U.S. patent application number 09/795960 was filed with the patent office on 2002-02-21 for foam blocks for construction of mine tunnel stoppings.
Invention is credited to Damron, Danny Ray.
Application Number | 20020021042 09/795960 |
Document ID | / |
Family ID | 26882479 |
Filed Date | 2002-02-21 |
United States Patent
Application |
20020021042 |
Kind Code |
A1 |
Damron, Danny Ray |
February 21, 2002 |
Foam blocks for construction of mine tunnel stoppings
Abstract
A light weight foam block being substantially rectangular in
shape, having horizontal and vertical pairs of tongues and grooves
around its perimeter enabling it to interlock with horizontally and
vertically adjacent blocks to construct a mine stopping wall.
Inventors: |
Damron, Danny Ray;
(Pikeville, KY) |
Correspondence
Address: |
DANNY RAY DAMRON
274 LICK FORK
PIKEVILLE
KY
41501
US
|
Family ID: |
26882479 |
Appl. No.: |
09/795960 |
Filed: |
February 28, 2001 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60186846 |
Mar 3, 2000 |
|
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Current U.S.
Class: |
299/12 ; 405/132;
446/124; 454/169; 52/309.6 |
Current CPC
Class: |
E21F 1/14 20130101 |
Class at
Publication: |
299/12 ; 454/169;
446/124; 52/309.6; 405/132 |
International
Class: |
E21F 001/14 |
Claims
What is claimed is:
1. A light weight foam block being rectangular in shape and having
horizontal and vertical pairs of tongues and grooves around its
perimeter that enable it to interlock with horizontally and
vertically adjacent blocks for construction of mine stoppings.
2. Block of claim 1 wherein the foam is a foamable plastic
material.
3. Block of claim 1 wherein the foam is polyurethane.
4. Block of claim 1 wherein the foam is polyisocyanurate.
5. Block of claim 1 wherein the foam is phenolic.
6. Block of claim 1 wherein the foam is polyester.
7. Block of claim 1 wherein stopping wall is coated by a fireproof
coating.
8. Block of claim 1 wherein the foam is fire proof and does not
need a coating.
9. Block of claim 1 wherein the foam is made fire proof by adding
silicates.
10. Block of claim 1 wherein the foam is reinforced with glass
fibers.
11. Block of claim 1 wherein the foam is reinforced by matrix
material.
12. Block of claim 1 wherein the block is reinforced by an integral
skin.
13. Block of claim 1 wherein the block has only horizontal tongue
and groove.
14. Block of claim 1 placed in a vertical position to construct a
stopping wall.
15. Block of claim 1 wherein an adhesive is applied to tongues and
grooves.
Description
CROSS REFERENCES TO RELATED APPLICATIONS
[0001] This application claims the benefit of Provisional Patent
Application Ser. #60/186846 filed Mar. 03, 2000
BACKGROUND
[0002] 1. Field of Invention
[0003] This invention relates to the construction of ventilation
control devices or "stoppings" used in mine tunnels. The preferred
mine stopping of this invention is constructed of blocks made from
a light weight foaming material such as but not limited to
polyurethane foam and have a tongue and groove configuration.
[0004] 2. Description of Prior Art
[0005] Stopping devices are used to control and direct the flow of
fresh air throughout mine tunnels and more especially the working
face. Conventional stoppings consist of walls constructed of
concrete block. These walls are difficult to construct and very
labor intensive. For example one stopping could use 160 blocks
weighing 40 lbs each. This means 6400 lbs of blocks would have to
be loaded on a mining car on the outside of the mine. This load
would then be transported inside the mine, often a number of miles,
to the end of the track nearest the stopping construction site. At
this point this 6400 lb load of blocks most likely will have to be
manually unloaded from the car. If a scoop or other piece of
equipment is readily available they can be loaded directly into it
and hauled to the construction site. If haulage equipment is not
available these blocks will have to be manually unloaded to the
ground and later manually loaded onto haulage equipment and hauled
to the construction site. Once on the construction site these
blocks will be unloaded and stacked to make a stopping wall. This
illustration shows that these very heavy blocks most likely will
have to be handled 3 or 4 times from the outside to the
construction site. Moreover in many areas of a mine, the portion of
the mine tunnel to be stopped may be of a limited height and
cross-sectional area, requiring a miner to carry heavy concrete
blocks some distance in a crouched position or even on his hands
and knees.
[0006] The rigidity of a mine stopping of this type make it
susceptable to damage from heaving of the mine floor or sagging of
the mine roof. This damage to the stopping will cause air leakage
and will have to be repaired or in some cases totally rebuilt.
[0007] Prior arts attempt to overcome some of these burdens
associated with concrete block mine stoppings have included the use
of polyurethane filled bags by Bailey Patent #6082828, polyurethane
sheets by Jones Patent #6056638 and the use of a matrix material
coated with a sealant by Steffenino Patent #5934990. Each of these
have had little or no practical success.
[0008] Therefore it is evident that there is a great need for an
improved mine stopping, one that is easily transported, can be
readily constructed, even in difficult locations, and handle
convergent loads. This invention addresses these needs.
SUMMARY INCLUDING OBJECTS AND ADVANTAGES
[0009] The blocks of this invention are made of a light weight
foaming material such as but not limited to polyurethane foam and
have a tongue and groove configuration. The top of the block has a
tongue and the bottom has a groove. One end of the block has a
tongue and the other has the groove. As the bottom row is placed
the tongue on the end of the first block inserts into the groove of
the next block. Subsequent blocks are placed in like manner, with
tongues engaging grooves, across the opening to be stopped. A
second row of blocks will be placed on top of the first assuring
that the blocks end joints are staggered. The groove on the bottom
of this row of blocks will accept the tongue of the blocks of the
first row. Subsequent rows are done in a like manner until the
stopping wall is completed.
Objects and Advantages
[0010] Accordingly, several objects and advantages of my invention
are:
[0011] 1 provide an improved mine stopping that will permit
effective ventilation of the mine face.
[0012] 2 provide an improved mine stopping that will withstand
convergance of the mine floor and roof without failing thereby
extending the life of the stopping.
[0013] 3 provide an improved mine stopping which can be more
quickly and easily be installed.
[0014] 4 provide an improved mine stopping that will weigh less
therefore making it easier transported.
[0015] 5 provide a mine stopping block that can be re-used.
[0016] Still further objects and advantages will become apparent
from a consideration of the ensuing description and accompanying
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0017] FIG. 1 is a schematic diagram of a room and pillar mine.
[0018] FIG. 2 is an overall view showing tongue end of block.
[0019] FIG. 3 is a side view of FIG. 2
[0020] FIG. 4 is a top view of FIG. 2.
[0021] FIG. 5 is an overall view showing groove end of block.
[0022] FIG. 6 is an end view of block.
[0023] FIG. 7 is a top view of a row of blocks placed end to end
showing tongues and grooves engaged and stopping walls placement
between mine pillars.
[0024] FIG. 8 is an overall view of a stopping wall constructed by
using a plurality of blocks. Exposed end of wall also shows tongues
and grooves of the top and bottom of blocks engaged.
[0025] FIG. 9 is a view of stopping wall with a sealant being
applied.
Reference Numerals
[0026] 11 Mine tunnel column or "heading"
[0027] 12 Mine tunnel column or "heading"
[0028] 13 Mine tunnel column or "heading"
[0029] 14 Mine tunnel column or "heading"
[0030] 15 Mine tunnel column or "heading"
[0031] 16 Mine tunnel row or "crosscut"
[0032] 17 Mine tunnel row or "crosscut"
[0033] 18 Mine tunnel row or "crosscut"
[0034] 19 Mine tunnel row or "crosscut"
[0035] 20 Mine tunnel row or "crosscut"
[0036] 21 Pillars
[0037] 22 Intake air
[0038] 23 Stopping
[0039] 24 Curtain
[0040] 25 Curtain
[0041] 26 Air across working face
[0042] 27 Return air
[0043] 28 End of supply track
[0044] 29 Pillar walls
[0045] 31 Block
[0046] 32 Tongue on end of block
[0047] 33 Tongue on top of block
[0048] 34 Groove on end of block
[0049] 35 Groove on bottom of block
[0050] 36 Sealant
[0051] 37 First block to be laid
[0052] 38 First block of second row
[0053] 39 Tongue and grooves of first row
[0054] 40 Joints at ends of block
PREFERRED EMBODIMENT--DESCRIPTION
[0055] In describing this embodiment of the invention specific
terminology and dimensions will be used for the sake of clarity and
comparison to prior art. However, the invention is not intended to
be limited to these specific terms or dimensions, and it is to be
understood that each specific term includes all technical
equivalents which operate in a similar manner to accomplish a
similar purpose.
[0056] To facilitate understanding of the environment in which mine
stoppings are used, and air flow patterns are created, it is
believed the following discussion of FIG. 1 will be helpful.
[0057] In FIG. 1 a plurality of mine tunnels or "headings" are
represented by numbers 11-12-13-14-15. The area at these numbers 11
thru 15 will constitute the working face of the mine. Extending
perpindicular to and intersecting columns 11 thru 15 are tunnels
represented by rows 16-17-18-19-20. These rows are generally
referred to as "crosscuts". These columns and rows together form a
plurality of Pillars 21. As shown by arrows 22 intake air is
introduced into the number 11 column and is kept in number 11 by
permanent stoppings 23 and temporary Curtain 24. The air 26 is
guided across the working face by temporary curtains 25. Here it
picks up explosive gasses and dust then exits by way of column or
heading number 15. This gaseous laden air 27 is kept in heading 15
by Curtain 24 and stoppings 23. Curtains 24 are temporary devices
used to control the flow of air close by the working face
permitting workers and equipment to pass thru freely. As the mine
advances the next crosscut will be completed opening up another
row. When this happens curtains 25 will be moved up to the next row
of pillars. Curtains 24 will be moved up to row 16 and permanent
stoppings 23 will replace curtains 24. This cycle keeps the
integrity of the ventillation system
[0058] Another point that can be seen in FIG. 1 is the distance
from the end of the track 28 to the construction site of stoppings
24 as discussed in prior art.
[0059] Stoppings must provide the equivalent critical properties to
that of concrete blocks as defined by 30 cfr part 75.333 with
respect to durability, noncombustibility and surface
flammability;
[0060] 1--one hour fire resistance as described in astm 119-88
[0061] 2--traverse load strength as described in astm E72-80
[0062] 3--flame spread index of less than 25 as described in astm
E162.
[0063] The following description of the block of this invention
will be referred to FIGS. 2 thru 6. The block of this invention
could be 8 feet long FIG. 2-A, 18 inches in height FIG. 5-B, and 6
inches in depth FIG. 6-C. The weight of this block could be as
little as 10 pounds. This one block could replace 13.5 concrete
blocks that weigh a combined weight of 540 pounds. This block will
be made of a light weight foaming material such as but not limited
to polyurethane foam. Said block will have a tongue on top 33 and a
groove on bottom 35. One end of block will have a tongue 32 and the
opposing end will have a groove 34. This configuration allows each
block of a stopping wall to inter-connect with all adjacent blocks
both vertically and horizontally.
PREFERRED EMBODIMENT--OPERATION
[0064] A plurality of these blocks will be used to construct a
stopping wall FIG. 8. The stopping wall is constructed in the
following manner. The first block 37 of the bottom row is placed
against the pillar wall 29. The remaining blocks of this row are
placed end to end with tongues engaging grooves 32 & 34 across
the opening to the opposite pillar wall. FIG. 7 is a top view of a
row of blocks showing tongues and grooves connecting. The second
row is started by placing 1/2 block 38 against pillar wall and on
top of block 37. The bottom groove 35 in the blocks of the second
row engage the tongue 33 of the blocks of the first row. By
starting the second row with 1/2 block insures the vertical joints
40 will be staggered. The second row is completed in the same
manner as bottom row. The remaining rows are done in the same
manner until the wall reaches the roof of the room. Upon completion
the stopping is coated with a fireproof sealant 36 on both sides.
This sealant will also be used to seal any gaps around the
perimeter of the stopping and bind the stopping wall to the walls,
roof, and floor. Sandvik MTA, SMS, or Cisco Rediseal are only 3 of
the many sealants that may be used.
CONCLUSIONS, RAMIFICATIONS, AND SCOPE
[0065] Accordingly, it can be seen that the present invention
provides a light weight block that is easily transported and
assembled to construct a stopping wall that will withstand
convergent loads without failure and permit effective ventillation
to the mine face.
[0066] Although the description above contains many specificities,
these should not be construed as limiting the scope of the
invention but as merely providing illustrations of some of the
presently preferred embodiments of this invention. Various other
embodiments and ramifications are possible within it's scope. For
example, blocks of this invention could be cast in one piece or
could be assembled by using a plurality of flat sheets. A stopping
wall could be constructed with blocks in a vertical posture rather
than the horizontal posture of the preferred embodiment. It is seen
that variations and changes may be made by those skilled in the art
without departure from the spirit of the invention.
[0067] Thus the scope of the invention should be determined by the
appended claims and their legal equivalents, rather than by the
examples given.
* * * * *