KR102231823B1 - Gascylinder transfering device - Google Patents

Abstract

The present invention relates to a gas cylinder transferring device, which is implemented so that a gas cylinder, which cannot be used with a lifting device such as an elevator installed in a building, can be moved up and down along the outer wall of the building. The gas cylinder transferring device includes: a seating portion on which at least one gas cylinder is mounted; and an elevating unit installed on a roof of a building and winding or unwinding an elevating wire fastened to the mounting unit to elevate or lower the mounting unit along the outer wall of the building.

Description

Gas cylinder conveying device {GASCYLINDER TRANSFERING DEVICE}

The present invention relates to a gas cylinder conveying apparatus, and more particularly, to a gas cylinder conveying apparatus implemented to move a gas cylinder that cannot be used with an elevator installed in a building, such as an elevator, along an outer wall of a building.

In general, the following two methods are used to transport the liquefied natural gas cylinder.

First, the carrier is installed in the center frame of the vehicle. In use, the carrier is removed and the cylinder is mounted, and then the carrier is pushed back in and fixed to the center frame.

Another method is to mount the cylinder by using a hoist device that can be lifted or moved. The cylinder is lifted with a hoist and then placed in a predetermined position to release the hoist.

However, in the case of the conventional gas cylinder transfer device, it was difficult to install indoors of a building, and because of the nature of high-pressure gas, elevators installed in buildings are often not available, making it difficult to transfer heavy gas cylinders to higher floors of the building there was.

On the other hand, the above-described background technology is technical information that the inventor possessed for derivation of the present invention or acquired during the derivation process of the present invention, and is not necessarily known to be known to the general public prior to filing the present invention. .

Korean Patent Registration No. 10-0356218 Korean Patent Registration No. 10-2132170

An aspect of the present invention provides a gas cylinder conveying device implemented so that a gas cylinder that cannot use an elevator installed in a building, such as an elevator, can be moved up and down along an outer wall of a building.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A gas cylinder transport apparatus according to an embodiment of the present invention includes a seating portion on which at least one gas cylinder is seated; And it is installed on the roof of the building, by winding or unwinding the elevating wire fastened to the seating portion to lift or lower the seating portion along the outer wall of the building; includes.

In one embodiment, the seating portion is formed in a shape in which a plurality of straight frames extending in a vertical or horizontal direction are connected and installed to form an inner space, but the front end is so as to be seated after moving the gas cylinder to the inner space. A seating frame that is formed openly; A bottom plate formed in a flat plate shape so as to place the gas cylinder moved to the inner space of the seating frame and seated on the bottom surface of the seating frame; A plurality of fastening portions that are spaced apart from each other and installed along the front surface of the straight frame forming the rear end of the seating frame, and fastening the gas cylinders seated on the bottom plate to prevent movement during the elevation or lowering of the seating frame; And the elevating wire formed in the form of a flat plate extending in the horizontal direction and extending from the elevating part is fastened to the upper side, and the front and rear ends of one side and the other side, and the front and rear ends of one side and the other side of the seating frame. Mounting wires are respectively installed between the mounting plate for mounting the mounting frame; may include.

In one embodiment, the fastening part is seated on the front surface of the straight frame forming the rear end of the seating frame, and an arcuate groove having a shape corresponding to the side shape of the gas cylinder is formed on the front so that the gas cylinder can be seated. block; A fastening pin for fastening the mounting block to a straight frame forming a rear end of the mounting frame; And a fastening belt installed at a front end of the seating block to fasten the gas cylinder seated on the seating block.

In one embodiment, the bottom plate may be seated on the upper side of the floor support that is seated in the lower upper groove formed along the upper side of the straight frame forming the lower end of the seating frame.

In one embodiment, the floor support is disposed in the lower upper groove, and the first space, the second space, and the second space are provided by the first, second, and third partitions that are spaced apart from each other in an inner space. A box-shaped case divided into three spaces and a fourth space; It is formed by being bent upward in a "∩" shape to support the bottom plate, and the lower front end is inserted into the box-shaped case through a first opening formed on the upper side of the first space to be seated in the first space A first support portion connected and installed so that the lower end of the rear end is rotatable to the upper side of the box-shaped case; It is formed by being bent downward in a "∪" shape and is seated in the lower upper groove, and the upper end of the front end is inserted into the inside of the box-shaped case through a second opening formed at the lower side of the second space. A second support part seated and connected and installed so that the upper end of the rear end is rotatable to the lower side of the box-shaped case; It is formed by being bent upward in a "∩" shape to support the bottom plate, and the lower side of the front end is inserted into the inside of the box-shaped case through a third opening formed on the upper side of the third space to be seated in the third space A third support portion connected and installed so that the lower end of the rear end is rotatable to the upper side of the box-shaped case; And supported by the first partition wall, the second partition wall, and the third partition wall to penetrate the box-shaped case in the front and rear direction, and are installed, and each front end of the first support part, the second support part, and the third support part is It is fastened, and as it rotates in a clockwise or counterclockwise direction, while moving in the rear end direction of the box-shaped case, a gap adjustment bolt that moves each front end of the first support part, the second support part, and the third support part in the rear end direction. May include;

In one embodiment, the first support portion may increase the vertical height as the front lower side is moved in the rear end direction by the spacing adjusting bolt and the gap with the rear end is reduced.

In one embodiment, the spacing adjustment bolt is installed to pass through the box-shaped case in a front-rear direction, and is connected by engaging a thread formed on the inner circumferential surface of the through hole formed in the first partition wall, the second partition wall, and the third partition wall. Bolt body forming a thread along the outer surface so that it can be installed; A pair of first fixing disks spaced apart from each other from the bolt body with a front end of the first support part therebetween so that the front end of the first support part can be moved forward or backward as the bolt body moves forward or backward; A pair of second fixing disks spaced apart from each other from the bolt body with a front end of the second support part therebetween so that the front end of the second support part can be moved forward or backward as the bolt body moves forward or backward; And a pair of third fixed disks spaced apart from each other from the bolt body with a front end of the third support part therebetween so that the front end of the third support part can be moved forward or backward as the bolt body moves forward or backward. It may include.

In one embodiment, the bottom support, an upper support for supporting the lower side of the bottom plate; A lower supporter disposed in the lower upper groove and on which the upper supporter is seated; A first conveyor-type support that is seated on an inner front end of the lower support so that the lower side is exposed to the lower side of the lower support and is seated in the lower upper groove while supporting the lower support; And a first conveyor-type support formed in a symmetrical structure in an anteroposterior direction, and being seated at an inner rear end of the lower support so that the lower side is exposed to the lower side of the lower support, supporting the lower support and being seated in the lower upper groove. 2 Conveyor type support; may include.

In one embodiment, the upper support is formed in a flat plate shape to support the lower side of the bottom plate; A plurality of lower grooves formed at a lower side of the support plate to be spaced apart from each other; A gap support elastic body installed in each of the lower grooves so as to support between the support plate and the lower support using an elastic force, and seated on the upper side of the lower support; A first braking frame extending in a downward direction from a lower side of the support plate, and having a lower rear end extending downwardly than a lower front end so that a lower side forms an inclined surface; And extending in a downward direction from a lower side of the support plate spaced from the first braking frame to a rear end, and a lower front end is formed to extend downwardly than a lower rear end so that a symmetrical structure is formed in the front and rear direction with the first braking frame. It may include; a second braking frame whose lower side forms an inclined surface.

In one embodiment, the lower support, the support body formed in the shape of a hexahedral box so that the support plate can be seated on the upper side; First upper and lower through holes formed through the support body in the vertical direction so that the first braking frame can be inserted; A second upper and lower through hole formed through the support body in a vertical direction so that the second braking frame can be inserted; A first installation space formed at an inner front end of the support body so that the first conveyor-type support can be installed; And a second installation space formed in a symmetrical structure in a front-rear direction with the first installation space so that the second conveyor-type support can be installed, and formed at an inner rear end of the support body.

In one embodiment, the first installation space may be formed in a triangular shape in which the vertical height decreases from the front end to the rear end.

In an embodiment, the first conveyor-type support includes: a first sprocket installed at an upper front end of the first installation space; A second sprocket installed below the front end of the first installation space; A third sprocket installed below the rear end of the first installation space; The first sprocket, the second sprocket and the second sprocket are engaged and connected and installed, and a lower side supported by the second sprocket and the second sprocket is exposed to a lower side of the support body to support the support body, and A driving belt rotated by a tight contact force with the bottom surface of the lower upper groove as the support body is moved in the front-rear direction by an external force; It is spaced downward from the lower side of the first braking frame with the drive belt interposed therebetween to form an inclination angle corresponding to the bottom inclined surface of the first braking frame, and is fixedly installed in the first installation space, and the first braking frame A braking plate that is in close contact with the first braking frame with the driving belt therebetween to brake rotation of the driving belt when the driving belt is lowered; And a braking spring installed between a front end of the drive belt and an upper front end surface of the first installation space so that rotation of the drive belt can be elastically supported.

In one embodiment, the seating portion may include a shock absorber seated in a lower lower groove formed along a lower side of a straight frame forming a lower end of the seating frame; And it is formed in the shape of a flat plate so that the impact generated when the seating frame is seated so as to be inclined to the bottom surface can be transmitted to the shock absorbing unit, and after being seated on the lower side of the shock absorbing unit, it is fastened to a straight frame forming the lower end of the seating frame It may further include a buffer plate to be installed.

In one embodiment, the impact buffer unit, a support plate formed in a flat plate shape to support a straight frame forming a lower end of the seating frame; A lower plate formed in the shape of a hexahedral box, spaced downward from the support plate, and installed on the upper side of the buffer plate; And it is installed connected between the support plate and the lower plate, by rotating the support plate in the front and rear direction by an impact generated when the seating frame is seated so as to be inclined to the floor to buffer vibration or shock transmitted from the buffer plate. The note may include a rotating buffer unit.

In one embodiment, the pivoting buffer unit is formed in an arc shape of a "U" shape that is rounded downward, and an upper front end and a rear end are fixedly installed on the lower side of the support plate to support the support plate, and the lower side A first arcuate support that is seated on the upper side of the lower plate and moved while the lower side rolls along the upper side of the lower plate in a front or rear end direction by an impact generated when the seating frame is seated on the floor; A second arch-shaped support formed in an arc shape of a "∩" shape that is rounded upward, and having a lower front end and a rear end respectively inserted into and seated in the lower plate; It is formed in an arc shape of a "∩" shape that is rounded upward in a shape corresponding to the shape of the second arched support, and is spaced apart from the second arched support with the first arched support interposed therebetween, so that the lower front end and the rear end are A third arcuate support that is inserted into and seated in the lower plate, respectively; And extending upwardly from the upper side of the rounded arcuate space formed by the second arched support to the upper side of the rounded arcuate space formed by the third arcuate supporter, to the lower side formed by the first arcuate supporter. It may include; a support connecting link seated while pressing the lower side of the round arcuate space in a downward direction.

In one embodiment, the lower plate may have an end seating space formed inside each of the lower front and rear ends of the second arcuate support, and the lower front and rear ends of the third arcuate support.

In one embodiment, the end seating space has a circular cross section corresponding to the shape of the circular plate so that the circular plate in the form of a disk formed at the ends of the second arched support and the third arched support can be seated. Can be.

In one embodiment, the circular plate may be supported on the upper side and the lower side by a plurality of upper support elastic bodies installed along the upper side and lower support elastic bodies installed at the lower side in a state disposed in the center of the end seating space. have.

In an embodiment, the support connecting link includes: a first fixing block fixedly installed on the upper side of the circular arched space formed by the second arched support; A second fixing block that faces the first fixing block and is fixedly installed on an upper side of an upwardly rounded arcuate space formed by the third arched support; And a first fastening pin formed on a lower side of the circular arcuate space formed by the first arcuate support, which corresponds to a spaced space between the first fixing block and the second fixing block. 1 Connected and installed to be rotatable to the fixing block, a second fastening pin formed on the other side is rotatably connected to the first fixing block, and the first arch-shaped supporter is connected to the front end or along the upper side of the support plate. And a sliding block for moving the first fixing block and the second fixing block in a front end or a rear end direction while moving in a front end or a rear end direction as it rolls in a rear end direction.

In one embodiment, the sliding block is seated in a guide groove extending in a front-rear direction along an inner circumferential surface of the first arch-shaped support, so that it can be slid in the front-rear direction along the guide groove. A guide protrusion extends in the front-rear direction along the rounded lower side in close contact, and a plurality of rollers are spaced apart from each other in the front-rear direction in the front-rear direction along one side and the other side of the lower side with the guide protrusion interposed therebetween. Can be connected and installed.

According to one aspect of the present invention described above, the risk of safety accidents can be significantly reduced by moving a gas cylinder that cannot use an elevator installed in a building, such as an elevator, along the outer wall of the building, and safety accidents of workers. Not only can it be prevented, but it can also provide an effect that it can alleviate the fatigue of the worker.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within a range that is apparent to a person skilled in the art from the contents to be described below.

1 is a view showing a schematic configuration of a gas cylinder conveying apparatus according to an embodiment of the present invention.
2 is a view showing the seating portion of FIG. 1.
3 is a view showing a seating structure of the bottom plate of FIG. 2.
4 is a view showing the fastening part of FIG. 2.
5 is a view showing an embodiment of the floor support of FIG. 3.
6 is a cross-sectional view of the floor support of FIG. 5.
7 is a view showing the spacing adjustment bolt of FIG. 6.
8 is a view for explaining the adjustment of the support structure of the first support portion of FIG. 5.
9 is a view for explaining adjustment of the support height of the floor support of FIG. 5.
10 and 11 are views showing another embodiment of the floor support of FIG. 3.
12 is a view showing a connection relationship between the upper support and the anatomical support of FIG. 10.
13 is a view showing the first conveyor type support of FIG. 10.
14 is a view showing another embodiment of the seating portion of FIG. 2.
15 is a view showing an embodiment of the shock buffer of FIG. 14.
16 is a view showing the lower plate of FIG. 15.
17 is a view showing the support connecting link of FIG. 15.
18 to 20 are views showing the sliding block of FIG. 17.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention described below refers to the accompanying drawings, which illustrate specific embodiments in which the present invention may be practiced. These embodiments are described in detail sufficient to enable a person skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in connection with one embodiment. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all ranges equivalent to those claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions over several aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a view showing a schematic configuration of a gas cylinder conveying apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a gas cylinder conveying apparatus 1 according to an embodiment of the present invention includes a seating portion 10 and an elevating portion 20.

The seating portion 10, at least one gas cylinder (G) is seated, the elevating wire (W) extending from the elevating portion (20) is fastened to the upper side so that the elevating wire (W) is the elevating portion (20) ), it is separated from the outer wall of the building (B) and ascends or descends along the building (B), or as the elevating wire (W) is unwound by the lifting unit 20, it is separated from the outer wall of the building (B). As it descends along (B), it transfers the gas cylinder (G).

The elevating portion 20 is installed on the roof of the building (B), and wound up or unwinding the elevating wire (W) fastened to the seating portion 10 so that the seating portion 10 is moved along the outer wall of the building (B). It lifts or descends.

In one embodiment, the elevating unit 20 is installed on the roof of the building (B) and provided with a winder (21a) for winding or unwinding the elevating wire (W), the main body (21), and the main body ( 21) to the outside of the building (B) is formed to extend so as to expose the front end, it may be provided with a boom (22) on which a pulley (P) for mounting the elevating wire (W) under the front end is installed.

The gas cylinder conveying apparatus 1 according to an embodiment of the present invention having the configuration as described above includes a gas cylinder G that cannot use a lifting device such as an elevator installed in the building B. ), it is possible to significantly reduce the risk of safety accidents, prevent safety accidents, and reduce the fatigue of workers.

2 is a view showing the seating portion of FIG. 1.

Referring to FIG. 2, the seating portion 10 includes a seating frame 11, a bottom plate 12, a fastening portion 13, and a mounting plate 14.

The seating frame 11 is formed in a shape in which a plurality of straight frames F extending in a vertical or horizontal direction are connected and installed to form an inner space, and the gas cylinder G is moved to the inner space and then seated. The front end is formed to be open so that it is mounted on the lower side of the mounting plate 14 by a mounting wire (T).

The bottom plate 12 is formed in a flat plate shape so as to place the gas cylinder G moved to the inner space of the seating frame 11 and is seated on the bottom surface of the seating frame 11.

In one embodiment, the bottom plate 12 is a bottom seated in the lower upper groove 111 formed along the upper side of the straight frame (F2) forming the lower end of the seating frame 11 as shown in FIG. It may be seated on the upper side of the support 200.

A plurality of fastening parts 13 are spaced apart from each other and installed along the front of the straight frame F1 forming the rear end of the seating frame 11, and the gas cylinder G seated on the bottom plate 12 is Seunggi. It is fastened so that it cannot move during the lifting or lowering of the seating frame 11.

The mounting plate 14 is formed in the form of a flat plate extending in the horizontal direction, and the elevating wire W extending from the elevating portion 20 is fastened to the upper side, and the front and rear ends of one side and the other side and the seating frame Mounting wires (T) are respectively installed between the front and rear ends of one side of (11) and the other side to mount the mounting frame (11).

The seating portion 10 having the configuration as described above can stably board at least one gas cylinder G, and is transmitted to the gas cylinder G even when it is seated on the roof or floor of a building. It is possible to minimize safety accidents such as explosions that may occur according to the impact of the gas cylinder G by minimizing vibration or chasing.

4 is a view showing the fastening portion of FIG. 2.

Referring to FIG. 4, the fastening part 13 includes a mounting block 131, a fastening pin 132, and a fastening belt 133.

The seating block 131 is seated on the front side of the straight frame F1 forming the rear end of the seating frame 11, and has a shape corresponding to the side shape of the gas cylinder G so that the gas cylinder G can be seated. The arcuate groove is formed on the front side, and the mounting block 131 is fastened to the straight frame F1 forming the rear end of the mounting frame 11 by the fastening pin 132.

In one embodiment, the seating block 131 is made of an elastic material such as rubber so that the gas cylinder G can be closely attached and seated, as well as minimizing vibration or impact transmitted to the gas cylinder G. It would be desirable to be formed.

The fastening pin 132 fastens the mounting block 131 to a straight frame F1 forming a rear end of the mounting frame 11.

The fastening belt 133 is provided at the front end of the mounting block 131 and fastens the gas cylinder G seated on the mounting block 131.

In one embodiment, the fastening belt 133 may be formed of a buckle 133b for fastening the belt 133a and the belt 133a.

The fastening part 13 having the above-described configuration is a gas cylinder by stably fastening the gas cylinder G even in the case of lifting or lowering of the receiving part 10 on which the gas cylinder G is seated. Safety accidents that may be caused by the impact of (G) can be minimized.

5 is a view showing an embodiment of the floor support of FIG. 3.

Referring to FIG. 5, the floor support 200 according to an embodiment includes a box-shaped case 210, a first support 220, a second support 230, a third support 240, and a spacing adjustment bolt 250. ).

The box-shaped case 210 includes a first space (S1), a second space (S1) and a second space ( It is divided into S2), a third space S3 and a fourth space S4, and is disposed in the lower upper groove 111.

The first support part 220 is formed by being bent upward in a "∩" shape, and the inner side of the box-shaped case 210 through the first opening 240 formed on the upper side of the first space S1 with a lower front end. It is inserted into the space adjustment bolt 250 to be seated in the first space (S1), and the lower side 221 of the rear end is connected to the upper side of the box-shaped case 210 so as to be rotatable and installed so that the lower side of the bottom plate 12 is Support.

In one embodiment, the first support 220, as shown in Figure 8, the front lower side is moved in the rear end direction by the spacing adjustment bolt 250, the vertical height can be increased as the gap with the rear end decreases. have.

The second support part 230 is formed by being bent downward in a "∪" shape, and the inside of the box-shaped case 210 through the second opening 250 formed at the lower side of the second space S2 at the upper end of the front end. It is inserted into the space adjustment bolt 250, is installed in the second space (S2), and the rear upper side 231 is connected to the lower side of the box-shaped case 210 so as to be rotatable and installed in the lower upper groove 111 do.

The third support part 240 is formed by being bent upward in a "∩" shape, and the inner side of the box-shaped case 210 through a third opening 260 formed on the upper side of the third space S3 with a lower front end. It is inserted into the space adjustment bolt 250 to be seated in the third space (S3), the rear end lower side 241 is connected to the upper side of the box-shaped case 210 so as to be rotatably installed so that the lower side of the bottom plate 12 Support.

The spacing adjusting bolt 250 is supported by the first partition wall 210, the second partition wall 220, and the third partition wall 230 to penetrate the box-shaped case 210 in the front and rear direction, and is installed, and the first support part ( 220), the second support part 230, and each front end of the third support part 240 are fastened, and as they rotate clockwise or counterclockwise, the first support part 220 moves from the box-shaped case 210 in the rear end direction. ), the front end of the second support 230 and the third support 240 are moved in the rear end direction.

In one embodiment, the spacing adjustment bolt 250 is, a bolt body 251, a pair of first fixing disks 252, a pair of second fixing disks 253, and a pair of third fixing disks 254 ) Can be included.

The bolt body 251 is installed through the box-shaped case 210 in the front and rear direction, and is formed on the inner circumferential surface of the through hole formed in the first partition wall 210, the second partition wall 220, and the third partition wall 230. A thread 251a is formed along the outer surface so that it can be connected and installed by engaging the thread.

The pair of first fixed disks 252-1 and 252-2 is the first support 220 so that the front end of the first support 220 can be advanced or reversed as the bolt body 251 moves forward or backward. The front end of the bolt body 251 is spaced apart from each other and fixedly installed.

The second fixed disks 253-1 and 253-2 reduce the front end of the second support unit 230 so that the front end of the second support unit 230 can be moved forward or backward as the bolt body 251 moves forward or backward. It is spaced apart from each other and fixedly installed in the bolt body 251 between them.

The third fixed disks 254-1 and 254-2 are the front end of the third support part 240 so that the front end of the third support part 240 can be moved forward or backward as the bolt body 251 moves forward or backward. It is spaced apart from each other in the bolt main body 251 and fixedly installed therebetween.

The tension adjuster 200 having the configuration as described above is the first support 220, the second support 230, and the third support according to the degree of rotation of the spacing adjustment bolt 250, as shown in FIG. By freely adjusting the support height of the bottom plate 12 supported by the 240 according to the needs of the user, the vibration or shock transmitted from the gas cylinder G seated on the upper side of the bottom plate 12 is effectively buffered. I can let you do it.

10 and 11 are views showing another embodiment of the floor support of FIG. 3.

10 and 11, the floor support 300 according to another embodiment includes an upper support 310, a lower support 320, a first conveyor type support 330 and a second conveyor type support 340. Includes.

The upper support 310 is installed on the upper side of the lower support 320 and supports the lower side of the bottom plate 12.

The lower support 320 is disposed in the lower upper groove 111, the upper support 310 is seated on the upper side, a first conveyor type support 330 is installed at the lower front end, and a second conveyor type supporter 330 is installed at the lower rear end. Support 340 is installed.

The first conveyor-type support 330 is formed in a symmetrical structure with the second conveyor-type support 340 in the front-rear direction, and is seated on the inner front end of the lower supporter 320 so that the lower side is exposed to the lower side of the lower supporter 320 It is seated in the lower upper groove 111 while supporting the lower support (320).

The second conveyor-type support 340 is formed in a symmetrical structure with the first conveyor-type support 330 in a front-rear direction, and is seated at the inner rear end of the lower supporter 320 so that the lower side is exposed to the lower side of the lower supporter 320 It is seated in the lower upper groove 111 while supporting the lower support (320).

Floor support 300 according to another embodiment having the configuration as described above, the impact or inclination in the vertical direction generated between the bottom plate 12 and the straight frame (F2) forming the lower end of the seating frame 11 By buffering the impact generated in the direction, vibration or impact transmitted from the gas cylinder G seated on the upper side of the bottom plate 12 can be effectively buffered.

12 is a view showing a connection relationship between the upper support and the anatomical support of FIG. 10.

Referring to FIG. 12, the upper support 310 includes a support plate 311, a lower groove 312, a space support elastic body 313, a first brake frame 314 and a second brake frame 315. .

The support plate 311 is formed in a flat plate shape to support the lower side of the bottom plate 12, and is formed in the lower support frame 320 by a space support elastic body 313 installed for each lower groove 312 formed along the lower side. It is installed separated from the upper side.

A plurality of lower grooves 312 are formed to be spaced apart from each other on the lower side of the support plate 311 so that the upper portion of the space support elastic body 313 can be seated.

The space support elastic body 313 is installed in each lower groove 312 so as to support the space between the support plate 311 and the lower support 320 using an elastic force, and is seated on the upper side of the lower support 320.

The first braking frame 314 is formed extending from the lower side of the support plate 311 to the lower side, and the lower rear end is further extended downward than the lower front end to form an inclined surface 3141.

The second braking frame 315 is formed extending in a downward direction from the lower side of the support plate 311 spaced from the first braking frame 314 to the rear end, and has a symmetrical structure in the front-rear direction with the first braking frame 314 The lower front end is formed to extend further downward than the lower rear end so that the lower side forms an inclined surface 3151.

In addition, the lower support 320 includes a support body 321, a first upper and lower through hole 322, a second upper and lower through hole 323, a first installation space 324 and a second installation space 325. do.

The support body 321 is formed in the shape of a hexahedral box so that the support plate 311 can be seated on the upper side, and a first conveyor-type support that is installed in the first installation space 324 and the second installation space 325 ( It is supported by the 330 and the second conveyor-type support 340.

The first upper and lower through holes 322 are formed to penetrate the support body 321 in the vertical direction so that the first braking frame 314 can be inserted.

The second upper and lower through holes 323 are formed to penetrate the support body 321 in the vertical direction so that the second braking frame 315 can be inserted.

The first installation space 324 is formed at an inner front end of the support body 321 in a shape corresponding to the shape of the first conveyor type support 330 so that the first conveyor type support 330 can be installed.

In one embodiment, the first installation space 324 may be formed in a triangular shape in which the vertical height decreases from the front end to the rear end.

The second installation space 325 forms a symmetrical structure in the front-rear direction with the first installation space 324 so that the second conveyor-type support 340 can be installed, and corresponds to the shape of the second conveyor-type support 340 It is formed on the inner rear end of the support body 321 in a shape.

13 is a view showing the first conveyor type support of FIG. 10.

Referring to FIG. 13, the first conveyor-type support 330 includes a first sprocket 331, a second sprocket 332, a third sprocket 333, a drive belt 334, a braking plate 335, and a brake. It includes a spring 336.

Here, the second conveyor-type support 340 is a configuration that forms a symmetrical structure in the front-rear direction with the first conveyor-type support 330, and each of the configurations of the first conveyor-type support 330 described later is applied equally. As possible, the description will be omitted in order to avoid duplication of the description.

The first sprocket 331 is installed above the front end of the first installation space 324, is engaged with and connected to the upper front end of the drive belt 334 to support the drive belt 334.

The second sprocket 332 is installed below the front end of the first installation space 324, is engaged with and connected to the lower front end of the drive belt 334 to support the drive belt 334.

The third sprocket 333 is installed below the rear end of the first installation space 324 and is engaged with and connected to the lower rear end of the drive belt 334 to support the drive belt 334.

The drive belt 334 is meshed and connected along the first sprocket 331, the second sprocket 332, and the second sprocket 332, and is supported by the second sprocket 332 and the second sprocket 332. The lower side of the support body 321 is exposed to the lower side of the support body 321 to support the support body 321, and as the support body 321 is moved in the front and rear direction by an external force, the adhesion force with the bottom surface of the lower upper groove 111 Rotated by

That is, in the second sprocket 332 and the third sprocket 333, the lower part of the support body 321 is exposed to the lower side of the support body 321 so that the lower side of the drive belt 334 can be exposed to the lower side of the support body 321. It will be connected to the first installation space 324 to be installed.

The braking plate 335 is spaced downward from the lower side 3141 of the first braking frame 314 with the drive belt 334 interposed therebetween, as shown in FIG. 12 to the lower side of the first braking frame 314. It forms an inclination angle corresponding to the inclined surface and is fixedly installed in the first installation space 324, and when the first braking frame 314 descends, it is driven in close contact with the first braking frame 314 with the driving belt 334 therebetween. The rotation of the belt 334 is braked.

The braking spring 336 is installed between the front end of the drive belt 334 and the front end upper surface of the first installation space 324 so that rotation of the drive belt 334 can be elastically supported.

The first conveyor-type support 330 having the configuration as described above is formed by the braking spring 336 when the braking of the driving belt 334 is not performed because the support plate 311 is not lowered. The rotation of the drive belt 334 is braked to prevent the floor support 300 from being moved more than a certain distance by the elastic force of the braking spring 336, and the drive belt 334 is braked when the support plate 311 is lowered. In this case, the rotation of the drive belt 334 is braked with a stronger force than the case of braking by the braking spring 336, so that the floor support 300 may be prevented from further moving.

14 is a view showing another embodiment of the seating portion of FIG. 2.

Referring to FIG. 14, the seating portion 10a according to another embodiment includes a seating frame 11, a bottom plate 12, a fastening portion 13, a mounting plate 14, an impact buffer 15, and a buffer. Includes a plate (16).

Here, the mounting frame 11, the bottom plate 12, the fastening portion 13, and the mounting plate 14 are the same as those of FIG. 2, and thus description thereof will be omitted.

The shock absorber 15 is seated in the lower lower groove 112 formed along the lower side of the straight frame F2 forming the lower end of the seating frame 11 and transmitted from the shock absorbing plate 16 installed at the lower side. It cushions the shock.

The shock absorbing plate 16 is formed in a flat plate shape so that the shock generated when the seating frame 11 is seated inclined to the floor surface can be transmitted to the shock absorbing unit 15, and is seated on the lower side of the shock absorbing unit 15. After being fastened to the straight frame (F2) forming the lower end of the seating frame (11) is fastened and installed by a plurality of fastening frames (161).

The seating portion 10a according to another embodiment having the configuration as described above can stably board at least one gas cylinder G, and the frame 11 is seated on the roof or floor of a building. Safety accidents such as explosions that may occur due to the impact of the gas cylinder G by attenuating the vibration or pursuit transmitted to the gas cylinder G when seated in an inclined manner by using the shock buffer 15 Can be minimized.

15 is a view showing an embodiment of the shock buffer of FIG. 14.

Referring to FIG. 15, a shock buffer 400 according to an embodiment is a view showing a support plate 410, a lower plate 420, and a rotation type buffer 430.

The support plate 410 is formed in a flat plate shape, is seated in the lower lower groove 112 to support the straight frame F2 forming the lower end of the seating frame 11, and by the pivoting buffer unit 430 Is supported.

The lower plate 420 is formed in the shape of a hexahedral box, and is installed to be spaced downward from the support plate 410 supported by the rotational buffer unit 430 to be seated on the upper side of the buffer plate 16.

The rotating buffer unit 430 is connected and installed between the support plate 410 and the lower plate 420 so that the seating frame 11 is seated so that the floor is inclined with the floor. While rotating in the front-rear direction, it cushions the vibration or shock transmitted from the buffer plate 16 according to the change in the inclination angle between the straight frame (F2) forming the lower end of the seating frame (11) and the buffer plate (16). .

In one embodiment, the pivoting buffer unit 430 may include a first arched support 431, a second arched support 432, a third arched support 433, and a support connecting link 434.

The first arched support 431 is formed in an arc shape of a "U" shape that is rounded to the lower side, and the upper front and rear ends are fixedly installed on the lower side of the support plate 410 to support the support plate 410, The lower side is seated on the upper side of the lower plate 420, and is seated on the upper side of the support plate 410, and by the impact generated when the seating frame 11 is seated, that is, the lower end of the seating frame 11 In response to a change in the inclination angle between the formed straight frame F2 and the buffer plate 16, the lower side is moved while rolling in the front or rear end direction along the upper side of the lower plate 420.

The second arched support 432 is formed in an arc shape of a "∩" shape that is rounded upward, and the lower front end and the rear end are respectively inserted into the inner side of the lower plate 420 to be seated.

The third arched support 433 is formed in an arch shape of a "∩" shape that is rounded upward in a shape corresponding to the shape of the second arched support 432, with the first arched support 431 interposed therebetween. It is spaced apart from the second arcuate support 432 so that the lower front end and the rear end are respectively inserted into and seated in the lower plate 420.

The support connecting link 434 is formed extending from the upper side of the circular arched space formed by the second arched support 432 to the upper side of the circular arched space formed by the third arched support 433, It is seated while pressing the lower side of the circular arcuate space formed by the first arcuate support 431 in the lower direction.

The shock absorbing unit 400 having the configuration as described above, when the seating frame 11 is seated on the floor so as to be inclined, a straight frame F2 and a buffer plate forming the lower end of the seating frame 11 (16) By buffering the vibration or shock generated between the straight frame (F2) forming the lower end of the seating frame (11) and the buffer plate (16) as the inclination angle changes, it is transmitted to the gas cylinder (G). It can minimize the possible impact.

16 is a view showing the lower plate of FIG. 15.

Referring to FIG. 16, the lower plate 420 is an end seating space 440 so that the lower front and rear ends of the second arcuate support 432 and the lower front and rear ends of the third arcuate support 433 can be seated. Each is formed inside this.

In one embodiment, the end seating space 440 is a circular plate in the form of a disk formed at each end of the second arched support 432 and the third arched support 433 seated in the end seating space 440 ( A cross section may be formed in a circular shape corresponding to the shape of the circular plate 435 so that the 435 can be seated and moved.

In one embodiment, the circular plate 435 includes a plurality of upper support elastic bodies T1 installed along the upper side in a state disposed in the center of the end seating space 440 and a lower support elastic body T2 installed at the lower side. The upper side and the lower side may be supported respectively by.

The lower plate 420 having the configuration as described above, the second arched support 432 or the third arched support 433 can move together according to the movement of the first arched support 431 ( Each end of the 432 and the third arcuate support 433 may be formed inside the end seating space 440, which is a space for being seated and moving.

At this time, the second arched support 432 and the third arched support 433 are deformed, such as being bent in shape from one end seating space 440 to the other end seating space 440, and the first arched support 431 It would be desirable to be formed of an elastic or soft material so that it can be moved together according to the movement of ).

17 is a view showing the support connecting link of FIG. 15.

Referring to FIG. 17, the support connecting link 434 includes a first fixing block 441, a second fixing block 4432, and a sliding block 4434.

The first fixing block 441 is fixedly installed on the upper side of the circular arcuate space formed by the second arcuate support 432, and connected to the first fastening pin P1 of the sliding block 4434.

The second fixing block 4432 is fixedly installed on the upper side of the circular arcuate space upwardly facing the first fixing block 441 and formed by the third arcuate support 433, and the second fixing block 443 It is connected and installed to the fastening pin (P2).

The sliding block 4434 is seated on the lower side of the circular arcuate space downwardly formed by the first arcuate support 431 corresponding to the spaced space between the first fixing block 441 and the second fixing block 4432 and , A first fastening pin (P1) formed on one side is connected and installed to be rotatable to the first fixing block 441, and a second fastening pin (P2) formed on the other side is rotated to the first fixing block 441 It is connected and installed so as to be possible, and as the first arcuate support 431 rolls in the front or rear direction along the upper side of the support plate 410, the first fixing block 441 and the first fixing block 441 2 The fixed block 4432 is moved in the front or rear end direction.

The support connecting link 434 having the configuration as described above is a second arched support 432 by a sliding block 443 that is moved in the horizontal direction of the front end or the rear end according to the movement of the first arched support 431 and As the first fixing block 441 and the second fixing block 4432 fixedly installed on the third arched support 433 move forward or backward, the second arched support 432 and the third arched support 433 are moved forward or backward. You can back up.

18 to 20 are views showing the sliding block of FIG. 17.

18 to 20, the sliding block 443 is seated in a guide groove 4311 extending in the front-rear direction along the inner circumferential surface of the first arcuate support 431, and in the front-rear direction along the guide groove 4311 A guide protrusion 4344 is formed to extend in the front-rear direction along a roundly formed lower side that is in close contact with the inner circumferential surface of the first arcuate support 431 so as to be slidable.

And, the sliding block 443 is a plurality of front and rear directions along one side of the lower side and the other side with the guide protrusion 4344 interposed therebetween so as to minimize friction with the inner circumferential surface of the first arcuate support 431 The rollers 4345 are connected and installed spaced apart from each other at regular intervals in the front-rear direction.

In one embodiment, the first arched support 431, unlike the second arched support 432 and the third arched support 433, is formed of a hard material so that its shape does not change even when pressed by the support plate 410. It is preferable that it is formed so as not to be formed, and a support 4312 for performing the same function as a wheel of an automobile wheel to prevent deformation of the shape may be formed along one side and the other side edge.

The sliding block 443 having the configuration as described above is horizontal between the support plate 410 and the lower plate 420 by the impact generated when the seating frame 11 is seated on the floor, as shown in FIG. 20. When the support plate 410 rotates in a clockwise or counterclockwise direction due to this crack, when the first arcuate support 431 rotates together, the support plate 410 and the lower plate 420 are placed in parallel. From the reference line L, which is the position, while sliding along the inner surface of the first arcuate support 431, it may move forward or backward in the horizontal direction.

The above-described embodiments are for illustrative purposes only, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You can understand. Therefore, it should be understood that the above-described embodiments are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims to be described later rather than the detailed description, and should be interpreted as including all changes or modified forms derived from the meaning and scope of the claims and the concept of equivalents thereof. .

1: gas cylinder conveying device
10: seat
11: seating frame
12: bottom plate
13: Fastening part
14: mounting plate
20: elevator

Claims (11)

A seating portion on which at least one gas cylinder is seated; And
Including; is installed on the roof of the building, the lifting part for lifting or lowering the mounting part along the outer wall of the building by winding or unwinding the lifting wire fastened to the seating portion,
The seating part,
A seating frame in which a plurality of straight frames extending in a vertical or horizontal direction are connected and installed to form an inner space, and the front end is opened so that the gas cylinder can be seated after moving the gas cylinder to the inner space;
A bottom plate formed in a flat plate shape so as to place the gas cylinder moved to the inner space of the seating frame and seated on the bottom surface of the seating frame;
A plurality of fastening portions that are spaced apart from each other and installed along the front surface of the straight frame forming the rear end of the seating frame, and fastening the gas cylinders seated on the bottom plate to prevent movement during the lifting or lowering of the seating frame; And
The elevating wire is formed in the form of a flat plate extending in the horizontal direction, and the elevating wire extending from the elevating part is fastened to the upper side, and between the front and rear ends of one side and the other side, and the front and rear ends of one side and the other side of the seating frame. Including, a gas cylinder conveying device; mounting wires are respectively installed in the mounting plate for mounting the mounting frame.
The method of claim 1, wherein the fastening part,
A seating block which is seated on the front surface of a straight frame forming a rear end of the seating frame, and has an arcuate groove having a shape corresponding to the side shape of the gas cylinder so that the gas cylinder can be seated thereon;
A fastening pin for fastening the mounting block to a straight frame forming a rear end of the mounting frame; And
Containing, a gas cylinder conveying device; is installed at the front end of the seating block to fasten the gas cylinder seated on the seating block.
The method of claim 1, wherein the bottom plate,
The gas cylinder conveying apparatus is seated on the upper side of the floor support seated in the lower upper groove formed along the upper side of the straight frame forming the lower end of the seating frame.
The method of claim 3, wherein the floor support,
A box-shaped box disposed in the lower upper groove and divided into a first space, a second space, a third space, and a fourth space by a first, second, and third bulkhead installed with an inner space spaced apart from each other in the front and rear direction. case;
It is formed by being bent upward in a "∩" shape to support the bottom plate, and the lower side of the front end is inserted into the inner side of the box-shaped case through the first opening formed on the upper side of the first space to be seated in the first space A first support portion connected and installed so that the lower end of the rear end is rotatable to the upper side of the box-shaped case;
It is formed by being bent downward in the form of "∪" and is seated in the lower upper groove, and the upper end of the front end is inserted into the inside of the box-shaped case through a second opening formed at the lower side of the second space. A second support part seated and installed at a rear end so as to be rotatably connected to a lower side of the box-shaped case;
It is formed by being bent upward in a "∩" shape to support the bottom plate, and the lower side of the front end is inserted into the inside of the box-shaped case through a third opening formed on the upper side of the third space to be seated in the third space A third support portion connected and installed so that the lower end of the rear end is rotatable to the upper side of the box-shaped case; And
It is supported by the first partition wall, the second partition wall, and the third partition wall to penetrate the box-shaped case in the front and rear direction, and is installed, and each front end of the first support part, the second support part, and the third support part is fastened. And, as it rotates in a clockwise or counterclockwise direction, while moving in a rear end direction in the box-shaped case, a gap adjustment bolt for moving each front end of the first support part, the second support part, and the third support part in the rear end direction; Containing, gas cylinder delivery device.
The method of claim 4, wherein the first support,
A gas cylinder conveying apparatus, wherein the upper and lower sides are moved in the rear end direction by the spacing adjusting bolt, so that the upper and lower heights are increased as the gap with the rear end is reduced.
The method of claim 4, wherein the spacing adjustment bolt,
The box-shaped case is penetrated in the front and rear direction and installed, and a thread is formed along the outer surface so that the first partition wall, the second partition wall, and the third partition wall are engaged with a thread formed on the inner circumferential surface of the through hole to be connected and installed. Bolt body;
A pair of first fixing disks spaced apart from each other from the bolt body with a front end of the first support part therebetween so that the front end of the first support part can be moved forward or backward as the bolt body moves forward or backward;
A pair of second fixing disks spaced apart from each other from the bolt body with a front end of the second support part therebetween so that the front end of the second support part can be moved forward or backward as the bolt body moves forward or backward; And
A pair of third fixing disks spaced apart from each other from the bolt body so that the front end of the third support part can be moved forward or backward as the bolt body moves forward or backward. Containing, gas cylinder delivery device.
The method of claim 1, wherein the seating portion,
A shock absorber seated in a lower lower groove formed along a lower side of a straight frame forming a lower end of the seating frame; And
It is formed in a flat plate shape so that the impact generated when the seating frame is seated so as to be inclined to the bottom surface can be transmitted to the shock absorbing unit, and after being seated on the lower side of the shock absorbing unit, it is fastened to a straight frame forming the lower end of the seating frame The gas cylinder conveying apparatus further comprises;
The method of claim 7, wherein the shock buffer unit,
A support plate formed in a flat plate shape to support a straight frame forming a lower end of the seating frame;
A lower plate formed in the shape of a hexahedral box, spaced downward from the support plate, and installed on the upper side of the buffer plate; And
It is connected and installed between the support plate and the lower plate to cushion the vibration or shock transmitted from the buffer plate while rotating the support plate in the front and rear direction by the impact generated when the seating frame is seated inclined with the floor. Including a; rotating buffer unit, gas cylinder delivery device.
The method of claim 8, wherein the rotation type buffer unit,
It is formed in the form of a "U"-shaped arch that is rounded to the lower side, and the upper front and rear ends are fixedly installed on the lower side of the support plate to support the support plate, and the lower side is seated on the upper side of the lower plate, and the seating A first arcuate support for moving while the lower side rolls along the upper side of the lower plate in a front or rear end direction by an impact generated when the frame is seated on the floor;
A second arch-shaped support formed in an arc shape of a "∩" shape that is rounded upward, and having a lower front end and a rear end respectively inserted into and seated in the lower plate;
It is formed in an arc shape of a "∩" shape that is rounded upward in a shape corresponding to the shape of the second arched support, and the lower front end and the rear end are separated from the second arched support with the first arched support interposed therebetween. A third arcuate support that is inserted into and seated in the lower plate, respectively; And
It is formed extending from the upper side of the circular arcuate space to the upper side formed by the second arched support to the upper side of the circular arcuate space formed by the third arched support, and is rounded to the lower side formed by the first arcuate support. Containing, a gas cylinder conveying device; a support connecting link that is seated while pressing the lower side of the arcuate space in a downward direction.
The method of claim 9,
The lower plate,
End seating spaces are formed inside, respectively, so that the lower front and rear ends of the second arcuate support and the lower front and rear ends of the third arcuate support can be seated,
The end seating space,
A cross section is formed in a circular shape corresponding to the shape of the circular plate so that the circular plate in the form of a disk formed at the end of the second arched support and the third arched support can be seated,
The circular plate,
The gas cylinder conveying device, wherein the upper and lower sides are supported by a plurality of upper support elastic bodies installed along the upper side and lower support elastic bodies installed at the lower side in a state disposed in the center of the end seating space.
The method of claim 10, wherein the support connecting link,
A first fixing block fixedly installed on the upper side of the circular arcuate space formed by the second arcuate support;
A second fixing block that faces the first fixing block and is fixedly installed on an upper side of an upwardly rounded arcuate space formed by the third arcuate support; And
The first fastening pin is mounted on the lower side of the circular arcuate space downwardly formed by the first arcuate support, which corresponds to the spaced space between the first fixing block and the second fixing block, and is formed on one side of the first fixing pin. It is connected and installed to be rotatable to the fixing block, and a second fastening pin formed on the other side is connected and installed to be rotatable to the first fixing block, and the first arcuate support is front or rear end along the upper side of the support plate. Containing; a sliding block for moving the first fixed block and the second fixed block in a front or rear end direction while moving in a front or rear end direction as it rolls in a direction.

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