CN118323640B

CN118323640B - Storage rack for vacuum glass transportation support

Info

Publication number: CN118323640B
Application number: CN202410744648.3A
Authority: CN
Inventors: 张曹; 张宾; 蒋旭辉
Original assignee: Jiangsu Yanling Glass Co ltd
Current assignee: Jiangsu Yanling Glass Co ltd
Priority date: 2024-06-11
Filing date: 2024-06-11
Publication date: 2024-08-23
Anticipated expiration: 2044-06-11
Also published as: CN118323640A

Abstract

The invention belongs to the technical field of storage equipment, in particular to a storage rack for vacuum glass transportation support, which comprises the following components: a chassis; the support frame is obliquely and fixedly connected above the underframe through the connecting column, and one end of the support frame is fixedly connected with a baffle plate and used for supporting one side of the glass of the innermost layer; the support frame is of a rectangular frame structure, a plurality of movable glass frames are connected in the support frame and used for placing glass, and each glass frame corresponds to a single glass; two ends of the glass frame are fixedly connected with a pair of vertical frames, and the vertical frames are connected with rotatable separation assemblies for separating two adjacent pieces of glass; according to the invention, the plurality of slidable glass frames are arranged in the support frame, and the separation assembly is arranged on the glass frames, so that the problem of breakage caused by mutual extrusion of glass is solved.

Description

Storage rack for vacuum glass transportation support

Technical Field

The invention relates to the technical field of storage equipment, in particular to a storage rack for vacuum glass transportation support.

Background

Glass has a common application in daily life, and particularly has an irreplaceable effect in home decoration. In the production of glass, the placement and transportation of glass is a critical operation. Because glass is fragile and has a smooth surface, care is taken to protect the glass during its placement and transportation. When glass is stored in a production vehicle or warehouse, it is necessary to place the glass on a shelf.

The existing glass shelf structure main body is L-shaped formed by a base and a vertical bracket, wherein an inclined bottom bracket is arranged on the base, an inclined rubber plate is arranged on the vertical bracket, and glass is leaned against the rubber plate to realize inclined placement of the glass; and in the transferring process, the glass is easy to crack due to mutual extrusion, so that the glass is damaged.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the storage rack for the vacuum glass transportation support, and the problems of breakage caused by mutual extrusion between glass in the prior art are solved by arranging a plurality of slidable glass racks in the support rack and arranging separation components on the glass racks.

In order to achieve the technical purpose, the invention provides a storage rack for vacuum glass transportation support, which comprises: a chassis; the support frame is obliquely and fixedly connected above the underframe through the connecting column, and one end of the support frame is fixedly connected with a baffle plate for supporting one side of the innermost layer of glass; the support frame is of a rectangular frame structure, a plurality of movable glass frames are connected in the support frame and used for placing glass, and each glass frame corresponds to a single glass; the glass frame both ends fixedly connected with a pair of perpendicular frame, be connected with rotatable separation subassembly on the perpendicular frame for separate between two adjacent glasses.

As a preferable technical scheme of the invention, a connecting block is connected between two adjacent glass frames, and a connecting rod is rotatably connected between the connecting block and the two glass frames.

As a preferable technical scheme of the invention, the support frame is rotationally connected with a screw rod for driving adjacent glass frames to separate; the screw rod is connected with a screw rod frame in a threaded manner, and the screw rod frame is fixedly connected with the glass frame at the outermost layer; when the screw rod rotates, the glass frames are sequentially driven to move from outside to inside, so that two adjacent glass frames are separated.

As a preferable technical scheme of the invention, the upper surface of the connecting block is provided with a channel, a sliding block is connected on the channel in a sliding way, and a connecting rod is connected between the sliding block and the separation component in a rotating way; when the two glass frames are separated from each other, the connecting block is driven to rise, and the connecting block drives the separation assembly to rotate upwards to between the two glass frames through the connecting rod so as to separate the adjacent two glass frames.

As a preferable technical scheme of the invention, the separation assembly comprises a rotating rod, a screw is connected to the rotating rod, one end of the screw is connected with a separation block, the separation block is symmetrically and rotationally connected with a pair of rod bodies, the rod bodies are connected with separation rollers, the separation rollers are contacted with the surface of glass, and an elastic piece is fixedly connected between two adjacent rod bodies.

As a preferable technical scheme of the invention, the support frame is internally connected with a support plate for supporting the glass frame, a sliding hole is arranged on the support frame along the sliding direction of the glass frame, a sliding seat which is in sliding connection with the sliding hole is fixedly connected on the glass frame, and the connecting rod is in rotary connection with the sliding seat.

As a preferable technical scheme of the invention, a top plate is fixedly connected on the sliding seat, a friction block is connected below the top plate and used for increasing friction force between the sliding seat and the supporting frame, a sliding groove is arranged on the sliding seat, the friction block is in sliding connection with the sliding groove, and a spring is fixedly connected between the friction block and the top plate.

As a preferable technical scheme of the invention, the baffle frame is fixedly connected to the outermost layer of the separation assembly and is used for supporting one side of the glass of the outermost layer.

As a preferable technical scheme of the invention, the glass frame is provided with a limit groove matched with glass, and the width of the limit groove is larger than the thickness of the glass.

The beneficial effects of the invention are as follows:

1. according to the invention, the plurality of movable glass frames are connected in the support frame, after the glass is vertically stacked on the glass frames, the glass frames can be sequentially driven to move by rotating the screw rod, two adjacent glass frames are separated, and then two adjacent glass frames are separated, and in the separation process, the glass is separated and supported by moving the separation assembly between the two glass frames, so that the stability of the glass is ensured, and the risk of extrusion and breakage of the glass in the operation process is avoided.

2. According to the invention, the connecting rod is connected between the separation assembly and the connecting block, and the separation assembly can be driven to automatically move between two pieces of glass when the two glass frames are separated, so that the stability of the glass during separation is ensured.

Drawings

Fig. 1 is a schematic three-dimensional structure of a storage rack for vacuum glass transportation support according to the present invention.

Fig. 2 is a schematic side view of a storage rack for vacuum glass transportation support according to the present invention.

Fig. 3 is a schematic diagram showing the connection of two adjacent glass frames according to the present invention.

Fig. 4 is a partial enlarged view at a in fig. 3.

Fig. 5 is a partial enlarged view at B in fig. 3.

Fig. 6 is a schematic structural view of a partition assembly according to the present invention.

In the figure: 1. a chassis; 101. a connecting column; 2. a support frame; 201. a support plate; 202. a slide hole; 203. a screw rod rack; 204. a screw rod; 3. a glass frame; 301. a slide; 302. a limit groove; 303. a vertical frame; 304. a connecting rod; 305. a connecting block; 306. a slide block; 307. a channel; 308. a connecting rod; 309. a friction block; 310. a top plate; 311. a spring; 312. a chute; 4. a partition assembly; 401. a rotating lever; 402. a screw; 403. a separation block; 404. a rod body; 405. a separation roller; 406. an elastic member; 5. a baffle frame; 6. and a baffle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Examples: the embodiment discloses a storage rack for vacuum glass transportation support, as shown in fig. 1-6, comprising: the glass frame comprises an underframe 1 and a support frame 2, wherein the support frame 2 is obliquely and fixedly connected above the underframe 1 through a connecting column 101, one end of the support frame 2 is fixedly connected with a baffle 6 for supporting one side of the glass at the innermost layer, the baffle 6 is connected with the lower end of the support frame 2, the support frame 2 is of a rectangular frame structure, a plurality of movable glass frames 3 are connected in the support frame 2 and used for placing glass, each glass frame 3 corresponds to a single glass, and the width of each glass frame 3 is slightly larger than the thickness of the single glass; a supporting plate 201 is connected to the supporting frame 2 for supporting the glass frame 3; when the glass is placed on the glass frames 3, a plurality of the glass frames 3 can be closely contacted together, so that the glass can be conveniently stacked on the glass frames 3 in an inclined way, and adjacent glass is contacted; and adjacent glass can be controlled to be separated from each other by moving each glass frame 3, so that the mutual extrusion between the glass is avoided.

As shown in fig. 3-4, two ends of the glass frame 3 are fixedly connected with a pair of vertical frames 303, and each vertical frame 303 is connected with a rotatable separation assembly 4 for separating two adjacent glass pieces and supporting the side surfaces of the glass pieces; a connecting block 305 is connected between two adjacent glass frames 3, and a connecting rod 304 is rotationally connected between the connecting block 305 and the two glass frames 3; the support frame 2 is provided with a sliding hole 202 along the sliding direction of the glass frame 3, the glass frame 3 is fixedly connected with a sliding seat 301 which is in sliding connection with the sliding hole 202, and a connecting rod 304 is rotationally connected with the sliding seat 301; when the two glass frames 3 are separated from each other, the connecting block 305 is driven to move upwards; the screw rod 204 is rotationally connected to the support frame 2 and used for driving the adjacent glass frames 3 to be separated, and the screw rod 204 is arranged on one side of the support frame 2 and does not influence the movement of the glass frames 3; the screw rod 204 is in threaded connection with a screw rod frame 203, and the screw rod frame 203 is fixedly connected with the outermost glass frame 3; the specific implementation method comprises the following steps: when the glass frames 3 are required to be separated, the screw rod 204 is rotated, the first glass frame 3 on the outermost layer is driven to move when the screw rod 204 rotates, so that the first glass frame 3 is separated from the second glass frame 3, when the distance between the first glass frame 3 and the second glass frame 3 is the largest, the second glass frame 3 is driven to move, so that the second glass frame 3 is separated from the third glass frame 3, and the like, all the glass frames 3 are driven to sequentially move from outside to inside, so that the two adjacent glass frames 3 are separated; when the glass frames 3 are required to be gathered together, the screw rod 204 can be reversely rotated, when the screw rod 204 rotates, the first glass frame 3 with the outermost layer moves, after the first glass frame 3 contacts with the second glass frame 3, the first glass frame 3 is gathered together with the third glass frame 3 at the same time, and so on until all the glass frames 3 are gathered together.

As shown in fig. 4, the upper surface of the connecting block 305 is provided with a channel 307, a sliding block 306 is slidably connected on the channel 307, and a connecting rod 308 is rotatably connected between the sliding block 306 and the partition component 4, so that the locking of the connecting rod 308 is avoided by the channel 307 and the sliding block 306; the specific implementation method comprises the following steps: when two glass frames 3 separate each other, can drive connecting block 305 and rise, glass upper end on the glass frame 3 still keeps contact state simultaneously, interval increases gradually between the lower extreme, the in-process of connecting block 305 rises, slider 306 is horizontal moving in channel 307, slider 306 passes through connecting rod 308 and drives separation subassembly 4 and upwards rotates to between two glasses, separation subassembly 4 rotation direction is from down upwards, and then separate two adjacent glasses for glass frame 3 is at the in-process of separating, separation subassembly 4 can remove and remove to between two glasses, separate and support glass, avoided glass's empting.

Preferably, the baffle frame 5 is fixedly connected to the outermost layer of separation component 4 and is used for supporting one side of the outermost layer of glass, so that the phenomenon of toppling when the outermost layer of glass is separated is avoided.

Preferably, the glass frame 3 is provided with a limit groove 302 matched with glass, and the width of the limit groove 302 is slightly larger than the thickness of single glass, so that the glass frame 3 can drive the glass to move together when being separated, and the lower end of the glass is prevented from sliding off from the glass frame 3.

As shown in fig. 5, a top plate 310 is fixedly connected to the sliding seat 301, a friction block 309 is connected to the lower portion of the top plate 310, the friction block 309 is in surface contact with the supporting frame 2, so as to increase friction force between the sliding seat 301 and the supporting frame 2, ensure that the glass frame 3 is stable at the upper position of the supporting frame 2, a sliding groove 312 is arranged on the sliding seat 301, the friction block 309 is slidably connected with the sliding groove 312, a spring 311 is fixedly connected between the friction block 309 and the top plate 310, and pressure is applied to the friction block 309 through the spring 311.

As shown in fig. 6, the separation assembly 4 comprises a rotating rod 401, one end of a connecting rod 308 is rotationally connected with the rotating rod 401, the rotating rod 401 is driven to rotate upwards when the connecting block 305 ascends, a screw rod 402 is connected to the rotating rod 401, one end of the screw rod 402 is connected with a separation block 403, one end of the screw rod 402 is in threaded connection with the rotating rod 401, the other end of the screw rod 402 is rotationally connected with the separation block 403, and the whole length of the rotating rod 401 can be adjusted through the screw rod 402, so that the supporting position of the separation assembly 4 on glass can be conveniently adjusted; and the separation block 403 is symmetrically and rotationally connected with a pair of rod bodies 404, the rod bodies 404 are connected with separation rollers 405, the separation rollers 405 are in contact with the surface of glass, the separation rollers 405 are made of rubber materials, damage to the glass is avoided, an elastic piece 406 is fixedly connected between two adjacent rod bodies 404, the elastic piece 406 is made of a spring, and the separation roller 405 rotates on the surface of the glass when the separation assembly 4 is arranged at one end between two pieces of glass, so that scratch to the surface of the glass is avoided.

Working principle: before the glass is assembled into the glass frames 3, the glass frames 3 are gathered together to be in contact with each other, then the glass frames 3 are vertically and obliquely placed on the glass frames 3 one by one, the glass frames 3 are in contact with each other, then the first glass frame 3 on the outermost layer is driven to move by rotating the screw rod 204, so that the first glass frame 3 is separated from the second glass frame 3, in the separation process, the connecting block 305 rises to drive the corresponding separation assembly 4 to rotate upwards between the first glass and the second glass to separate the two glass, when the distance between the first glass frame 3 and the second glass frame 3 is the largest, the screw rod 204 moves with the second glass frame 3 when continuing to rotate, so that the second glass frame 3 is separated from the third glass frame 3, the glass frames 3 sequentially move until all the glass frames 3 are separated, and each separation assembly 4 moves between the corresponding two glass frames, so that the glass is supported and separated, the damage to the glass is avoided in the transportation process, and the glass can be further fixed by ropes; when the glass needs to be detached, the screw rod 204 can be reversely rotated to drive the glass frames 3 to be gathered together again, and meanwhile, the separation assembly 4 rotates downwards to separate the glass no longer; the glass can be separated and gathered by the movement of the glass frame 3, so that the glass can be conveniently assembled and disassembled, and the problem that the glass is damaged due to mutual extrusion in the transportation process is solved.

Finally, it should be noted that: in the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

The foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A vacuum glass transportation supporting storage rack, comprising:

A chassis (1);

the support frame (2) is obliquely and fixedly connected above the underframe (1) through the connecting column (101), and one end of the support frame (2) is fixedly connected with the baffle (6) and is used for supporting one side of the glass of the innermost layer;

The support frame (2) is of a rectangular frame structure, a plurality of movable glass frames (3) are connected in the support frame (2) and used for placing glass, and each glass frame (3) corresponds to a single glass;

A pair of vertical frames (303) are fixedly connected to two ends of the glass frame (3), and rotatable separation assemblies (4) are connected to the vertical frames (303) and used for separating two adjacent pieces of glass;

A connecting block (305) is connected between two adjacent glass frames (3), and a connecting rod (304) is rotationally connected between the connecting block (305) and the two glass frames (3);

The support frame (2) is rotationally connected with a screw rod (204) for driving the adjacent glass frames (3) to separate; a screw rod frame (203) is connected to the screw rod (204) in a threaded manner, and the screw rod frame (203) is fixedly connected with the glass frame (3) at the outermost layer; when the screw rod (204) rotates, the glass frames (3) are sequentially driven to move from outside to inside, so that two adjacent glass frames (3) are separated;

The upper surface of the connecting block (305) is provided with a channel (307), the channel (307) is connected with a sliding block (306) in a sliding way, and a connecting rod (308) is connected between the sliding block (306) and the separation component (4) in a rotating way; when the two glass frames (3) are separated from each other, the connecting block (305) is driven to ascend, and the connecting block (305) drives the separation assembly (4) to upwards rotate to a position between the two glasses through the connecting rod (308) so as to separate the two adjacent glasses;

The separation assembly (4) comprises a rotating rod (401), a screw rod (402) is connected to the rotating rod (401), a separation block (403) is connected to one end of the screw rod (402), a pair of rod bodies (404) are symmetrically connected to the separation block (403) in a rotating mode, a separation roller (405) is connected to the rod bodies (404), the separation roller (405) is in contact with the surface of glass, and an elastic piece (406) is fixedly connected between every two adjacent rod bodies (404).

2. The storage rack for vacuum glass transportation support according to claim 1, wherein the support rack (2) is connected with a support plate (201) for supporting the glass rack (3), a sliding hole (202) is formed in the support rack (2) along the sliding direction of the glass rack (3), a sliding seat (301) which is in sliding connection with the sliding hole (202) is fixedly connected to the glass rack (3), and a connecting rod (304) is rotatably connected with the sliding seat (301).

3. The storage rack for vacuum glass transportation support according to claim 2, wherein a top plate (310) is fixedly connected to the sliding seat (301), a friction block (309) is connected below the top plate (310) and used for increasing friction force between the sliding seat (301) and the support frame (2), a sliding groove (312) is formed in the sliding seat (301), the friction block (309) is slidably connected with the sliding groove (312), and a spring (311) is fixedly connected between the friction block (309) and the top plate (310).

4. A vacuum glass transportation supporting storage rack according to claim 3, wherein the outermost layer of the separation assembly (4) is fixedly connected with a baffle frame (5) for supporting one side of the outermost layer of glass.

5. The vacuum glass transportation supporting storage rack according to claim 4, wherein the glass rack (3) is provided with a limiting groove (302) matched with glass, and the width of the limiting groove (302) is larger than the thickness of the glass.