CN211392294U - Antidetonation glass stack frame structure - Google Patents
Antidetonation glass stack frame structure Download PDFInfo
- Publication number
- CN211392294U CN211392294U CN201921846750.5U CN201921846750U CN211392294U CN 211392294 U CN211392294 U CN 211392294U CN 201921846750 U CN201921846750 U CN 201921846750U CN 211392294 U CN211392294 U CN 211392294U
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- Prior art keywords
- support
- mounting
- seismic
- grooves
- mounting plate
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- 239000011521 glass Substances 0.000 title claims abstract description 29
- 238000009434 installation Methods 0.000 claims description 6
- 239000000463 material Substances 0.000 abstract description 4
- 230000035939 shock Effects 0.000 abstract 1
- 230000003139 buffering effect Effects 0.000 description 3
- 238000010586 diagram Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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Abstract
The utility model provides an anti-seismic glass stacking frame structure, which comprises an anti-seismic base, a mounting plate, a first bracket, a second bracket structure and a third bracket; the first support, the second support structure and the third support are vertically arranged on the mounting plate, and the first support and the third support are respectively and correspondingly fixedly arranged on two opposite sides of the mounting plate; the first support is provided with a plurality of mounting grooves, and a cushion block is inserted in each mounting groove; the third support is provided with a plurality of mounting grooves, and a cushion block is inserted in each mounting groove; the second support structure comprises a support A and a support B, wherein a plurality of mounting grooves are formed in one side of the support A, padding blocks are inserted in the mounting grooves, a plurality of mounting grooves are formed in one side of the support B, and the padding blocks are inserted in the mounting grooves; a sliding groove is formed in the mounting plate at a position corresponding to the bottom of the second support structure, and the second support structure is movably arranged on the mounting plate; each material cushion block is provided with an anti-seismic structure. Can adjust the distance according to the width of the glass and has the function of shock resistance.
Description
Technical Field
The utility model relates to a glass processing equipment technical field especially relates to an antidetonation glass stack frame structure.
Background
In glass processing enterprises, a stacker rack is generally used for storing glass. Among the prior art, the structure to the stacker generally is a shelf, and glass stacks according to the structure of shelf in proper order, and the size of shelf is fixed nonadjustable generally, and the not unidimensional glass product just needs different stacker to, owing to consider the temporary storage in the course of working, consequently, generally can not consider how to realize shockproof function, and in fact, because the stacker does not have shockproof function, lead to the broken condition of glass to take place occasionally, thereby cause economic waste. In view of the problems of the prior art, a solution is needed.
SUMMERY OF THE UTILITY MODEL
Based on this, the utility model aims at providing an antidetonation glass stack frame structure can carry out distance adjustment according to the width of glass to have the antidetonation function.
The utility model provides an anti-seismic glass stacking frame structure, which comprises an anti-seismic seat body, a mounting plate, a first bracket, a second bracket structure and a third bracket, wherein the mounting plate is arranged on the anti-seismic seat body; the first support, the second support structure and the third support are vertically arranged on the mounting plate, and the first support and the third support are respectively and correspondingly fixedly arranged on two opposite sides of the mounting plate; a plurality of mounting grooves are sequentially arranged on one side, close to the second support structure, of the first support from bottom to top in an array mode, and a padding block is inserted into the mounting grooves; a plurality of mounting grooves are sequentially arranged in an array manner from bottom to top on one side, close to the second support structure, of the third support, and a padding block is inserted into the mounting grooves; the second support structure comprises a support A and a support B, wherein the support A is sequentially provided with a plurality of mounting grooves from bottom to top in an array mode towards one side of the first support, padding blocks are inserted into the mounting grooves, the support B is sequentially provided with a plurality of mounting grooves from bottom to top in an array mode towards one side of the third support, and the padding blocks are inserted into the mounting grooves; the surface of one side, close to the bracket B, of the bracket A is provided with a plurality of abdicating grooves, and the surface of one side, close to the bracket A, of the bracket B is provided with a plurality of convex columns matched with the abdicating grooves; a sliding groove is formed in the mounting plate at a position corresponding to the bottom of the second support structure, and the second support structure is movably arranged on the mounting plate; each material padding block is provided with an anti-seismic structure.
Preferably, the anti-seismic structure comprises a spring and a top plate, and the top plate is fixedly arranged on the upper surface of the spring; and a plurality of spring mounting grooves are formed in each padding block along the length direction of the padding block in an array mode, and the anti-seismic structure is arranged in the spring mounting grooves.
As a preferred scheme, a plurality of mounting grooves are formed in the upper surface of the anti-seismic base body, and anti-seismic structures are correspondingly arranged on the mounting grooves; the top plate is in contact with the lower surface of the mounting plate, and the spring is embedded in the mounting groove.
Preferably, the stiffness coefficient of the spring arranged on the mounting groove is larger than that of the spring arranged on the padding block.
Preferably, the bracket a and the bracket B are respectively provided with a projection at two opposite sides in the width direction, and the side wall of the sliding groove is provided with a side groove for the projection to be inserted into.
As the preferred scheme, the edges of two opposite sides of the anti-seismic seat body are provided with limit stops.
The utility model has the advantages that:
1. the first support, the second support structure and the third support are vertically arranged on the mounting plate, the second support structure comprises a support A and a support B, the second support structure is movably arranged on the mounting plate, the relative distance between the first support and the support A and the relative distance between the third support and the support B can be adjusted according to the size of the stored glass, and the support A and the support B can be directly moved, so that the applicability is wide; the material cushion blocks on the first support, the support A, the support B and the third support are all provided with anti-seismic structures, and the glass is placed on the anti-seismic structures, so that the material cushion block has an anti-seismic buffering function when encountering vibration;
2. a plurality of mounting grooves have been seted up to the upper surface of antidetonation pedestal, correspond on the mounting groove and be provided with anti-seismic structure, further strengthen the antidetonation function of glass stacker.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic view of a first bracket.
Fig. 3 is a schematic view of a second stent structure.
Fig. 4 is a top view of a mat block.
FIG. 5 is a schematic view of the relative arrangement of the second bracket structure and the mounting plate.
The reference signs are: the anti-seismic seat body 10, the limit stop 11, the first support 12, the spring 14, the top plate 13, the support A15, the abdicating groove 16, the convex column 17, the support B18, the sliding groove 19, the third support 20, the mounting plate 21, the padding block 22, the anti-seismic structure 23, the mounting groove 24, the second support structure 25, the convex block 26 and the side groove 27.
Detailed Description
For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.
Please refer to fig. 1-5: an anti-seismic glass stacking frame structure comprises an anti-seismic base body 10, an installation plate 21, a first support 12, a second support structure 25 and a third support 20, wherein the installation plate 21 is arranged on the anti-seismic base body 10. The first bracket 12, the second bracket structure 25, and the third bracket 20 are all vertically disposed on the mounting plate 21.
The first bracket 12 and the third bracket 20 are respectively and fixedly arranged on two opposite sides of the mounting plate 21 correspondingly; a plurality of mounting grooves 24 are sequentially arranged in an array from bottom to top on one side of the first support 12 close to the second support structure 25, and a padding block 22 is inserted into each mounting groove 24; a plurality of mounting grooves 24 are sequentially arranged from bottom to top on one side of the third support 20 close to the second support structure 25, and a padding block 22 is inserted into the mounting grooves 24. The number of padding blocks 22 on the first support 12, the second support structure 25, the third support 20 can be adapted, and only need to be pulled out. The structure can be adjusted according to the height of the glass stack.
The second support structure 25 comprises a support A15 and a support B18, wherein a plurality of mounting grooves 24 are sequentially arranged on one side, close to the first support 12, of the support A15 from bottom to top in an array mode, a cushion block 22 is inserted into each mounting groove 24, a plurality of mounting grooves 24 are sequentially arranged on one side, close to the third support 20, of the support B18 from bottom to top in an array mode, and the cushion block 22 is inserted into each mounting groove 24; a plurality of abdicating grooves 16 are formed in the surface of one side, close to the bracket B18, of the bracket A15, and a plurality of convex columns 17 matched with the abdicating grooves 16 are formed in the surface of one side, close to the bracket A15, of the bracket B18; a chute 19 is arranged on the mounting plate 21 at a position corresponding to the bottom of the second support structure 25, and the second support structure 25 is movably arranged on the mounting plate 21; each padding block 22 is provided with an anti-seismic structure 23.
The anti-seismic structure 23 comprises a spring 14 and a top plate 13, and the top plate 13 is fixedly arranged on the upper surface of the spring 14; a plurality of spring installation grooves 24 are arranged on each padding block 22 along the length direction of the padding block in an array mode, and anti-seismic structures 23 are arranged in the installation grooves 24. The brackets a15 and B18 are respectively provided with a projection 26 at opposite sides in the width direction, and the side wall of the slide groove 19 is provided with a side groove 27 for inserting the projection 26.
The upper surface of the anti-seismic base body 10 is provided with a plurality of mounting grooves 24, and anti-seismic structures 23 are correspondingly arranged on the mounting grooves 24; the top plate 13 is in contact with the lower surface of the mounting plate 21, and the spring 14 is fitted in the mounting groove 24. By arranging the anti-seismic seat body 10, the anti-seismic function of the structure is further enhanced under the buffering acting force of the spring 14.
The anti-seismic structures 23 are placed on the padding blocks 22, so that the number of the anti-seismic structures 23 placed on each padding block 22 can be arranged as required for anti-seismic purposes.
The stiffness coefficient of the spring 14 disposed on the mounting groove 24 is greater than the stiffness coefficient of the spring 14 disposed on the pad block 22.
The opposite two side edges of the anti-seismic seat 10 are provided with limit stops 11, which limit the mounting plate 21 within the range of the upper surface of the anti-seismic seat 10.
In this embodiment, the second support structure 25 can move back and forth within the chute 19 of the mounting plate 21, so that the relative distance between the first support and the support a and the relative distance between the third support and the support B can be freely adjusted, and therefore, glass with different sizes can be placed; the glass is placed on the oppositely arranged padding blocks 22, and a buffering and anti-seismic acting force is generated on the glass through the anti-seismic structures 23 on the padding blocks 22, so that the glass is effectively prevented from being smashed by sudden vibration in the transportation process.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (6)
1. The utility model provides an antidetonation glass stacker structure which characterized in that: the anti-seismic support comprises an anti-seismic base body (10), a mounting plate (21), a first support (12), a second support structure (25) and a third support (20), wherein the mounting plate (21) is arranged on the anti-seismic base body (10); the first support (12), the second support structure (25) and the third support (20) are vertically arranged on the mounting plate (21), and the first support (12) and the third support (20) are respectively and correspondingly fixedly arranged on two opposite sides of the mounting plate (21); a plurality of mounting grooves (24) are sequentially arranged on one side, close to the second support structure (25), of the first support (12) from bottom to top in an array mode, and a padding block (22) is inserted into each mounting groove (24); a plurality of mounting grooves (24) are sequentially arranged on one side, close to the second support structure (25), of the third support (20) from bottom to top in an array mode, and a padding block (22) is inserted into each mounting groove (24); the second support structure (25) comprises a support A (15) and a support B (18), a plurality of mounting grooves (24) are sequentially arranged on one side, close to the first support (12), of the support A (15) from bottom to top in an array mode, a cushion block (22) is inserted into each mounting groove (24), a plurality of mounting grooves (24) are sequentially arranged on one side, close to the third support (20), of the support B (18) from bottom to top in an array mode, and the cushion block (22) is inserted into each mounting groove (24); a plurality of abdicating grooves (16) are formed in the surface of one side, close to the support B (18), of the support A (15), and a plurality of convex columns (17) matched with the abdicating grooves (16) are formed in the surface of one side, close to the support A (15), of the support B (18); a sliding groove (19) is formed in the mounting plate (21) at a position corresponding to the bottom of the second support structure (25), and the second support structure (25) is movably arranged on the mounting plate (21); each padding block (22) is provided with an anti-seismic structure (23).
2. An earthquake-resistant glass stillage structure according to claim 1 in which: the anti-seismic structure (23) comprises a spring (14) and a top plate (13), and the top plate (13) is fixedly arranged on the upper surface of the spring (14); a plurality of spring installation grooves (24) are formed in each padding block (22) along the length direction of the padding block in an array mode, and the anti-seismic structures (23) are arranged in the installation grooves (24).
3. An earthquake-resistant glass stillage structure according to claim 2 in which: a plurality of mounting grooves (24) are formed in the upper surface of the anti-seismic base body (10), and anti-seismic structures (23) are correspondingly arranged on the mounting grooves (24); the top plate (13) is in contact with the lower surface of the mounting plate (21), and the spring (14) is fitted in the mounting groove (24).
4. An earthquake-resistant glass stillage structure according to claim 3 in which: the stiffness coefficient of the spring (14) arranged on the mounting groove (24) is larger than that of the spring (14) arranged on the cushion block (22).
5. An earthquake-resistant glass stillage structure according to any one of claims 1 to 4 in which: the support A (15) and the support B (18) are respectively located on two opposite sides of the width direction of the support A and the support B and are provided with protruding blocks (26), and side grooves (27) for the protruding blocks (26) to insert are formed in the side walls of the sliding grooves (19).
6. An earthquake-resistant glass stillage structure according to claim 5 in which: and the edges of two opposite sides of the anti-seismic seat body (10) are provided with limit stop blocks (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921846750.5U CN211392294U (en) | 2019-10-30 | 2019-10-30 | Antidetonation glass stack frame structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921846750.5U CN211392294U (en) | 2019-10-30 | 2019-10-30 | Antidetonation glass stack frame structure |
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CN211392294U true CN211392294U (en) | 2020-09-01 |
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CN201921846750.5U Expired - Fee Related CN211392294U (en) | 2019-10-30 | 2019-10-30 | Antidetonation glass stack frame structure |
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CN (1) | CN211392294U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113320814A (en) * | 2021-06-18 | 2021-08-31 | 南京中车物流服务有限公司 | Rail vehicle air duct storage and transportation packaging box |
-
2019
- 2019-10-30 CN CN201921846750.5U patent/CN211392294U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113320814A (en) * | 2021-06-18 | 2021-08-31 | 南京中车物流服务有限公司 | Rail vehicle air duct storage and transportation packaging box |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200901 |