U.S. patent application number 10/477262 was filed with the patent office on 2004-10-28 for tube shaft for a vacuum cleaner.
Invention is credited to Ueda, Kaoru.
Application Number | 20040211029 10/477262 |
Document ID | / |
Family ID | 20284313 |
Filed Date | 2004-10-28 |
United States Patent
Application |
20040211029 |
Kind Code |
A1 |
Ueda, Kaoru |
October 28, 2004 |
Tube shaft for a vacuum cleaner
Abstract
A tube shaft for a vacuum cleaner comprising upper and lower
tube-shaped parts (11, 14) which by way of a link means (16) are
pivotally connected to one another. The link means (16) is provided
with a locking mechanism for locking the two tube-shaped parts in
one or several angular positions with respect to one another. The
tube shaft comprises an operating means (21) arranged at a distance
from and above said link means (16). The operating means (21) is
connectable to the locking mechanism for activating or deactivating
the locking means.
Inventors: |
Ueda, Kaoru; (Vastervik,
SE) |
Correspondence
Address: |
PEARNE & GORDON LLP
1801 EAST 9TH STREET
SUITE 1200
CLEVELAND
OH
44114-3108
US
|
Family ID: |
20284313 |
Appl. No.: |
10/477262 |
Filed: |
June 16, 2004 |
PCT Filed: |
May 17, 2002 |
PCT NO: |
PCT/SE02/00949 |
Current U.S.
Class: |
15/414 |
Current CPC
Class: |
A47L 9/242 20130101 |
Class at
Publication: |
015/414 |
International
Class: |
A47L 009/02 |
Foreign Application Data
Date |
Code |
Application Number |
May 31, 2001 |
SE |
0101924-9 |
Claims
1. A tube shaft for a vacuum cleaner comprising an upper
tube-shaped part (11); a lower tube-shaped part (14); a link means
(16) pivotally connecting the lower tube-shaped part (14) to the
upper tube-shaped part (11), the link means (16) being provided
with a locking mechanism (32, 37) for locking the two tube-shaped
parts in one or several angular positions with respect to one
another, characterized in that there is an operating means (21)
arranged at a distance from and above said link means (16), the
operating means (21) being connected to the locking mechanism (32,
37) for activating or deactivating the locking means.
2. The tube shaft according to claim 1 characterized in that the
operating means is connected to the locking mechanism (32, 37) by
one of a wire, a draw bar and a push rod (20).
3. The tube shaft according to claim 1 or 2, characterized in that
the operating means (21) comprises a sleeve surrounding the upper
tube-shaped part (11).
4. The tube shaft according to claim 1, characterized in that the
locking mechanism comprises a spring loaded latch means (32) for
engaging a recesses (38) on a cam surface, the latch following a
pivoting motion of one of the upper tube-shaped part and the lower
tube-shaped part, and the cam surface following a pivoting motion
of the other one of the upper tube-shaped part and the lower
tube-shaped part.
5. The tube shaft according to claim 2, characterized in that said
one of the wire, the draw bar and the push rod is arranged in a
groove (22) on the outside of the upper tube-shaped part (11).
6. The tube shaft according to claim 1, characterized in that at
least one of the upper tube-shaped part (11) and the lower
tube-shaped part (14) is movable telescopically through the link
means (16) when the upper tube-shaped part (11) is aligned with the
lower tube-shaped part (14).
7. The tube shaft according to claim 1, characterized in that the
link means (16) comprises a first link member (23) and a second
link member (24), the first link member (23) having a first
tube-shaped connecting part (26) for the lower tube-shaped
connecting part (14) and the second link member (24) having a
second tube-shaped connecting part (29) for the upper tube-shaped
part (11), the first link member (23) being pivotally connected to
the second link member (24) at an axis (25) located outside the
periphery of the upper tube-shaped part and the lower tube-shaped
part.
8. The tube shaft according to claim 7, characterized in that the
first link member (23) and the second link member (24) are provided
with a sealing surface (28) during a pivoting motion.
9. The tube shaft according to claim 1, characterized in that the
operating means (21) is located at an upper portion of the upper
tube-shaped part (11).
10. The tube shaft according to claim 6, characterized in that the
operating means (21) is in a connectable position when the
tube-shaped parts (11, 14) are in said angular positions.
Description
[0001] This invention relates to a tube shaft for a vacuum cleaner,
the tube shaft comprising at least one upper and a lower
tube-shaped part which via a link means are pivotally connected to
one another, the link means being provided with a locking mechanism
for locking the two tube-shaped parts in one or several angular
positions with respect to one another.
[0002] Conventional tube shafts for vacuum cleaners comprise
several tube-shaped elements that can be connected to one another
to form a communication between a nozzle and a tube handle by which
a hose is connected to the vacuum cleaner housing. It is also
previously known to use telescopic tube shafts for which the length
of the tube shaft can easily be adapted to the height of the
operator by pulling out a suitable length of an inner tube from an
outer tube before the elements are locked with respect to one
another.
[0003] To achieve improved ergonomic conditions during the vacuum
cleaning operation it has also been proposed to use tube shafts
that are provided with a link means for increasing the
accessibility below low details while maintaining the working
position as well as telescopic tube shafts of the same type, see SE
9802315-3 and U.S. Pat. No. 5,927,758.
[0004] A drawback of the last-mentioned types of tube shafts is
that the link means with its adjustment mechanism is placed
somewhat down at the tube shaft. Thus, the operator has to change
his position either by bending down in order to reach the
adjustment mechanism or by raising the tube shaft and nozzle.
[0005] The purpose of the present invention is to create a device
that fascilitates said adjusting operation which can be made with a
preserved working position. This is achieved by means of a device
having the characteristics mentioned in the claims.
[0006] An embodiment of the invention will now be described with
reference to the accompanying drawing on which
[0007] FIG. 1 shows a perspective view of a tube shaft according to
the invention;
[0008] FIG. 2 is an axial section through the tube shaft of FIG. 1
with link means, the tube parts and the locking mechanism being
shown in a first position;
[0009] FIG. 3 is an axial section through the tube shaft of FIG. 1
with link means, the tube parts and the locking mechanism being
shown in a second position;
[0010] FIG. 4 is an axial section through the tube shaft of FIG. 1
with link means, the tube parts and the locking mechanism being
shown in a third position;
[0011] FIG. 5 is an axial section through the tube shaft of FIG. 1
with link means, the tube parts and the locking mechanism being
shown in a fourth position; and
[0012] FIG. 6 is an axial section through the tube shaft of FIG. 1
with link means, the tube parts and the locking mechanism being
shown in a fifth position.
[0013] The present invention provides a device that fascilitates
the above-mentioned adjusting operation without the user changing
positions or raising the tube shaft and nozzle.
[0014] FIG. 1 shows a tube shaft 10 having an upper tube-shaped
part 11 connected to a tube handle 12. The tube handle 12 is
connected, by means of a hose 13, to a vacuum cleaner housing (not
shown) being provided with a vacuum source (not shown). The lower
tube-shaped part 14 is connected to a conventional nozzle 15 by
which dust laden air is sucked up into the tube shaft 10. The tube
shaft 10 has a link means 16 placed between the upper tube-shaped
part 11 and the lower tube-shaped part 14. Further, the tube shaft
10 has a locking mechanism 17. By means of the link means 16 and
the locking mechanism 17, the two tube-shaped parts 11, 14 can be
pivoted and locked with respect to one another.
[0015] The upper tube-shaped part 11 comprises a thin wall tube,
for instance of aluminium, which at its upper end is provided with
a socket for the tube shaft 12. The lower end of the upper
tube-shaped part 11 is provided with a seal 18 which in the
position shown in FIG. 2 abuts the inner surface of the thin wall
tube 14 which preferably is made of aluminium and which constitutes
the lower tube-shaped part 14. The two tubes-shaped parts 11, 14
are made such that the upper tube-shaped part 11 can be inserted
telescopically into the lower tube-shaped part 14. The upper
tube-shaped part 11 is provided with a an axially directed,
outwardly open groove 19 that partly surrounds a draw bar 20. As
shown in FIGS. 1 and 6, the upper part of the draw bar 20 is
connected to a sleeve 21 surrounding the upper tube-shaped part 11.
The draw bar 20 and sleeve 21 are arranged to be moved a limited
distance in the axial direction, a, of the tube-shaped part 11. As
shown in FIG. 2, the lower part of the draw bar 20 is provided with
a hook 22 constituting a part of the locking mechanism 17 and whose
function is described below.
[0016] The lower tube-shaped part 14 is supported by a first link
member 23 of the link means 16. The upper tube-shaped part 11 is
slidably arranged within a second link member 24. The two link
portions are pivotally arranged with respect to one another about
an axle or pin 25 which is located outside the two tube-shaped
parts 11,14. The two link members 23,24 may be made of plastic.
[0017] The fist link member 23 is provided with a tube-shaped
connection part 26 having the same inner diameter as the outer
diameter of the lower tube-shaped Jo part 14 and being a linear
extension of it. The upper end of the first link member 23 is
obliquely terminated with respect to the axial direction, al, of
the lower tube-shaped part 14 and is partly shaped as a shell 27
curved in two directions and having an inner surface 28 forming a
sealing surface for the lower end of the second link member 24.
[0018] The second link member 24 is also obliquely terminated with
respect to the axial direction, a.sub.2, of the upper tube-shaped
part 11. The second link member 24 comprises a tube-shaped
connecting part 29 within which the upper tube-shaped part 11 is
telescopically movable.
[0019] The second link member 24 also has a locking mechanism, not
shown, by means of which the upper tube-shaped part 11 can be
locked in different axial positions in a telescoping fashion with
respect to the link members 23, 24 and the lower tube-shaped part
14.
[0020] The connecting parts 26, 29 are respectively provided with
link portions 30, 31 supporting the pin 25. The second link member
24 is also provided with one or more laches 32 pivotally arranged
about a shaft 33 on the outside of the second link member 24 and
being fixedly connected to an operating arm 34. The operating arm
34 is connected to a spring loaded control knob 35 which is movably
arranged in the axial direction, a.sub.2, of the upper tube-shaped
part 11. The operating knob 35 is provided with an abuttment
surface 36 cooperating with the hook 22 in a way which will be
described below.
[0021] The first link member 23 is firmly secured to one or more
cam members 37. The cam members 37 are roughly pie-shaped shaped
and are supported for pivoting motion about the pin 25. Further,
the cam members 37 are provided with a cam surface having several
recesses 38 cooperating with the latch 32.
[0022] The tube shaft 10 operates in the following manner. FIG. 2
shows the upper tube-shaped part 11 partly inserted into the lower
tube-shaped part 14, and the two connecting parts 26 and 29 of the
two link members 23, 24 being in line with one another. When the
upper tube-shaped part 11 is pulled out from the lower tube-shaped
part 14 (see FIG. 3), the hook 22 of the draw bar 20 will engage
the abutting surface 36 at the same time as the link portions 30,
31 are no longer blocked since the upper tube-shaped part 11 is not
longer inserted through the link members 23, 24. In this position
the operator can now pull the sleeve 21 upwards to the position
shown in FIG. 1, causing the draw bar 20 to move the hook 22 which
lifts the operating knob 35 upwards against the spring forces such
that the latch 32 comes free from the cam member 37, see FIG. 4.
Thus, the upper and the lower part 11, 14 can now be pivoted to the
position shown in FIGS. 1 and 5, after which the operator releases
the sleeve 21 so that the latch 32 comes into engagement with a
suitable recess 38 to lock the parts 11 and 14 in this position
(see FIG. 5).
* * * * *