CN117361139B

CN117361139B - Novel flat glass storage rack

Info

Publication number: CN117361139B
Application number: CN202311679309.3A
Authority: CN
Inventors: 张思明; 宋清; 朱华东
Original assignee: Jiangsu Xinze Stainless Steel Products Co ltd
Current assignee: Jiangsu Xinze Stainless Steel Products Co ltd
Priority date: 2023-12-08
Filing date: 2023-12-08
Publication date: 2024-02-09
Anticipated expiration: 2043-12-08
Also published as: CN117361139A

Abstract

A novel plane glass storage rack belongs to the technical field of glass placement and comprises a fixing rack part, a damping part, a side fixing part and a push-out part; the fixing frame part is placed on the ground or a transport vehicle, the shock absorbing parts are arranged in the fixing frame part, and a group of shock absorbing parts are respectively arranged at the left end and the right end of each glass product; the side fixing parts are arranged at the left end and the right end of the upper position of the fixing frame part; the pushing part is arranged at the lower end of the integral support frame and can move back and forth, and when the glass product needs to be taken out; when the glass products need to be taken out, each glass product is jacked up from the lower end through the pushing-out part, so that people can easily take out the glass products when taking out the glass products.

Description

Novel flat glass storage rack

Technical Field

The invention relates to the technical field of glass placement, in particular to a novel plane glass storage rack.

Background

When glass is transported for a long distance, a special glass storage rack is generally required to be used for positioning and fixing the glass so as to prevent the glass from being broken due to collision or scraped due to friction in the transportation process, and a plurality of different types of glass storage racks exist in the market at present, but the structural design of the existing glass storage rack is too simple and is inconvenient for taking and placing the glass;

the utility model provides a novel planar glass storage rack for CN202020957263.2, includes the device chassis, device chassis and mount fixed connection, the top fixed mounting of mount has the movable support, the spout has been seted up to the both sides of movable support, the top surface of movable support is equipped with the protective layer, the inside of spout is equipped with the gyro wheel, the both sides of gyro wheel are equipped with the pivot, the both sides fixed connection of pivot is in the inboard of balladeur train, the top surface fixed mounting of balladeur train has fixed baffle, the rear portion fixed mounting of device chassis has the fixed rest. A novel plane glass storage rack is characterized in that a folding device underframe is arranged, a fixing support can be directly folded above the device underframe by the aid of the folding device underframe, a folding baffle can be folded on the surface of the fixing support by means of folding fan blades of the device underframe, and a protective layer with good protective effect is arranged on the surface of a movable support and in contact with glass.

The above-mentioned prior art cannot conveniently take out the glass to be protected, and thus there is a need for a flat glass storage rack that can conveniently take out glass and well protect glass.

Disclosure of Invention

In view of the above technical problems, the invention provides a novel flat glass storage rack, when glass products need to be taken out, each glass product is jacked up from the lower end through a push-out part, so that people can easily take out the glass products when taking out the glass products.

The technical scheme adopted by the invention is as follows: a novel flat glass storage rack comprises a fixed frame part, a damping part, a side fixing part and a push-out part; the fixing frame part is placed on the ground or a transport vehicle, the shock absorbing parts are arranged in the fixing frame part, and a group of shock absorbing parts are respectively arranged at the left end and the right end of each glass product; the side fixing parts are arranged at the left end and the right end of the upper position of the fixing frame part; the pushing part is arranged at the lower end of the integral support frame and can move back and forth, and when the glass product needs to be taken out;

the fixing frame part comprises an integral supporting frame, a supporting plate, a concave block, an L-shaped sliding frame, a supporting block, a positioning block, a large rack, a gear set, a first cam and a glass product;

the integral support frame is placed on the ground or on a transport vehicle; the supporting plate is fixedly arranged on the integral supporting frame; the concave block is provided with a round hole, and a spring is fixedly arranged at the outer side of the round hole; the L-shaped sliding frame is slidably arranged in the round hole on the concave block through the sliding shaft; the L-shaped sliding frame is provided with an inclined plane which is contacted with the inclined plane on the supporting block; the L-shaped sliding frame is fixedly provided with a sucker; the support block is slidably arranged on the positioning block, and the lower end of the support block is an inclined plane; the lower end of the positioning block is fixedly arranged in a groove in the middle of the concave block, the upper end of the positioning block is fixedly provided with a spring, and the other end of the spring is fixedly arranged on the supporting block.

Preferably, the big rack is fixedly arranged at the rear end of the concave block and slides in a sliding groove on the supporting plate; the gear set comprises a cylindrical gear, a long rotating shaft, a short rotating shaft and a plurality of bevel gears, wherein the short rotating shaft is rotatably arranged on the supporting plate, the cylindrical gear is fixedly arranged at one end of the short rotating shaft, the bevel gear is fixedly arranged at the other end of the short rotating shaft, the cylindrical gear is meshed with the large rack, the long rotating shaft is rotatably arranged on the supporting plate, the bevel gear is fixedly arranged at the lower end of the long rotating shaft, the bevel gear on the long rotating shaft is meshed with the bevel gear on the short rotating shaft, and the first cam is fixedly arranged at the other end of the long rotating shaft; the first cam rotates in the notch of the support plate.

Preferably, the shock absorption part comprises a hollow column, an adjusting rod, a connecting plate, a reset spring and a shock absorption plate;

the rear end of the hollow column is fixedly arranged on the integral support frame, and a spring is arranged in the hollow column; the adjusting rod slides in the hollow column; one ends of the two groups of connecting rods are rotatably arranged at the front ends of the adjusting rods.

Preferably, the other end of the connecting rod is rotatably mounted with one end of the connecting plate; the other end of the connecting plate is rotatably arranged on the damping plate; the two groups of connecting plates are connected with each other through a reset spring; the front end of the shock absorbing plate is provided with a sponge, and the front end of the shock absorbing plate is contacted with the glass product.

Preferably, the side fixing part comprises a control rod, a straight sliding plate, a small rack, a sliding block, a baffle mechanism and a small gear I;

one end of the control rod is provided with a groove, the other end of the control rod is provided with a gear, the gear end of the control rod is rotatably arranged at the front end of the integral support frame, two control rods are arranged, and the gear ends of the two control rods are meshed with each other; the gear of one control rod is fixedly connected with the motor shaft of the motor fixedly arranged on the integral support frame; the motor rotates to drive one control rod to rotate, so that the other control rod is driven to rotate simultaneously; one end of the straight sliding plate is slidably arranged in the sliding groove of the control rod and the groove of the integral support frame; the small rack is fixedly arranged on the side surface of the straight sliding plate; the sliding block is slidably pressed on the small rack; the baffle mechanism is fixedly arranged on the sliding block, and the front end of the baffle mechanism is provided with an electric chuck; the sliding block is provided with a motor, and a motor shaft of the motor is fixedly connected with the pinion I; the pinion I is meshed with the pinion rack.

Preferably, the pushing part comprises a sliding plate, a pinion II, a long rack, a cam II, a contact plate, a connecting rotating shaft, a connecting rod I, a cross rod and a pushing rod;

the sliding plate is slidably arranged on the integral support frame, and a motor is fixedly arranged on the sliding plate; the second pinion is rotatably arranged on the sliding plate, and one end of the second pinion is fixedly connected with a motor shaft of a motor fixedly arranged on the sliding plate; the long rack is fixedly arranged on the integral supporting frame.

Preferably, the second cam is rotatably mounted on a support plate on the sliding plate; the contact plate is rotatably arranged on the support plate of the sliding plate, and the short plate protruding from the contact plate is contacted with the convex surface of the second cam; one end of the connecting rotating shaft is fixedly arranged on the contact plate, and the other end of the connecting rotating shaft is fixedly connected with the other end of the connecting rod II; one end of the first connecting rod is rotationally connected with the second connecting rod.

Preferably, the other end of the first connecting rod is rotatably arranged in a round hole in the middle of the cross rod; one end of the cross rod is rotatably arranged on the sliding plate, and the other end of the cross rod slides in the notch of the pushing rod; the lower end of the pushing rod is slidably arranged on the sliding plate, and the upper end of the pushing rod is provided with a U-shaped bracket.

The invention has the beneficial effects that:

(1) When the glass products are required to be taken out, each glass product is jacked up from the lower end through the push-out part, so that people can easily take out the glass products when taking out the glass products;

(2) According to the invention, when a glass product is placed at the upper end of the supporting block, the glass product is pressed downwards by gravity, the supporting block moves downwards, the inclined surface at the lower end of the supporting block is contacted with the inclined surface of the L-shaped sliding frame, so that the L-shaped sliding frame moves towards the middle of the concave block, the sucker on the L-shaped sliding frame is driven to clamp the glass product, meanwhile, the supporting block continues to move to push the positioning block to move downwards, the concave block is further pushed to move downwards, the big rack is driven to move downwards, the big rack moves downwards to drive the circular gear on the gear set to rotate, the cylindrical gear rotates to drive the bevel gear to rotate, the bevel gear rotates to drive the cam I at the upper end of the long rotating shaft to rotate, and the cam I is contacted with the glass product, so that the glass product is clamped by the cam I when the glass product is pressed downwards; double clamping is realized;

(3) The invention can absorb shock of glass product through the whole shock absorbing part;

(4) According to the invention, the two sides of the glass product are fixed by the electric clips on the baffle mechanism, so that the glass product is fixed again.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the whole structure of the fixing frame part of the present invention.

Fig. 3 is a schematic view of a partial first angle structure of a fixing frame portion of the present invention.

Fig. 4 is a schematic view of a partial second angle structure of the fixing frame portion of the present invention.

Fig. 5 is a partially enlarged structural view of A1 of fig. 4 according to the present invention.

Fig. 6 is a schematic view of a shock absorbing portion of the present invention.

Fig. 7 is a schematic view of the integral support bracket and side securing portions of the present invention.

Fig. 8 is a schematic view of the mounting positions of the fixing frame portion and the side fixing portion of the present invention.

Fig. 9 is a partially enlarged structural view at A2 of fig. 8 according to the present invention.

Fig. 10 is a schematic view of the mounting positions of the holder portion and the push-out portion of the present invention.

Fig. 11 is a partially enlarged structural view of A3 of fig. 10 according to the present invention.

Fig. 12 is a schematic structural view of the push-out portion of the present invention.

Fig. 13 is a partially enlarged structural view at A4 of fig. 12 according to the present invention.

Reference numerals: 1-a fixing frame part; 2-a shock absorbing portion; 3-side fixing portions; 4-pushing-out part; 101-an integral support frame; 102-supporting a plate; 103-concave blocks; 104-a telescopic frame; 105-supporting blocks; 106-positioning blocks; 107-large racks; 108-a gear set; 109-cam one; 110-glass article; 201-a hollow column; 202-adjusting a rod; 203-connecting rods; 204-connecting plates; 205-return spring; 206-a shock absorbing plate; 301-a control lever; a 302-T shaped support plate; 303-small racks; 304-a slider; 305-a baffle mechanism; 306-pinion one; 401-a sliding plate; 402-pinion two; 403-long racks; 404-cam two; 405-contact plate; 406-a linkage; 407-connecting blocks; 408-a cross bar; 409-push rod; 410-second connecting rod.

Detailed Description

Examples: as shown in fig. 1 to 13, a novel flat glass storage rack is characterized in that: comprises a fixing frame part 1, a damping part 2, a side fixing part 3 and a push-out part 4; the fixing frame part 1 is placed on the ground or a transport vehicle, the shock absorbing parts 2 are arranged in the fixing frame part 1, a group of shock absorbing parts 2 are respectively arranged at the left end and the right end of each glass product 110, and the shock absorbing parts 2 play a role in shock absorption in the transport process, so that the damage rate of the glass products 110 is reduced to the minimum; the side fixing parts 3 are arranged at the left and right ends of the upper part of the fixing frame part 1, and the glass product 110 placed in the whole supporting frame 101 is fixed by the side fixing parts 3, so that the glass product 110 cannot shake left and right; the push-out part 4 is installed at the lower end of the integral support frame 101 to be movable back and forth, and when the glass products 110 need to be taken out, each glass product 110 is pushed up from the lower end by the push-out part 4, so that people can easily take out the glass products 110 when taking out.

As shown in fig. 2-5, the fixing frame part 1 includes an integral supporting frame 101, a supporting plate 102, a concave block 103, an L-shaped sliding frame 104, a supporting block 105, a positioning block 106, a large rack 107, a gear set 108, a cam one 109 and a glass product 110;

the integral support frame 101 is placed on the ground or on a transport vehicle; the support plate 102 is fixedly installed on the integral support frame 101; the concave block 103 is provided with a round hole, and a spring is fixedly arranged outside the round hole; the L-shaped sliding frame 104 is slidably arranged in a round hole on the concave block 103 through a sliding shaft; the spring outside the concave block 103 moves the L-shaped carriage 104 to the outside; the L-shaped sliding frame 104 is provided with an inclined plane which is contacted with the inclined plane on the supporting block 105; the L-shaped sliding frame 104 is fixedly provided with a sucker; the support block 105 is slidably arranged on the positioning block 106, and the lower end of the support block 105 is an inclined plane; the lower end of the positioning block 106 is fixedly arranged in a groove in the middle of the concave block 103, the upper end of the positioning block 106 is fixedly provided with a spring, and the other end of the spring is fixedly arranged on the supporting block 105; the spring moves the support block 105 upward.

When the glass product 110 is placed on the upper end of the supporting block 105, the glass product 110 is pressed downwards, the supporting block 105 moves downwards, the inclined plane at the lower end of the supporting block 105 is contacted with the inclined plane of the L-shaped sliding frame 104, so that the L-shaped sliding frame 104 moves towards the middle of the concave block 103, and the sucker on the L-shaped sliding frame 104 is driven to clamp the glass product 110, the effect of fixing the glass product 110 is realized, when the glass product 110 is moved away, the L-shaped sliding frame 104 is reset through the spring on the outer side of the concave block 103, and meanwhile, the supporting block 105 is reset through the spring on the positioning block 106.

As shown in fig. 2-5, the big rack 107 is fixedly installed at the rear end of the concave block 103, and the big rack 107 slides in a chute on the supporting plate 102; the gear set 108 comprises a cylindrical gear, a long rotating shaft, a short rotating shaft and a plurality of bevel gears, the short rotating shaft is rotatably arranged on the supporting plate 102, the cylindrical gear is fixedly arranged at one end of the short rotating shaft, the bevel gear is fixedly arranged at the other end of the short rotating shaft, the cylindrical gear is meshed with the large rack 107, the long rotating shaft is rotatably arranged on the supporting plate 102, the bevel gear is fixedly arranged at the lower end of the long rotating shaft, the bevel gear on the long rotating shaft is meshed with the bevel gear on the short rotating shaft, and the first cam 109 is fixedly arranged at the other end of the long rotating shaft; the first cam 109 rotates within the slot of the support plate 102; when the glass product 110 is placed on the upper end of the supporting block 105, gravity presses the glass product 110 downwards, the supporting block 105 downwards moves, the inclined surface at the lower end of the supporting block 105 is contacted with the inclined surface of the L-shaped sliding frame 104, so that the L-shaped sliding frame 104 moves towards the middle of the concave block 103, the sucking disc on the L-shaped sliding frame 104 is driven to clamp the glass product 110, meanwhile, the supporting block 105 continues to move to push the positioning block 106 to downwards move, the concave block 103 is further pushed to downwards move, the concave block 103 downwards moves to drive the big rack 107 to downwards move, the big rack 107 downwards moves to drive the round gear wheel on the gear set 108 to rotate, the cylindrical gear rotates to drive the bevel gear to rotate, the bevel gear rotates to drive the cam 109 at the upper end of the long rotating shaft to rotate, and then the cam 109 is contacted with the glass product 110, and the effect that the glass product 110 is clamped by the cam 109 when the glass product 110 downwards presses is realized; the double clamping effect is realized.

As shown in fig. 6, the shock absorbing part 2 includes a hollow column 201, an adjusting rod 202, a connecting rod 203, a connecting plate 204, a return spring 205, and a shock absorbing plate 206;

the rear end of the hollow column 201 is fixedly arranged on the integral support frame 101, and a spring is arranged in the hollow column 201; the adjusting rod 202 slides inside the hollow column 201; one end of each of the two groups of connecting rods 203 is rotatably arranged at the front end of the adjusting rod 202, and the other end of each connecting rod 203 is rotatably arranged with one end of the connecting plate 204; the other end of the connecting plate 204 is rotatably mounted on the shock absorbing plate 206; the two groups of connecting plates 204 are connected with each other through a return spring 205; the front end of the shock absorbing plate 206 is provided with a sponge, and the front end of the shock absorbing plate 206 is contacted with the glass product 110; the whole equipment may shake in the transportation process, when the equipment shakes, the shock-absorbing plate 206 can push the connecting plate 204 to move backwards, and simultaneously push the adjusting rod 202 to slide, the spring in the hollow column 201 can reset the adjusting rod 202, and meanwhile, the reset spring 205 plays a role in buffering, so that the effect of damping the glass product 110 through the whole shock-absorbing part 2 is realized.

As shown in fig. 7-9, the side fixing part 3 comprises a control rod 301, a straight slide plate 302, a small rack 303, a slide block 304, a baffle mechanism 305 and a small gear 306;

one end of the control rod 301 is provided with a groove, the other end of the control rod 301 is provided with a gear, the gear ends of the control rod 301 are rotatably arranged at the front end of the integral support frame 101, two control rods 301 are arranged, and the gear ends of the two control rods 301 are meshed with each other; the gear of one control rod 301 is fixedly connected with the motor shaft of the motor fixedly arranged on the integral support frame 101; the motor rotates to drive one control rod 301 to rotate, and then drives the other control rod 301 to rotate simultaneously; the effect of simultaneously rotating the control lever 301 by the motor is achieved; one end of the straight sliding plate 302 is slidably arranged in the sliding groove of the control rod 301 and the groove of the integral supporting frame 101; when the motor drives the control rod 301 to open and close, the control rod 301 drives the linear sliding plate 302 to move and the linear sliding plate 302 slides in the side sliding groove of the supporting plate 102; the small racks 303 are fixedly arranged on the side surface of the straight sliding plate 302; the sliding block 304 is slidably pressed on the small rack 303; the baffle mechanism 305 is fixedly arranged on the sliding block 304, and an electric chuck is arranged at the front end of the baffle mechanism 305; the sliding block 304 is provided with a motor, and a motor shaft of the motor is fixedly connected with the pinion I306; pinion one 306 intermeshes with pinion rack 303; the motor rotates to drive the first pinion 306 to rotate, so that the first pinion 306 drives the sliding block 304 to move on the small rack 303, and further the electric clips on the baffle mechanism 305 fix the two sides of the glass product 110.

As shown in fig. 10 to 13, the pushing part 4 includes a sliding plate 401, a pinion gear 402, a long rack 403, a cam 404, a contact plate 405, a connecting shaft 406, a link 407, a cross bar 408, and a pushing lever 409;

the sliding plate 401 is slidably mounted on the integral support frame 101, and a motor is fixedly mounted on the sliding plate 401; the second pinion 402 is rotatably mounted on the sliding plate 401, and one end of the second pinion 402 is fixedly connected with a motor shaft of a motor fixedly mounted on the sliding plate 401; the long rack 403 is fixedly arranged on the integral support frame 101; the long rack 403 is meshed with the pinion II 402; the motor rotates to drive the pinion II 402 to rotate, so that the pinion II 402 moves on the long rack 403, the pinion II 402 moves to drive the sliding plate 401 to move, and the effect that the motor drives the sliding plate 401 to move on the integral support frame 101 is achieved.

The second cam 404 is rotatably mounted on the support plate on the slide plate 401; the contact plate 405 is rotatably installed on the support plate of the sliding plate 401, and the short plate protruding on the contact plate 405 contacts with the convex surface of the cam two 404; one end of the connecting rotating shaft 406 is fixedly arranged on the contact plate 405, and the other end of the connecting rotating shaft 406 is fixedly connected with the other end of the connecting rod II 410; one end of the first connecting rod 407 is rotationally connected with the second connecting rod 410; the other end of the first connecting rod 407 is rotatably arranged in a round hole in the middle of the cross rod 408; one end of the cross rod 408 is rotatably arranged on the sliding plate 401, and the other end of the cross rod 408 slides in a notch of the push rod 409; the lower end of the push rod 409 is slidably mounted on the sliding plate 401, and the upper end of the push rod 409 is provided with a U-shaped bracket; when the motor rotates to drive the second cam 404 to rotate, the second cam 404 rotates to enable the short plate protruding from the contact plate 405 to move downwards to drive the contact plate 405 to rotate and then drive the connecting rotating shaft 406 to rotate, and the connecting rotating shaft 406 rotates to drive the second connecting rod 410 to rotate upwards and then drive the first connecting rod 407 to move upwards, and the first connecting rod 407 drives the cross rod 408 to rotate around the point rotating with the sliding plate 401, so that the cross rod 408 drives the push rod 409 to push upwards, and the glass product 110 is lifted.

Working principle: when the glass product 110 is placed on the upper end of the supporting block 105, gravity presses the glass product 110 downwards, the supporting block 105 downwards moves, the inclined surface at the lower end of the supporting block 105 is contacted with the inclined surface of the L-shaped sliding frame 104, so that the L-shaped sliding frame 104 moves towards the middle of the concave block 103, the sucking disc on the L-shaped sliding frame 104 is driven to clamp the glass product 110, meanwhile, the supporting block 105 continues to move to push the positioning block 106 to downwards move, the concave block 103 is further pushed to downwards move, the concave block 103 downwards moves to drive the big rack 107 to downwards move, the big rack 107 downwards moves to drive the round gear wheel on the gear set 108 to rotate, the cylindrical gear rotates to drive the bevel gear to rotate, the bevel gear rotates to drive the cam 109 at the upper end of the long rotating shaft to rotate, and then the cam 109 is contacted with the glass product 110, and the effect that the glass product 110 is clamped by the cam 109 when the glass product 110 downwards presses is realized; the double clamping effect is realized.

The control rod 301 rotates downwards through the motor, the control rod 301 drives the linear sliding plate 302 to move and the linear sliding plate 302 slides in the groove on the side surface of the supporting plate 102; the motor rotates to drive the first pinion 306 to rotate, so that the first pinion 306 drives the sliding block 304 to move on the small rack 303, and further the electric clips on the baffle mechanism 305 fix the two sides of the glass product 110.

The whole equipment may shake in the transportation process, when the equipment shakes, the shock-absorbing plate 206 can push the connecting plate 204 to move backwards, and simultaneously push the adjusting rod 202 to slide, the spring in the hollow column 201 can reset the adjusting rod 202, and meanwhile, the reset spring 205 plays a role in buffering, so that the effect of damping the glass product 110 through the whole shock-absorbing part 2 is realized.

When the motor rotates to drive the second cam 404 to rotate, the second cam 404 rotates to enable the short plate protruding from the contact plate 405 to move downwards to drive the contact plate 405 to rotate and then drive the connecting rotating shaft 406 to rotate, the connecting rotating shaft 406 rotates to drive the second connecting rod 410 to rotate upwards and then drive the first connecting rod 407 to move upwards, the first connecting rod 407 drives the cross rod 408 to rotate around the point rotating with the sliding plate 401, and then the cross rod 408 drives the push rod 409 to push upwards, so that the glass product 110 is lifted, and the glass is conveniently taken out.

Claims

1. The novel flat glass storage rack is characterized by comprising a fixing rack part (1), a damping part (2), a side fixing part (3) and a push-out part (4); the fixing frame part (1) is placed on the ground or a transport vehicle, the shock absorbing parts (2) are arranged in the fixing frame part (1), and a group of shock absorbing parts (2) are respectively arranged at the left end and the right end of each glass product (110); the side fixing parts (3) are arranged at the left end and the right end of the upper position of the fixing frame part (1); the pushing part (4) is arranged at the lower end of the integral supporting frame (101) and can move back and forth, and when the glass product (110) needs to be taken out; the fixing frame part (1) comprises an integral supporting frame (101), a supporting plate (102), a concave block (103), an L-shaped sliding frame (104), a supporting block (105), a positioning block (106), a large rack (107), a gear set (108), a first cam (109) and a glass product (110); the integral support frame (101) is placed on the ground or a transport vehicle; the supporting plate (102) is fixedly arranged on the integral supporting frame (101); a round hole is formed in the concave block (103), and a spring is fixedly arranged on the outer side of the round hole; the L-shaped sliding frame (104) is slidably arranged in a round hole on the concave block (103) through a sliding shaft; an inclined plane is arranged on the L-shaped sliding frame (104) and is contacted with the inclined plane on the supporting block (105); the L-shaped sliding frame (104) is fixedly provided with a sucker; the supporting block (105) is slidably arranged on the positioning block (106), and the lower end of the supporting block (105) is an inclined plane; the lower end of the positioning block (106) is fixedly arranged in a groove in the middle of the concave block (103), the upper end of the positioning block (106) is fixedly provided with a spring, and the other end of the spring is fixedly arranged on the supporting block (105);

the big rack (107) is fixedly arranged at the rear end of the concave block (103), and the big rack (107) slides in a sliding groove on the supporting plate (102); the gear set (108) comprises a cylindrical gear, a long rotating shaft, a short rotating shaft and a plurality of bevel gears, wherein the short rotating shaft is rotatably arranged on the supporting plate (102), the cylindrical gear is fixedly arranged at one end of the short rotating shaft, the bevel gear is fixedly arranged at the other end of the short rotating shaft, the cylindrical gear is meshed with the large rack (107), the long rotating shaft is rotatably arranged on the supporting plate (102), the bevel gears are fixedly arranged at the lower end of the long rotating shaft, the bevel gears on the long rotating shaft are meshed with the bevel gears on the short rotating shaft, and the first cam (109) is fixedly arranged at the other end of the long rotating shaft; the first cam (109) rotates in the notch of the supporting plate (102);

the side fixing part (3) comprises a control rod (301), a straight sliding plate (302), a small rack (303), a sliding block (304), a baffle mechanism (305) and a small gear I (306); one end of the control rod (301) is provided with a groove, the other end of the control rod (301) is provided with a gear, the gear end of the control rod (301) is rotatably arranged at the front end of the integral support frame (101), the number of the control rods (301) is two, and the gear ends of the two control rods (301) are meshed with each other; the gear of one control rod (301) is fixedly connected with the motor shaft of a motor fixedly arranged on the integral support frame (101); the motor rotates to drive one control rod (301) to rotate, and then drives the other control rod (301) to rotate simultaneously; one end of the straight sliding plate (302) is slidably arranged in a sliding groove of the control rod (301) and a groove of the integral support frame (101); the small rack (303) is fixedly arranged on the side surface of the straight sliding plate (302); the sliding block (304) is slidably pressed on the small rack (303); the baffle mechanism (305) is fixedly arranged on the sliding block (304), and an electric chuck is arranged at the front end of the baffle mechanism (305); a motor is arranged on the sliding block (304), and a motor shaft of the motor is fixedly connected with the pinion I (306); the pinion one (306) is meshed with the pinion rack (303);

the pushing part (4) comprises a sliding plate (401), a pinion II (402), a long rack (403), a cam II (404), a contact plate (405), a connecting rotating shaft (406), a connecting rod I (407), a cross rod (408) and a pushing rod (409); the sliding plate (401) is slidably arranged on the integral support frame (101), and a motor is fixedly arranged on the sliding plate (401); the second pinion (402) is rotatably arranged on the sliding plate (401), and one end of the second pinion (402) is fixedly connected with a motor shaft of a motor fixedly arranged on the sliding plate (401); the long rack (403) is fixedly arranged on the integral support frame (101); the second cam (404) is rotatably arranged on a supporting plate on the sliding plate (401); the contact plate (405) is rotatably arranged on the supporting plate of the sliding plate (401), and the short plate protruding on the contact plate (405) is contacted with the convex surface of the second cam (404); one end of the connecting rotating shaft (406) is fixedly arranged on the contact plate (405), and the other end of the connecting rotating shaft (406) is fixedly connected with the other end of the connecting rod II (410); one end of the first connecting rod (407) is rotationally connected with the second connecting rod (410); the other end of the first connecting rod (407) is rotatably arranged in a round hole in the middle of the cross rod (408); one end of a cross rod (408) is rotatably arranged on the sliding plate (401), and the other end of the cross rod (408) slides in a notch of a push rod (409); the lower end of the pushing rod (409) is slidably arranged on the sliding plate (401), and the upper end of the pushing rod (409) is provided with a U-shaped bracket.

2. The novel flat glass storage rack according to claim 1, wherein the shock absorbing part (2) comprises a hollow column (201), an adjusting rod (202), a connecting rod (203), a connecting plate (204), a return spring (205) and a shock absorbing plate (206); the rear end of the hollow column (201) is fixedly arranged on the integral support frame (101), and a spring is arranged in the hollow column (201); the adjusting rod (202) slides in the hollow column (201); one ends of the two groups of connecting rods (203) are rotatably arranged at the front ends of the adjusting rods (202).

3. A novel flat glass storage rack according to claim 2, wherein the other end of the connecting rod (203) is rotatably mounted with one end of the connecting plate (204); the other end of the connecting plate (204) is rotatably arranged on the shock absorbing plate (206); the two groups of connecting plates (204) are connected with each other through a return spring (205); the front end of the shock absorbing plate (206) is provided with a sponge, and the front end of the shock absorbing plate (206) is contacted with the glass product (110).