CN213863229U - Automatic building material strorage device of location - Google Patents

Abstract

The utility model relates to an automatic building material strorage device of location belongs to the building material field, and it includes the riser, and the riser is placed on ground, the vertical extension of riser, and the riser is provided with two, and two risers are parallel and relative setting are connected with the level between the coexistence board and are used for placing the baffle of panel, are provided with locating component on the riser, and locating component includes push pedal, positioning spring, and the push pedal is located the baffle top, and the vertical setting of push pedal, and positioning spring is located between push pedal and a certain riser. This application has the effect of the spoilage that reduces panel.

Description

Automatic building material strorage device of location

Technical Field

The application relates to the field of building materials, in particular to an automatic positioning building material storage device.

Background

Building material civil engineering and the collective name of the material that uses in the building engineering, slabby materials such as ceramic tile, wall heated board have in the building material, and when this type of material was deposited, in order to save space, all keep flat panel subaerial, will wait to deposit the stability that panel board piece was built, can effectual saving space, panel is kept flat simultaneously can guarantee the panel and places.

In the related art, the inventor thinks that the plate is stacked, and the plate close to the ground is subjected to a large pressure, so that the plate is easily damaged.

SUMMERY OF THE UTILITY MODEL

In order to reduce the damage rate of panel, this application provides an automatic building material strorage device of location.

The application provides an automatic building material strorage device of location adopts following technical scheme:

the utility model provides an automatic building material strorage device of location, includes the riser, and the riser is placed on ground, and the vertical extension of riser, the riser is provided with two, and two risers are parallel and relative setting are connected with the level between the coexistence board and are used for placing the baffle of panel, are provided with locating component on the riser, and locating component includes push pedal, positioning spring, and the push pedal is located the baffle top, and the vertical setting of push pedal, and positioning spring is located between push pedal and a certain riser.

By adopting the technical scheme, the plates to be stored are vertically placed on the partition plate, the first plate is abutted against the vertical plate on one side of the push plate, which is far away from the positioning spring, the plates to be stored are sequentially placed on the partition plate, the push plate is abutted against the last plate, the positioning spring is compressed, the positioning spring pushes the push plate, the push plate pushes the plates to enable the plates to stably stand on the partition plate, the thrust force applied between the plates is the elastic force applied by the positioning spring, the proper positioning spring can be selected, the elastic force of the positioning spring acting on the plates is ensured, the plates are stable and can not be excessively extruded, and the probability of plate damage caused by overlarge stress of the plates is reduced; after taking away partial panel, the location spring resumes deformation gradually, pushes away the push pedal, and the push pedal pushes away the stability that panel guaranteed panel, realizes the automatic positioning of push pedal according to panel thickness, guarantees the supporting role of push pedal to panel to guarantee the stability that panel deposited.

Optionally, the push pedal is close to positioning spring one side fixedly connected with guide bar, and the positioning spring cover is established outside the guide bar, and guide bar sliding connection is in the riser, and guide bar sliding direction is on a parallel with the positioning spring axis, and the guide bar is kept away from push pedal one end and is run through the riser.

Through adopting above-mentioned technical scheme, the guide bar moves along with the push pedal, the riser restriction guide bar is to being on a parallel with the motion of other directions outside the positioning spring axis direction, thereby the motion of restriction push pedal, guarantee that the push pedal moves along the direction that is on a parallel with the positioning spring axis, the guide bar can reduce the probability that positioning spring takes place to buckle simultaneously, guarantee that positioning spring is in the horizontality, reduce positioning spring and buckle and drive the crooked probability of push pedal, guarantee that the push pedal is on a parallel with panel, thereby guarantee that positioning spring's effort can be even and act on panel, guarantee the stability that panel deposited.

Optionally, the guide rod includes outer tube, interior pole, and interior pole sliding connection is in the outer tube, and the outer tube housing is established outside interior pole, outer tube fixed connection in push pedal.

By adopting the technical scheme, when the number of the plates on the partition plate is large, the push plate is close to the vertical plate penetrated by the guide rod, most of the guide rod is positioned on one side of the vertical plate far away from the plates, and at the moment, the inner rod can be pushed to move towards the direction close to the push plate, so that the inner rod is arranged in the outer pipe, the length of the guide rod extending out of the vertical plate is reduced, and the influence of the guide rod extending out of the vertical plate on constructors is reduced; when the plates need to be taken, the pull rod moves towards the direction far away from the push plate, the length of the pull rod pulled out can be determined according to the number of the plates to be taken, and the guide rod is ensured to realize the guide effect.

Optionally, baffles are arranged on two sides of the partition board, the baffles are perpendicular to the partition board and perpendicular to the vertical board, one baffle is fixedly connected to the partition board and the vertical board, the other baffle is rotatably connected to the partition board, the rotation axis of the partition board is parallel to the axis of the positioning spring, and a connecting piece is arranged between the partition board and the vertical board.

By adopting the technical scheme, the baffle plate has a blocking effect on the plate on the partition plate, so that the probability that the plate slides off the partition plate under the external action is reduced, and the storage stability of the plate is ensured; when the plate needs to be taken out, the connecting piece is opened, the baffle is rotated, the baffle is turned downwards, then the plate is taken out, after the required plate is taken out, the rotating baffle is reset, and the baffle and the vertical plate are fixed through the switch.

Optionally, a limiting assembly for limiting the movement of the push plate is arranged on one side, away from the partition plate, of the fixedly connected baffle plate, the limiting assembly comprises a connecting block and a limiting block, the connecting block is connected to the baffle plate in a sliding manner, the sliding direction of the connecting block is parallel to the axis of the positioning spring, a sliding groove is formed in the baffle plate, the connecting block is located in the sliding groove, the limiting block is connected to the connecting block in a sliding manner, the sliding direction of the limiting block is horizontal and perpendicular to the axis of the positioning spring, an accommodating groove is formed in the connecting block, the accommodating groove extends from one side, away from the baffle plate, of the connecting block, the limiting block is located in the accommodating groove, a limiting spring is fixedly connected to one side, close to the baffle plate, of the limiting block, and one end, away from the limiting spring, of the limiting spring is fixedly connected to the bottom of the accommodating groove; the spout runs through the baffle, fixedly connected with screw rod on the connecting block, and outside the connecting block one end was kept away from to the screw rod stretched out the spout, threaded connection had the nut on the screw rod.

By adopting the technical scheme, when the plate is normally stored, the nut is not abutted to the baffle, the limiting block is positioned on one side of the plate close to the baffle, the plate extrudes the limiting spring, the limiting block is arranged in the containing groove, when the plate needs to be taken out, the connecting block is moved to drive the limiting block to be positioned on one side of the push plate close to the baffle, then the push plate is pushed to the direction far away from the plate and then loosened, under the action of the limiting spring, the limiting block is moved to the direction far away from the connecting block to be abutted to the push plate, the nut is rotated to enable the nut to be abutted to the baffle, the limiting block enables the push plate to be contacted with the plate part and limits the push plate to move to the direction close to the plate, the extrusion action of the push plate on the plate disappears, a space is provided for taking out the plate, the plate is taken out more smoothly, after the plate is taken out, the limiting block is newly arranged in the containing groove, and the push plate continues to push the plate under the action of the positioning spring, the stability of panel storage is guaranteed.

Optionally, fixedly connected with driving lever on the stopper, the driving lever level sets up, and driving lever sliding connection in connecting block, and driving lever sliding direction is on a parallel with stopper sliding direction, has seted up the intercommunication groove on the connecting block, and intercommunication groove intercommunication storage tank and external, stopper one end is kept away from to the driving lever and is passed the intercommunication groove and arrange in outside the connecting block.

Through adopting above-mentioned technical scheme, when needing to take out panel, it makes stopper and push pedal butt to remove the connecting block, take out the back with panel, the pulling driving lever removes to the direction of keeping away from the push pedal, the driving lever drives the stopper and removes to receiving to put in the storage tank to the direction of keeping away from the push pedal, realize packing up fast of stopper, guarantee the butt of push pedal and panel, guarantee the supporting role of push pedal to panel, after taking out panel in addition, can remove the connecting block to one side that panel was kept away from to the push pedal, reduce the extrusion of stopper to panel, when needs take out panel, can stimulate the driving lever and drive the stopper and arrange in the storage tank in, after removing the connecting block to suitable position, loosen the driving lever and make stopper and push pedal butt, stop the push pedal and continue to apply thrust to panel, make taking out of panel more smooth.

Optionally, sliding connection has the fixture block on the connecting block, and fixture block slip direction level, the fixture block is located the storage tank and keeps away from the bottom position, has seted up the draw-in groove on the connecting block, draw-in groove intercommunication storage tank and external, and the fixture block is inserted and is located in the draw-in groove, has seted up the fixed slot on the lateral wall that storage tank and draw-in groove are relative, and the one end that the draw-in groove was kept away from to the fixture block is located the fixed slot.

Through adopting the above technical scheme, when panel normally deposits, the draw-in groove one end is located the fixed slot is kept away from to the fixture block, the fixed slot is fixed the fixture block in the storage tank with the draw-in groove cooperation, the fixture block blocks that the stopper leaves the storage tank, when needs take out panel, remove connecting block to suitable position, twitch the fixture block and keep away from the fixed slot, lose the blocking effect of fixture block, the stopper is under fiber spring's effect to the direction motion of keeping away from the connecting block extremely with the push pedal butt, block the push pedal and continue to apply thrust to panel, make taking out of panel more smooth, take out panel the back, the pulling driving lever drives the stopper and arranges in the storage tank in, promote the fixture block to the fixture block card and establish in the fixed slot, the fixture block is fixed the stopper in the storage tank.

Optionally, one end of the fixture block, which is close to the fixing groove, is fixedly connected with an end plate, and the length of the end plate in the vertical direction is greater than that of the clamping groove in the vertical direction.

Through adopting above-mentioned technical scheme, the end plate can't pass the draw-in groove and leave the storage tank to make the fixture block can not break away from with the connecting block, guarantee the integrality that fixture block and connecting block are connected.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the positioning assembly is arranged, so that the plate is stably stored, and the damage rate of the plate is reduced;

2. the guide rod is arranged, so that the supporting effect of the push plate on the plate is ensured;

3. through setting up spacing subassembly for taking out of panel is more convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic structural view of the present embodiment with the cover plate hidden and in a plate-taken out state;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural view of the present embodiment with the cover plate hidden and in a plate storage state;

FIG. 5 is a cross-sectional view of the connector block after concealing the remainder of the restraint assembly.

Description of reference numerals: 1. a vertical plate; 2. a partition plate; 3. a baffle plate; 31. a connecting member; 311. inserting a rod; 312. a socket; 32. a chute; 4. a cover plate; 5. a positioning assembly; 51. pushing the plate; 511. a guide rod; 5111. an outer tube; 5112. an inner rod; 52. a positioning spring; 6. a limiting component; 61. connecting blocks; 611. a containing groove; 612. a communicating groove; 613. a card slot; 614. fixing grooves; 615. a clamping block; 6151. an end plate; 62. a limiting block; 621. a limiting spring; 622. a screw; 6221. a nut; 623. a deflector rod; 7. a plate material.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses building material strorage device of automatic location. Referring to fig. 1 and 2, an automatic building material strorage device of location includes riser 1, riser 1 is placed on ground, 1 vertical extension of riser, riser 1 is provided with two, 1 parallel and relative setting of two risers, be provided with baffle 2 between two risers 1, 2 horizontal extensions of baffle and 2 fixed connection of baffle in riser 1, 2 parallel arrangement of baffle are a plurality of, place the panel 7 that remain to deposit on the baffle 2, 7 vertical placements of panel, be provided with locating component 5 on riser 1, locating component 5 guarantees the stability that panel 7 deposited, reduce the spoilage of panel 7.

Referring to fig. 2 and 3, the positioning assembly 5 includes a push plate 51 and a positioning spring 52, the push plate 51 is located above the partition board 2, the push plate 51 is parallel to the board 7, the positioning spring 52 is fixedly connected to one side of the push plate 51 far away from the board 7, one end of the positioning spring 52 far away from the push plate 51 is abutted to the vertical board 1, one side of the push plate 51 near the positioning spring 52 is fixedly connected with a guide rod 511, the guide rod 511 includes an outer tube 5111 and an inner rod 5112, the inner rod 5112 is slidably connected to the outer tube 5111, the outer tube 5111 is sleeved outside the inner rod 5112, the outer tube 5111 is fixedly connected to the push plate 51, the positioning spring 52 is sleeved outside the guide rod 511, the guide rod 511 is slidably connected to the vertical board 1, the sliding direction of the guide rod 511 is parallel to the axis of the positioning spring 52, a through hole is formed on the vertical board 1, the through hole is matched with the outer tube 5111, the guide rod 511 passes through hole, the board 7 to be stored is vertically placed on the partition board 2, the positioning spring 52 pushes the board 7 through the push plate 51, the plates 7 are stably stored, the thrust force applied between the plates 7 is the elastic force applied by the positioning springs 52, the probability that part of the plates 7 are damaged due to overlarge stress is reduced, after one part of the plates 7 are taken out, the positioning springs 52 gradually recover to deform to push the push plate 51 to continuously abut against the plates 7, and the guide rods 511 ensure that the push plate 51 horizontally moves, so that the plates 7 are stably stored on the partition plate 2.

Referring to fig. 1 and 2, a cover plate 4 is disposed above a partition plate 2, the cover plate 4 is parallel to the partition plate 2, the cover plate 4 is fixedly connected to the top end of a vertical plate 1, baffle plates 3 are disposed on two sides of the partition plate 2, the baffle plates 3 are perpendicular to the partition plate 2, and the baffle plates 3 are perpendicular to the vertical plate 1, wherein one baffle plate 3 is fixedly connected to the partition plate 2 and the vertical plate 1, the other baffle plate 3 is hinged to the partition plate 2, the hinge axis is parallel to the axis of a positioning spring 52, a connecting member 31 is disposed between the partition plate 2 and the vertical plate 1, the connecting member 31 is a common plug pin, the connecting member 31 comprises a plug rod 311 and a socket 312, the plug rod 311 is slidably connected to the baffle plate 3, the sliding direction of the plug rod 311 is parallel to the axis of the positioning spring 52, the socket 312 is fixedly connected to the vertical plate 1, the plug rod 311 is inserted into the socket 312, the plug rod 311 is adapted to the socket 312, the partition plate 2 and the baffle plate 3 can prevent external impurities from contacting the plate 7, thereby reducing the possibility of damaging the plate 7 caused by the external impurities, when the plate 7 needs to be taken out, the inserting rod 311 is pulled to be away from the inserting hole 312, the rotating baffle 3 is turned downwards, and the plate 7 is taken out.

Referring to fig. 2 and 4, a limiting assembly 6 is arranged on one side, away from the partition plate 2, of the fixedly connected baffle plate 3, the limiting assembly 6 includes a connecting block 61 and a limiting block 62, the connecting block 61 is slidably connected to the baffle plate 3, the sliding direction of the connecting block 61 is parallel to the axis of the positioning spring 52, the baffle plate 3 is provided with a sliding groove 32, the connecting block 61 is located in the sliding groove 32, the limiting block 62 is slidably connected to the connecting block 61, the sliding direction of the connecting block 61 is horizontal and perpendicular to the axis of the positioning spring 52, the connecting block 61 is provided with an accommodating groove 611, the accommodating groove 611 extends from the side, away from the baffle plate 3, of the connecting block 61, the limiting block 62 is located in the accommodating groove 611, the top of the limiting block 62 is fixedly connected with a limiting spring 621, and one end, away from the limiting block 62, of the limiting spring 621 is fixedly connected to the bottom of the accommodating groove 611; the sliding groove 32 penetrates through the baffle 3, a screw 622 is fixedly connected to the connecting block 61, one end, far away from the connecting block 61, of the screw 622 extends out of the sliding groove 32, and a nut 6221 is connected to the screw 622 in a threaded mode.

Referring to fig. 4 and 5, a driving lever 623 is fixedly connected to the limiting block 62, the driving lever 623 is horizontally arranged, the driving lever 623 is slidably connected to the connecting block 61, the sliding direction of the driving lever 623 is parallel to the sliding direction of the limiting block 62, a communicating groove 612 is formed in the connecting block 61, the communicating groove 612 communicates with the accommodating groove 611 and the outside, one end of the driving lever 623, which is far away from the limiting block 62, passes through the communicating groove 612 and is arranged outside the connecting block 61, a latch 615 is slidably connected to the connecting block 61, the sliding direction of the latch 615 is horizontal and parallel to the axis of the positioning spring 52, the latch 615 is located at a position far away from the bottom of the accommodating groove 611, a clamping groove 613 is formed in the connecting block 61, the latch 615 is inserted into the clamping groove 613, one end of the latch 615, which is close to the fixing groove 614, is fixedly connected to an end plate 6151, the length of the end plate 6151 in the vertical direction is greater than the length of the clamping groove 613, a fixing groove 614 is formed in the side wall of the accommodating groove 611 opposite to the clamping groove 613, the end plate 6151 is located in the fixing groove 614.

Referring to fig. 4 and 5, when the plate 7 is normally stored, the nut 6221 is not tightly abutted to the baffle 3, the connecting block 61 is located on one side of the push plate 51 away from the plate 7, the end plate 6151 is located in the fixing groove 614, the stopper 615 fixes the stopper 62 in the accommodating groove 611, when a part of the plate 7 needs to be taken out, the connecting block 61 is moved so that the connecting block 61 is opposite to one side of the push plate 51 close to the baffle 3, the stopper 615 is pulled away from the fixing groove 614, the push plate 51 is pushed in a direction away from the plate 7 and then loosened, the stopper 62 moves in a direction away from the connecting block 61 under the action of the limiting spring 621 and abuts against one side of the push plate 51 close to the plate 7, the nut 6221 is rotated until the nut 6221 is tightly abutted to the baffle 3, the stopper 62 blocks the push plate 51 from contacting the plate 7, so that the plate 7 can be smoothly taken out, after the plate 7 is taken out, the driving lever 623 drives the stopper 62 to be placed in the accommodating groove 611, the pushing fixture block 615 to the end plate 6151 are located in the fixing groove 614, the movable connecting block 61 is located on one side, away from the plate 7, of the pushing plate 51, and the pushing plate 51 continues to push the plate 7 under the action of the positioning spring 52, so that the plate 7 is stably stored on the partition board 2.

The implementation principle of the automatic positioning building material storage device in the embodiment of the application is as follows: the plate 7 to be stored is vertically placed on the partition board 2, the positioning spring 52 extrudes the plate 7 through the push plate 51, so that the plate 7 is stably stored on the partition board 2, the stress of each plate 7 is uniform, the probability that part of the plate 7 is damaged due to overlarge stress is reduced, when the plate 7 is normally stored, the nut 6221 is not abutted against the baffle 3, the connecting block 61 is positioned on one side, far away from the plate 7, of the push plate 51, the end plate 6151 is positioned in the fixing groove 614, the limiting block 62 is fixed in the accommodating groove 611 by the fixture block 615, the inserting rod 311 is inserted in the socket 312, when the plate 7 needs to be taken out, the inserting rod 311 is pulled to be far away from the socket 312, the baffle 3 is rotated to be vertical, the connecting block 61 is moved to be opposite to one side, close to the baffle 3, of the push plate 51, the fixture block 615 is pulled to be far away from the fixing groove 614, meanwhile, the push plate 51 to be far away from the plate 7 to be loosened, the positioning block 62 moves to the direction far away from the connecting block 61 under the action of the positioning limiting spring 621 and abuts against one side, close to the plate 7, the nut 6221 is rotated until the nut 6221 abuts against the baffle 3 tightly, the limiting block 62 blocks the push plate 51 to push the plate 7, so that the plate 7 can be taken out smoothly, after the plate 7 is taken out, the driving lever 623 is pulled to drive the limiting block 62 to be arranged in the accommodating groove 611, the clamping block 615 is pushed to the end plate 6151 to be arranged in the fixing groove 614, the movable connecting block 61 is arranged at one side, far away from the plate 7, of the push plate 51, the baffle 3 is rotated to reset, the inserting rod 311 is inserted into the inserting hole 312, the push plate 51 continues to push the plate 7 under the action of the positioning spring 52, and the plate 7 is stably stored on the partition plate 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An automatic building material strorage device of location which characterized in that: including riser (1), place in ground riser (1), riser (1) is vertical to be extended, riser (1) is provided with two, two risers (1) are parallel and relative to be set up, be connected with baffle (2) that the level just was used for placing panel (7) between two risers (1), be provided with locating component (5) on riser (1), locating component (5) are including push pedal (51), positioning spring (52), push pedal (51) are located baffle (2) top, and push pedal (51) vertical setting, positioning spring (52) set up between push pedal (51) and a certain riser (1).

2. The automatically positionable building material storage unit of claim 1, wherein: push pedal (51) are close to positioning spring (52) one side fixedly connected with guide bar (511), and positioning spring (52) cover is established outside guide bar (511), and guide bar (511) sliding connection is in riser (1), and guide bar (511) sliding direction is on a parallel with positioning spring (52) axis, and guide bar (511) keep away from push pedal (51) one end and run through riser (1).

3. An automatically positionable building material storage unit according to claim 2, wherein: the guide rod (511) comprises an outer tube (5111) and an inner rod (5112), the inner rod (5112) is connected to the outer tube (5111) in a sliding mode, the outer tube (5111) is sleeved outside the inner rod (5112), and the outer tube (5111) is fixedly connected to the push plate (51).

4. The automatically positionable building material storage unit of claim 1, wherein: baffle (3) are arranged on two sides of baffle (2), baffle (3) is perpendicular to vertical plate (1), one baffle (3) is fixedly connected to baffle (2) and vertical plate (1), the other baffle (3) is rotatably connected to baffle (2), the axis of rotation of baffle (2) is parallel to the axis of positioning spring (52), and connecting piece (31) is arranged between baffle (2) and vertical plate (1).

5. An automatically positionable building material storage unit according to claim 4, wherein: fixedly connected one side, far away from the baffle plate (2), of the baffle plate (3) is provided with a limiting assembly (6) for limiting the movement of the push plate (51), the limiting assembly (6) comprises a connecting block (61) and a limiting block (62), the connecting block (61) is connected to the baffle plate (3) in a sliding manner, the sliding direction of the connecting block (61) is parallel to the axis of the positioning spring (52), the baffle plate (3) is provided with a sliding groove (32), the connecting block (61) is positioned in the sliding groove (32), the limiting block (62) is connected to the connecting block (61) in a sliding manner, the sliding direction of the limiting block (62) is horizontal and perpendicular to the axis of the positioning spring (52), the connecting block (61) is provided with a containing groove (611), the containing groove (611) extends from the side, far away from the baffle plate (3), of the connecting block (61), the limiting block (62) is positioned in the containing groove (611), and one side, close to the limiting block (62) is fixedly connected with the limiting spring (621), one end of the limiting spring (621), which is far away from the limiting block (62), is fixedly connected to the bottom of the accommodating groove (611); the baffle (3) runs through in spout (32), fixedly connected with screw rod (622) on connecting block (61), and outside connecting block (61) one end was kept away from in screw rod (622) stretched out spout (32), threaded connection had nut (6221) on screw rod (622).

6. An automatically positionable building material storage unit according to claim 5, wherein: fixedly connected with driving lever (623) on stopper (62), driving lever (623) horizontal setting, and driving lever (623) sliding connection in connecting block (61), driving lever (623) sliding direction is on a parallel with stopper (62) sliding direction, has seted up on connecting block (61) intercommunication groove (612), and intercommunication groove (612) intercommunication containing groove (611) and external, and driving lever (623) are kept away from stopper (62) one end and are passed intercommunication groove (612) and arrange in outside connecting block (61).

7. An automatically positionable building material storage unit according to claim 5, wherein: the connecting block (61) is connected with a clamping block (615) in a sliding mode, the sliding direction of the clamping block (615) is vertical, the clamping block (615) is located in the accommodating groove (611) and away from the bottom, a clamping groove (613) is formed in the connecting block (61), the clamping groove (613) is communicated with the accommodating groove (611) and the outside, and the clamping block (615) is inserted into the clamping groove (613).

8. An automatically positionable building material storage unit according to claim 7, wherein: an end plate (6151) is fixedly connected to one end, far away from the clamping groove (613), of the clamping block (615), and the length of the end plate (6151) in the horizontal direction is larger than that of the clamping groove (613).

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