appropriate device or assembly, such as but not limited to
mechanical fasteners, tethers, etc., that can removably or
non-removably connect the window panel assembly 26 to the door 24
and the roll cage 18. In the exemplary embodiment, the plurality of
connector assemblies can include a plurality of tether straps 48,
50, 52, 54, 56, a plurality of connector members 58, 60, 62, and a
plurality of D-ring pairs 64, 66. However, exemplary embodiments
are intended to cover a plurality of connector assemblies that
include a plurality of string pairs configured to be tied around
the roll cage 18 or a portion of the door 24; a plurality of straps
configured to wrap around the roll cage 18 or a portion of the door
24 and provided with one of a snap fastener, buckle fastener, hook,
and loop type fastener.
[0044] Each of the tether straps 48, 50, 52, 54, 56 can be spaced
about the perimeter of the frame member 44. Each of the tether
straps 48, 50, 52, 54, 56 can include a first end connected to the
frame member 44 in any appropriate manner, such as but not limited
to sewing, adhesive, mechanical fastener(s), etc. Each of the
tether straps 48, 50, 52, 54, 56 can include a second free end
spaced beyond the perimeter of the frame member 44. In other words,
each of the tether straps 48, 50, 52, 54, 56 can extend away from
the frame member 44. Each of the tether straps 48, 50, 52, 54, 56
can be formed from any appropriate material, such as but not
limited to polyester, nylon, etc., that can permit the tether
straps 48, 50, 52, 54, 56 to wrap around the roll cage 18.
[0045] A first connector member 58 can be connected to the second
end of the first tether 48 in any appropriate manner. The first
connector member 58 can be configured to connect the first tether
strap 48 to the door 24. Details of the first connector member 58
will be discussed below with reference to FIGS. 10-13.
[0046] The second window mount assembly 42 can include a second
connector member 60 and a receiving portion. The receiving portion
can be formed on the upper door mount 38. The second connector
member 60 can be connected to the second end of the second tether
strap 50 in any appropriate manner. In the exemplary embodiment of
FIG. 4, the second connector member 60 can include a substantially
flat body, an elongated slot, and a hole. The elongated slot can be
configured to receive a portion of the second tether strap 50. The
second free end of the second tether strap 50 can pass through the
elongated slot, be folded back onto a portion of the second tether
strap 50, and be secured to this portion in any appropriate manner,
such as but not limited to sewing, adhesive, or mechanical
fastener(s). The second connector member 60 can be connected to the
receiving portion of the upper door mount 38 in any appropriate
manner, such as but not limited to a mechanical fastener, mating
mechanical structure, adhesive, welding, etc. Exemplary embodiments
are intended to include the hole formed in the second connector
member 60 that can be configured to receive a mechanical fastener,
such as but not limited to a pin, bolt, screw, rivet, etc.
Exemplary embodiments are intended to include a configuration
wherein the second connector member is connected to any other
appropriate portion of the door 24, such as but not limited to the
inner door panel 32, outer door panel 34, and top edge of the door
24.
[0047] A third connector member 62 can be connected to the second
end of the third tether strap 52 in any appropriate manner. In the
exemplary embodiment of FIG. 4, the third connector member 62 can
include a substantially flat body, elongated slot, and pair of
holes. The elongated slot can be configured to receive a portion of
the third tether strap 50. The second free end of the third tether
strap 52 can pass through the elongated slot, be folded back onto a
portion of the third tether strap 52, and be secured to this
portion in any appropriate manner, such as but not limited to
sewing, adhesive, or mechanical fastener(s). The third connector
member 62 can be connected to the roll cage in any appropriate
manner, such as but not limited to a mechanical fastener, mating
mechanical structure, adhesive, welding, etc. Exemplary embodiments
are intended to include a mounting hole formed in the second
connector member 60 that can be configured to receive a mechanical
fastener, such as but not limited to a pin, bolt, screw, rivet,
etc. Exemplary embodiments are intended to include a configuration
where the second connector member is connected to any other
appropriate portion of the door 24, such as but not limited to the
inner door panel 32, outer door panel 34, and top edge of the door
24.
[0048] A first pair of D-rings 64 can be connected to the frame
member 44 in any appropriate manner, such as but not limited to a
mounting loop formed in the fourth tether strap 54. The first one
of the pair of D-rings 64 obscures from view (in the perspective of
FIG. 4) the second one of the pair of D-rings 64. The fourth tether
strap 54 can be wrapped around a portion of the roll cage 18 and
threaded through the first pair of D-rings 64 to hold the fourth
tether strap 54 taught.
[0049] A second pair of D-rings 66 can be connected to the frame
member 44 in any appropriate manner, such as but not limited to a
mounting loop formed in the fifth tether strap 56. The first one of
the pair of D-rings 66 obscures from view (in the perspective of
FIG. 4) the second one of the pair of D-rings 66. The fifth tether
strap 56 can be wrapped around a portion of the roll cage 18 and
threaded through the second pair of D-rings 66 to hold the fifth
tether strap 56 taught.
[0050] As shown in phantom in FIG. 4, first and second hooks 68, 70
can be mounted to the roll cage 18 to support the fourth and fifth
tether straps 54, 56 in the desired position on the roll cage
18.
[0051] Referring to FIGS. 1-4, desired performance of the window
panel assembly 26 can cause the location for the connection of the
third tether strap 52 to the roll cage 18 to be misaligned with the
hinge axis A of the hinge assembly 28. Due to this misalignment,
the first tether strap 48 can be urged to move away from the door
24 in the direction of arrow B of FIG. 3, if the door assembly 20L
moves from the closed position toward the fully opened
position.
[0052] If the window panel assembly 26 is in a taught state with
each door assembly 20L, 20R, 21L, 21R in the closed position, and
the window panel assembly 26 is rigidly connected to the door 24,
then an elastic deformation limit of the window panel assembly 26
can operate to limit movement of each door assembly 20L, 20R, 21L,
21R to only a partially open position. In other words, the
elasticity of the window panel assembly 26 can be less than a
stroke distance, where the stroke distance can be the distance
between: 1) the position of the first connector member 58 if the
door assemblies 20L, 20R, 21L, 21R are in the closed position, and
2) the location of the first connector member 58 if the door
assemblies 20L, 20R, 21L, 21R are in the opened position. This
partially opened position can delineate a range of motion that can
be less than the range of motion delineated by the fully opened
position.
[0053] The window panel assembly 26 could be dimensioned to be in a
slacked state when the door assemblies 20L, 20R, 21L, 21R are in
the closed position so as to not impede the door assemblies 20L,
20R, 21L, 21R from reaching the fully opened position. In other
words, if the window panel assembly 26 is designed with an excess
length from the third tether strap 52 to the first tether strap 48,
then the window panel assembly 26 would be in a slacked state when
the door assemblies are in the closed position. However, this
slacked state of the window panel assembly 26 can reduce its
performance when the door is in the closed position, such as by not
fully spanning the desired opening above the door panels 32,
34.
[0054] Further, aligning the connection location of the third
tether strap 52 to the roll cage 18 so that it aligns with the
pivot axis of the hinge assembly 28 can reduce the performance of
the window panel assembly 26.
[0055] The first window mount assembly 40 can permit relative
motion between the window panel assembly 26 and the door 24 in
order to compensate for the stroke length, while maintaining the
window panel assembly 26 in a taught state if the door assemblies
20L, 20R, 21L, 21R move to any position between and including the
closed position and the fully opened position. Thus, the first
window mount assembly 40 can facilitate enhanced performance for
the window panel assembly 26 and an advantageous range of the
motion for the door assemblies 20L, 20R, 21L, 21R.
[0056] IV. First Mount Assembly
[0057] FIGS. 5-13 illustrate exemplary features of the first window
mount assembly 40. The first window mount assembly 40 can include
the first connector member 58, a bracket 72, a spring guide 74 and
a spring 76. The bracket 72 can connected to the inner door panel
32 in any appropriate manner, such as but not limited to mechanical
fasteners, adhesive, welding, etc. The first connector member 58
can be connected to the spring guide 74 in any appropriate manner,
such as but not limited to mechanical fasteners, adhesive, welding,
etc. The bracket 72 can support and guide the first connector
member 58 and the spring guide 74 as the first connector member 58
and the spring guide 74 move relative to the bracket 72 between
first and second positions. A first end of the spring 76 can be
supported by the bracket 72, and a second end of the spring 76 can
be supported by the spring guide 74. The spring guide 74 can
contain or house at least a portion of the spring 76 as the spring
guide 74 moves between the first and second positions.
[0058] Referring to FIGS. 5-7, the bracket 72 can include a base
portion 78, a flange portion 80, a fastener member 82 and an
aperture 84. The bracket 72 can be formed from any appropriate
material, such as but not limited to metals, plastics, carbon
fiber, ceramics, etc. The bracket 72 can be formed by any
appropriate process, such as stamping, CNC milling, laser cutting,
cutting with a water jet, molding, sintering, autoclaving, etc., or
any combination of these exemplary processes. Exemplary embodiments
are intended to include a bracket 72 stamped and/or machined from a
steel blank or steel sheet.
[0059] The base portion 78 can abut the inner surface of the inner
door panel 32. The fastener member 82 can be configured as a
threaded weld nut attached adjacent to a first end of the base
portion 78. As shown in the exemplary embodiment of FIGS. 12 and
13, a bolt can be threaded through the fastener member 82 to
connect the base portion 78 of the bracket 72 to the inner door
panel 32.
[0060] The flange portion 80 can extend from a second end of the
base portion 78 that is spaced from and opposite to the first end
of the base portion 78. The flange portion 80 can extend
substantially perpendicular to the base portion 78. The flange
portion 80 can extend from the same face of the base portion 78
that includes the fastener member 82.
[0061] The aperture 84 can extend through the flange portion 80.
The aperture 84 can include a substantially C-shaped slot 86 and a
pair of keyway portions 88A, 88B. As will be discussed in detail
below, the spring guide 74 can be configured to engage the
perimeter of the slot 86, and can pass through the slot 86 as the
spring guide 74 moves between the first and second positions. Thus,
the bracket 72 can support and guide the first connector member 58
and the spring guide 74 as the first connector member 58 and the
spring guide 74 move between the first and second positions. The
C-shaped slot 86 can define a stem portion 90 and a head portion
92.
[0062] As shown in FIGS. 8, 9, 12 and 13, the spring guide 74 can
include a main body portion 94, a mounting portion 96 and a pair of
arm portions 98A, 98B. The arm portions 98A, 98B can be connected
to and extend from a first end of the main body portion 94. The
mounting portion 96 can be connected to and extend from a second
end of the main body portion 94 opposite the first end. The spring
guide 74 can be formed as a single homogenous unit from any
appropriate material, such as but not limited to plastics, metals,
ceramics, carbon fiber, etc. The spring guide 74 can be formed by
any appropriate process, such as but not limited to molding,
extruding, sintering, autoclaving, etc. Exemplary embodiments are
intended to cover a spring guide 74 formed from a plurality of
sub-components that can be connected together in any appropriate
manner, such as but not limited to mechanical fasteners, adhesive,
welding, interference fitting, etc. Exemplary embodiments are
intended to cover a spring guide 74 made by injection molding a
polyoxymethylene material.
[0063] The main body portion 94 can be hollow and substantially
cylindrical in shape. The main body portion 94 can include an
elongated slot 100 and a cut-out portion 102. The elongated slot
100 can extend from the first end of the main body portion 94 to
the second end. The elongated slot 100 can be centered between the
arm portions 98A, 98B. The cut-out portion 102 can extend a certain
distance from the first end of the main body portion 94 toward the
second end. The length of the elongated slot 100 can be any
appropriate length that can permit the desired range of motion of
the door assemblies 20L, 20R, 21L, 21R to include the desired fully
opened position.
[0064] The spring 76 can be housed within the hollow interior of
the main body portion 94. The spring 76 can be configured as a coil
spring. A first end of the spring 76 can abut an end surface 104 of
the spring guide 74. The end surface 104 can be annular in shape
with a centered opening. The second end of the spring 76 can abut
the stem portion 90 of the bracket 72. As viewed in FIGS. 12 and
13, the spring 76 can be compressed between the end surface 104 of
the spring guide 74 and the stem portion 90 of the bracket 72, as
the spring guide 74 and the first connector member 58 move relative
to the bracket 72 from the first position (shown in FIG. 12) to the
second position (shown in FIG. 13).
[0065] Assembly of the spring guide 74 to the bracket 72 will be
described with reference to FIGS. 7-9. With the spring 76 received
in the hollow interior of the main body portion 94, the spring
guide 74 can be aligned with the aperture 84 in the flange portion
80 of the bracket 72, so that the first arm portion 98A aligns with
the first keyway portion 88A, and the second arm portion 98B aligns
with the second keyway portion 88B. In this alignment, the stem
portion 90 of the bracket 72 can align with the cut-out portion 102
of the spring guide 74. Then, the stem 90 can be received by the
cut-out portion 102 as the arm portions 98A, 98B pass through the
respective keyway portions 88A, 88B. If the arm portions 98A, 98B
pass through to the other side of the respective keyway portions
98A, 98B, then the spring guide 74 or the bracket 72 can be rotated
so that the arm portions 98A, 98B are misaligned with the keyways
88A, 88B and the stem 90 is aligned with the elongated slot 100.
The bias force exerted by the spring 76 can cause the arm portions
98A, 98B of the spring guide 74 to engage the end face 110 of the
bracket 72.
[0066] FIGS. 10 and 11 show an exemplary embodiment of the first
connector member 58. The first connector member 58 can have a
substantially rectangular shape. The first connector member 58 can
be made from any appropriate material, such as but not limited to
plastics, metals, ceramics, carbon fibers, etc. The first connector
member 58 can be formed by any appropriate process, such as
molding, stamping, extruding, sintering, autoclaving, etc.
Exemplary embodiments are intended to cover a first connector
member 58 injection molded from polypropylene. The connector member
58 can include an elongated slot 106 and a mounting hole 108.
[0067] The first tether strap 48 can be connected to the first
connector member 58 by threading the free end of the first tether
strap 48 through the elongated slot 106, and folding the free end
of the first tether strap 48 back onto the first tether strap 48.
The folded free end can be secured to the first tether strap 48 and
sewn onto the first tether strap 48. Thus, the first connector
member 58 can be secured to a loop formed adjacent to the free end
of the first tether strap 48.
[0068] The mounting hole 108 of the first connector member 58 can
be aligned with a mounting hole formed in the end face 110 of the
mounting portion 96 of the spring guide 74, and then secured by any
appropriate mechanical fastener, such as but not limited to a nut
and bolt, pin and cotter pin, rivet, screw, etc. Thus, the spring
housing 74 can move in unison with the first connector member
58.
[0069] After securing the first tether strap 48 to the first
connector member 58, and connecting the spring guide 74 to the
bracket 72, the first connector member 58 can be passed through an
opening formed between the flange portion 80 and the base portion
78 of the bracket 72. Then, the first connector member 58 can be
secured to the mounting portion 96 of the spring guide 74 as
described above.
[0070] Operation of the first window mount assembly 40 will be
described with reference to FIGS. 12 and 13. FIG. 12 shows the
position of the various exemplary components of the first window
mount assembly 40 if the door assembly 20L is in the closed
position. FIG. 13 shows the position of the various exemplary
components of the first window mount assembly 40 if the door
assembly 20L is in an opened position.
[0071] As discussed above, the first window mount assembly 40 can
compensate for any restriction placed on the range of motion for
the door assemblies 20L, 20R by the connection between the third
tether strap 52 and the roll cage 18. In other words, the first
window mount assembly 40 can permit the first connector member 58
to move through a stroke distance S as the door assemblies 20L, 20R
move between the closed position and the fully opened position. As
disclosed above, the length of the elongated slot 100 can be
dimensioned provide the stroke distance S.
[0072] If the door assemblies 20L, 20R, 21L, 21R are in the closed
position, then the first connector member 58 can be in the position
shown in FIG. 12. Here, the first connector member 58 can be spaced
from the flange portion 80 of the bracket 72 by a stroke distance
S.
[0073] If the door assemblies 20L, 20R, 21L, 21R are in the fully
opened position, then the first connector member 58 can be in the
position shown in FIG. 13. Here, the first connector member 58 can
engage the flange portion 80 of the bracket 72. Thus, the first
window mount assembly 40 can permit a portion of the window panel
assembly 26 to move relative to the door 24 through the stroke
distance S in the direction of arrow B.
[0074] If the door assemblies 20L, 20R, 21L, 21R are in the closed
position, then the bias force exerted by the spring 76 can urge the
first connector member 58 away from the flange portion 80 of the
bracket 72, and can urge the arm portions 98A, 98B into engagement
with the end face 110 on the flange portion 80 of the bracket 72.
In other words, the spring 72 can cause the first connector member
58 to move through the stroke distance S in a direction opposite to
the direction of arrow B. Thus, if the door assemblies 20L, 20R,
21L, 21R are in the closed position, then the spring 76 can
compensate for the stroke length S while maintaining the window
panel assembly 26 in a taught state.
[0075] Thus, the first window mount assembly 40 can permit relative
displacement of a connection between the window panel assembly 26
and the door 24 so that the door assemblies 20L, 20R, 21L, 21R can
reach the desired fully opened position. Additionally, the first
window mount assembly 40 can maintain the window panel assembly 26
in a taught state as the door assemblies move between the closed
position and the fully opened position.
[0076] V. Second Exemplary Vehicle
[0077] FIG. 14 illustrates a portion of a second exemplary vehicle
210 in a partially assembled state and in accordance with the
disclosed subject matter.
[0078] The exemplary vehicle 210 of FIG. 14 is configured for
travel along any one or combination of improved, unimproved, and
unmarked paths. The vehicle 210 can be specialized for use on an
unimproved path or on an unmarked path, and referred to as a
multipurpose utility vehicle (MUV) or as a side-by-side all-terrain
vehicle (S.times.S, or S.times.S ATV).
[0079] The vehicle 210 can include a body, a pair of front wheels,
a pair of rear wheels, a roll cage 218, a pair of front door
assemblies (the left-side front door assembly 220L obstructs the
view of the right-side front door assembly), a pair of rear door
assemblies (the left-side rear door assembly 221L obstructs the
view of the right-side rear door assembly), a frame assembly 211,
and a powertrain. The body, wheels, seats and powertrain are
omitted from FIG. 14 for clarity and simplicity of the drawing.
[0080] The roll cage 218 can be configured to extend around and
above the seats and the passenger areas. The roll cage 218 can
cooperate with the body and/or at least a portion of the frame
assembly 211 to define a pair of front door openings and a pair of
rear door openings through which a passenger may pass in order to
enter or leave the passenger area.
[0081] The left-side door assemblies 220L, 221L (and the right-side
door assemblies) can be configured as described above with respect
to FIGS. 1-13. As an exemplary embodiment, the front left-side door
assembly 220L can include a widow panel assembly 26 configured as a
net assembly and the rear left-side door assembly 221L can include
a window panel assembly 26 configured as a transparent panel
assembly. In other words, the front left-side door assembly 220L
can include a mesh interior member and the rear left-side door
assembly 221L can include a transparent pane interior member.
However, exemplary embodiments are intended to cover a front
left-side door assembly 220L that can include a transparent pane
interior member and the rear left-side door assembly 221L that can
include a mesh interior member, and any combinations thereof.
Exemplary embodiments also include each of the left-side and
right-side door assemblies including a net assembly or each of the
left-side and right-side door assemblies including a transparent
panel assembly. Operation of the left-side door assemblies 220L,
221L (and the right-side door assemblies) can be as described above
with respect to FIGS. 1-13.
VI. Alternative Embodiments
[0082] While certain embodiments of the invention are described
above, and FIGS. 1-14 disclose the best mode for practicing the
various inventive aspects, it should be understood that the
invention can be embodied and configured in many different ways
without departing from the spirit and scope of the invention.
[0083] The vehicle 10 of FIGS. 1-13 and the vehicle 210 of FIG. 14
have a pair of both front and rear doors. However, embodiments are
intended to include or otherwise cover vehicles having any number
of doors, including any odd or even number of doors. In fact,
various of the features and elements disclosed above can be applied
in contexts other than doors. For example, various of the inventive
aspects can be applied in the context of any assembly or element
that is rotatably movable, such as a vehicular rear hatch, etc.
Still further, various of the inventive aspects can be applied to
structures that are unrelated to vehicles.
[0084] The vehicle 10 of FIGS. 1-13 and the vehicle 210 of FIG. 14
have four seats arranged in two rows. However, embodiments are
intended to include or otherwise cover vehicles having any number
of seats all arranged in a row, or all arranged in tandem, or
arranged in any number of rows. Embodiments are intended to include
or otherwise cover a single seat for each vehicle occupant, or a
single seat for a plurality of vehicle occupants (also referred to
as a bench seat).
[0085] Some of the embodiments disclosed above utilize a spring,
such as spring 76, as a tensioning device. However, embodiments are
intended to include or otherwise cover any other known, related
art, or later developed apparatus or structure for performing this
tensioning.
[0086] The power source can be an internal combustion engine, an
electric motor, or a hybrid of an internal combustion engine and an
electric motor. The power source configured as an internal
combustion engine or a hybrid power source can have the engine
output axis oriented in the longitudinal direction L or in the
traverse direction T of the vehicle. The engine can be mounted
forward of the front axles, rearward of the rear axles, or
intermediate the front and rear axles.
[0087] A vehicular transmission can be used that an automatic
transmission, a manual transmission, or a semi-automatic
transmission. The transmission can include an input shaft, an
output shaft, and a speed ratio assembly.
[0088] Embodiments are also intended to include or otherwise cover
methods of using and methods of manufacturing any or all of the
elements disclosed above. The methods of manufacturing include or
otherwise cover processors and computer programs implemented by
processors used to design various elements of the adjustable arm
rest mechanism disclosed above.
[0089] While the subject matter has been described in detail with
reference to exemplary embodiments thereof, it will be apparent to
one skilled in the art that various changes can be made, and
equivalents employed, without departing from the scope of the
invention. All related art references discussed in the above
Description of the Related Art section are hereby incorporated by
reference in their entirety.
* * * * *