CN213536545U - Truss welding steel bar stacking device - Google Patents

Abstract

The utility model discloses a truss welding reinforcing bar pile up neatly device, include: the support is provided with a plurality of vertical plates, the center of each vertical plate is provided with a relief opening, and two supporting plates are arranged below the relief opening; a fixed plate is arranged between the two vertical plates at the feeding end of the bracket, a pair of screw rod lifters is fixed on the fixed plate, the middle shaft of one screw rod lifter is connected with the output shaft of the motor, and the other end of the middle shaft of the screw rod lifter is connected with the middle shaft of the other screw rod lifter through a connecting shaft; the bottom of a screw rod of the screw rod lifter is connected with a mounting plate provided with a slide rail at the bottom through a lifting pipe, the slide rail is provided with a mounting seat in a sliding manner, the bottom of the mounting seat is connected with a connecting seat, the bottom of the connecting seat is provided with a clamping assembly, and the side wall of the connecting seat is connected with a piston rod of a first air cylinder; the stacking bracket is positioned below the bracket, and a pushing mechanism is arranged on the stacking bracket; still include receiving mechanism. The utility model provides a truss welding steel bar pile up neatly device, the pile up neatly gathers materials efficiently.

Description

Truss welding steel bar stacking device

Technical Field

The utility model relates to a reinforcing bar processingequipment field especially relates to truss welds reinforcing bar pile up neatly device.

Background

The steel bar truss is a three-dimensional truss product which is mostly of a triangular structure and is formed by welding steel bars, and has the advantages of good stability, strong rigidity, stable and reliable quality and the like. The steel bar truss comprises an upper chord steel bar and two lower chord steel bars, wherein the upper chord steel bar and the two lower chord steel bars are welded together by a web member steel bar which is bent into a wave shape, the upper chord steel bar is welded with the wave crest three of the two web members, two sides of the middle waist of the two web members are respectively welded with the two lower chord steel bars, two ends of the steel bar truss respectively weld the upper chord steel bar and the lower chord steel bars through a group of vertical cross steel bars, and the vertical cross steel bars comprise vertical steel bars and horizontal steel bars.

In the truss reinforcing bar production process, cut into the fixed length and the good truss of welding needs to collect and stack, but in current production, generally adopt artifical collection to remove the truss, artifical intensity of labour is big, and work efficiency is low, influences production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages which will be described later.

In order to solve the defects of the prior art, the utility model provides a truss welding steel bar stacking device, include:

the support is provided with a plurality of vertical plates, the vertical plates are uniformly arranged along the length direction of the support, the center of each vertical plate is provided with a relief opening, two supporting plates for bearing a truss are arranged below the vertical plate, the supporting plates with L-shaped end surfaces have the same length with the support, and the supporting plates are in an opening state and a closing state;

a fixed plate is arranged between the two vertical plates at the feeding end of the bracket, a pair of screw rod lifters is fixed on the fixed plate, the middle shaft of one screw rod lifter is connected with the output shaft of the motor, and the other end of the middle shaft of the screw rod lifter is connected with the middle shaft of the other screw rod lifter through a connecting shaft; the bottom of a screw rod of the screw rod lifter is connected with a mounting plate provided with a slide rail at the bottom through a lifting pipe, the slide rail is provided with a mounting seat in a sliding manner, the bottom of the mounting seat is connected with a connecting seat, the bottom of the connecting seat is provided with a clamping assembly, and the side wall of the connecting seat is connected with a piston rod of a first air cylinder;

the stacking supports are positioned below the supports and extend along the length direction of the supports, and pushing mechanisms are mounted on the stacking supports;

the material receiving mechanism is positioned below the support and can move up and down to receive the falling truss.

Further, the centre gripping subassembly includes wide type finger cylinder and a pair of splint, be provided with two centre gripping arms respectively on two output poles of wide type finger cylinder just wide type finger cylinder is used for controlling two the centre gripping arm presss from both sides tightly each other or loosens, splint are installed respectively on the centre gripping arm, splint keep away from the one end of centre gripping arm is bent downwards and is had the riser, the riser surface is equipped with anti-skidding decorative pattern.

Furthermore, open plates are mounted at two ends of the supporting plate.

Furthermore, a rotating rod extending along the length direction of the supporting plate is fixed at the top of the supporting plate through a pipe clamp, the rotating rod is hinged to a vertically arranged second cylinder through a cylinder joint, and the second cylinder is installed on the side face of the vertical plate.

Further, the piston rod of the first cylinder penetrates through a mounting flange, and the mounting flange is mounted on the bottom surface of the mounting plate.

Furthermore, reinforcing rib plates are arranged between the two side faces of the vertical plate and the bracket.

Furthermore, the material receiving mechanism consists of a plurality of stacking plates, chains with the same number as the stacking plates, a chain wheel shaft and a power device, the number of the stacking plates is consistent with that of the stacking brackets, any stacking plate is in sliding fit with the upright posts below the brackets and is positioned on the side edge of the stacking brackets, a chain wheel shaft in transmission connection with the power device penetrates through a plurality of first bearings which are fixed at the lower part of the back wall of the upright post through a bearing mounting plate, the stacking plate comprises a pair of side plates, a front roller shaft and a rear roller shaft penetrate between the side plates, the front roller shaft is positioned on the front wall of the upright post, the rear roller shaft is positioned on the rear wall of the upright post, the rear roller shaft is connected with a vertically arranged chain through a chain interface, the chain is wound on a tension chain wheel and a roller chain wheel, the tensioning chain wheel is fixed on a chain wheel support plate at the top of the upright post, and the roller chain wheel is fixed on the chain wheel shaft.

Furthermore, a slidable bearing II is arranged at the joint of the two ends of the front roller shaft and the rear roller shaft with the side plate respectively, and the surface of the bearing II is in contact with the surface of the upright post.

Further, the horizontal plane of the front roller shaft is lower than that of the rear roller shaft; the upper surface of one end of the side plate, which is far away from the upright post, is provided with a baffle plate.

Furthermore, the pushing mechanism comprises a third cylinder and a pushing plate, the third cylinder is fixed on the stacking support, and the back of the pushing plate is connected with a piston rod of the third cylinder.

The utility model discloses at least, include following beneficial effect: the truss welding steel bar stacking device stacks the truss on the stacking support, so that the manual labor is saved, the stacking and collecting efficiency is improved, and the production efficiency is improved; the truss is conveyed to the supporting plate, the clamping assembly grasps the truss on the supporting plate, under the action of the first air cylinder, the clamping assembly clamps the truss to push towards the other end of the supporting plate, the truss moves on the supporting plate, when the truss moves to the position above the stacking support, the supporting plate is opened, the truss falls on the material receiving mechanism after falling from an opening between the two supporting plates, after the material receiving mechanism receives a certain number of trusses, the material receiving mechanism moves downwards to the bottom of the stacking support to enable the truss to fall on the stacking support, the truss is pushed to one end, away from the support, of the stacking support through the material pushing mechanism, the material receiving mechanism moves upwards to the position below the supporting plate to carry out next material receiving operation, the truss is connected end to be arranged on the supporting plate through the material collecting stacking operation, the material collecting operation of a plurality.

Drawings

Fig. 1 is the utility model discloses a truss welds reinforcing bar pile up neatly device structure sketch map.

Fig. 2 is an enlarged schematic structural diagram of 001 in fig. 1 according to the present invention.

Fig. 3 is an enlarged schematic view of 002 in fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic structural view of 003 in fig. 2 according to the present invention.

Fig. 5 is a schematic view of the structure of the tension sprocket and the chain.

Fig. 6 is a schematic view of the structure of the roller chain wheel and the chain of the present invention.

Fig. 7 is a schematic view of the stacked plate structure of the present invention.

Fig. 8 is a schematic structural view of the clamping assembly of the present invention.

Reference numerals: a 1-bracket, a 2-vertical plate, a 3-relief opening, a 4-supporting plate, a 5-fixing plate, a 6-screw rod lifter, a 7-connecting shaft, a 8-mounting plate, a 9-mounting seat, a 10-connecting seat, a 11-clamping component, a 12-first air cylinder, a 13-stacking bracket, a 14-opening plate, a 15-rotating rod, a 16-air cylinder joint, a 17-second air cylinder, a 18-mounting flange, a 19-pipe clamp, a 20-stacking plate, a 21-chain, a 22-chain wheel shaft, a 23-power device, a 24-upright post, a 25-bearing I, a 26-front roller shaft, a 27-rear roller shaft, a 28-chain joint, a 29-tensioning chain wheel, a 30-roller, a 31-bearing II, a 32-baffle, a 33-a third cylinder, a 34-a push plate, a 35-a side plate, a 36-a lifting pipe, a 37-a broad finger cylinder, a 38-a clamping plate, a 39-a clamping arm, a 40-a vertical plate and a 41-an antiskid pattern.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

Fig. 1 ~ 8 show the utility model discloses a truss welds reinforcing bar pile up neatly device, include:

the support a1 is provided with a plurality of vertical plates a2 on the support a1, the vertical plates a2 are uniformly arranged along the length direction of the support a1, the center of the vertical plate a2 is provided with a position-giving opening a3, two supporting plates a4 used for bearing a truss are arranged below the vertical plate a2, the length of the supporting plate a4 with an L-shaped end face is consistent with that of the support a1, and the supporting plate a4 has an opening state and a closing state;

a fixed plate a5 is arranged between two vertical plates at the feeding end of the bracket a1, a pair of screw rod lifters a6 is fixed on the fixed plate a5, the middle shaft of one screw rod lifter a6 is connected with the output shaft of a motor, and the other end of the middle shaft of the screw rod lifter a6 is connected with the middle shaft of the other screw rod lifter a6 through a connecting shaft a 7; the bottom of a screw rod of the screw rod lifter a6 is connected with a mounting plate a8 of a bottom mounting slide rail through a lifting pipe a36, the slide rail is slidably provided with a mounting seat a9, the bottom of the mounting seat a9 is connected with a connecting seat a10, the bottom of the connecting seat a10 is provided with a clamping component a11, and the side wall of the connecting seat a10 is connected with a piston rod of a first air cylinder a 12;

a plurality of pallet supports a13 arranged below the support a1 and extending along the length direction of the support a1, wherein a pushing mechanism is mounted on the pallet support a 13;

the material receiving mechanism is positioned below the bracket a1 and can move up and down to receive the falling trusses.

In the technical scheme, the truss welding steel bar stacking device stacks the truss on the stacking bracket a13, so that the labor force is saved, the stacking and collecting efficiency is improved, and the production efficiency is improved; the truss is conveyed to the supporting plate a4, a motor (not shown) drives a central shaft of the lead screw lifter a6 to rotate, so that a lead screw of the lead screw lifter a6 moves to drive the clamping component a11 to move up and down, the clamping component a11 grasps the truss on the supporting plate a4, under the action of the first air cylinder a12, the clamping component a11 clamps the truss to push towards the other end of the supporting plate a4, so that the truss moves on the supporting plate a4, when the truss moves to the position above the stacking bracket a13, the supporting plate a4 is opened, the truss falls from an opening between the two supporting plates a4 and then falls on the receiving mechanism, when the receiving mechanism receives a certain number of trusses, the receiving mechanism moves downwards to the bottom of the supporting plate a13 so that the truss falls on the stacking bracket a13, the truss is pushed to the end of the stacking bracket a13 away from the stacking bracket a1 by the pushing mechanism, the receiving mechanism moves upwards to the supporting plate a4 to perform next, the aggregate stacking enables the trusses to be connected and arranged on the supporting plate a4 end to end, the aggregate stacking operation of a plurality of trusses in the same batch is achieved, and the stacking efficiency is effectively improved.

In another example, the clamping assembly a11 includes a wide finger cylinder a37 and a pair of clamping plates a38, two clamping arms a39 are respectively arranged on two output rods of the wide finger cylinder a37, and the wide finger cylinder a37 is used for controlling the two clamping arms a39 to be clamped or loosened with each other, the clamping plates a38 are respectively arranged on the clamping arms a39, a riser a40 is bent downwards at one end of the clamping plate a38 away from the clamping arms a39, and an anti-skid pattern a41 is arranged on the surface of the riser a 40.

In the technical scheme, the wide finger cylinder a37 drives the clamping arm a39 to move, so that the clamping plate a38 is driven to clamp or loosen the truss to clamp, the clamping operation of the clamping assembly a11 is ensured to be safe and effective, and the clamping assembly a11 is not easy to deform after being used for a long time; the antiskid patterns a41 increase the friction force between the vertical plate a40 and the truss, and further enhance the clamping stability and safety.

In another example, both ends of the supporting plate a4 are provided with open plates a 14. With this arrangement, the provision of the open panel a14 facilitates the entry of the truss reinforcement into the pallet a 4.

In another example, a rotating rod a15 extending along the length direction of the supporting plate a4 is fixed at the top of the supporting plate a4 through a pipe clamp a19, the rotating rod a15 is hinged with a second air cylinder a17 arranged vertically through an air cylinder joint a16, and the second air cylinder a17 is installed on the side surface of the vertical plate a 2. With this solution, when two pallets a4 need to be opened, the second cylinder a17 is activated, the second cylinder a17 moves upward, and since the cylinder joint a16 is hinged to the piston rod of the second cylinder a17 and the cylinder joint a16 is fixedly connected to the rotating rod, the rotating rod a15 drives the pallet a4 to turn around the central axis of the rotating rod a15, 2 pallets a4 are turned outward respectively, 2 pallets a4 are far away from each other, and the truss on the pallet a4 falls through the opening between the 2 pallets.

In another example, the piston rod of the first cylinder a12 extends through a mounting flange a18, and the mounting flange a18 is mounted to the bottom surface of the mounting plate a 8. With this arrangement, it is advantageous to fix the first cylinder a12 and prevent the first cylinder a12 from shifting during the telescopic movement.

In another example, reinforcing ribs are arranged between two side faces of the vertical plate a2 and the bracket a 1. With this arrangement, it is advantageous to enhance the stability of riser a 2.

In another example, the material receiving mechanism comprises a plurality of stacking plates a20, a chain a21 in accordance with the number of the stacking plates a20, a sprocket shaft a22 and a power device a23, the number of the stacking plates a is in accordance with the number of the stacking brackets a13, any stacking plate a20 is slidably fitted on a column a24 under the bracket a1 and is positioned at the side edge of the stacking bracket a13, the sprocket shaft a13 in transmission connection with the power device a13 penetrates through a plurality of bearings a13, the bearings a13 are fixed at the lower part of the back wall of the column a13 through bearing mounting plates, the stacking plate a13 comprises a pair of side plates a13, a front roller shaft a13 and a rear roller shaft a13 penetrate through the side plates a13, the front roller shaft a13 is positioned at the front wall of the column a13, the rear roller shaft a13 is positioned at the rear wall of the column a13, the rear roller shaft a13 is connected with the chain a chain wheel 13 a13 in tension way around the sprocket 13 a tension roller 13 a, the tensioning sprocket a29 is fixed on a sprocket support plate at the top of the upright post a24, and the roller sprocket a30 is fixed on the sprocket shaft a 22.

In the technical scheme, the power device a23 can be a servo motor, the forward and reverse rotation of the servo motor is the prior art, the forward and reverse rotation of the servo motor is realized, the sprocket shaft a22 rotates forward and reverse, the sprocket shaft a22 rotates forward to drive the roller sprocket a30 to rotate, the chain a21 rolls to drive the stacking plate a20 to be lifted upwards to the position below the supporting plate a4 to receive the steel bars of the truss, when the truss on the stacking plate a20 needs to be transferred to the stacking bracket a13, the servo motor rotates reversely to drive the sprocket shaft a22 to rotate reversely, the chain a21 rolls to drive the aggregate stacking plate a20 to be moved downwards to the position below the stacking bracket a13, and the truss falls on the stacking bracket a13 to complete the stacking of the truss.

In another example, the two ends of the front roller shaft a26 and the rear roller shaft a27 are respectively connected with the side plates, and a slidable bearing two a31 is installed, and the surface of the bearing two a31 is in contact with the surface of the upright post a 24. With this arrangement, during the up and down movement of stacker plate a20, bearing two a31 slides on the surface of stud a24, thereby facilitating the movement of stacker plate a20 on stud a 24.

In another example, the front roller axle a26 is located at a lower level than the rear roller axle a 27; the upper surface of one end of the side plate a35 away from the upright post a24 is provided with a baffle plate a 32. By adopting the scheme, the front roller shaft a26 and the rear roller shaft a27 embrace the upright post a24, the horizontal plane of the front roller shaft a26 is lower than that of the rear roller shaft a27, the stacking plate a20 is stabilized, the stacking plate a20 is prevented from shaking in the up-and-down moving process, and in addition, the baffle plate a32 is prevented from sliding out of the stacking plate a20 in the moving process of the stacking plate a 20.

In another example, the pushing mechanism comprises a third air cylinder a33 and a push plate a34, the third air cylinder a33 is fixed on the pallet bracket a13, and the back of the push plate a34 is connected with a piston rod of the third air cylinder a 33. With this arrangement, the truss falls onto the palletiser a13, the third cylinder a33 pushes the push plate a34 to move, and the push plate a34 pushes the truss reinforcement bar to move over the palletiser a 13.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (10)

1. Truss welding reinforcing bar pile up neatly device, its characterized in that includes:

the support (a1), a plurality of vertical plates (a2) are arranged on the support (a1), the vertical plates (a2) are uniformly arranged along the length direction of the support (a1), a position-giving opening (a3) is formed in the center of each vertical plate (a2), two supporting plates (a4) used for bearing a truss are mounted below the vertical plates (a2), the length of each supporting plate (a4) with an L-shaped end face is consistent with that of the support (a1), and each supporting plate (a4) has an open state and a closed state;

a fixing plate (a5) is arranged between two vertical plates at the feeding end of the bracket (a1), a pair of screw rod lifters (a6) is fixed on the fixing plate (a5), the middle shaft of one screw rod lifter (a6) is connected with the output shaft of a motor, and the other end of the middle shaft of the screw rod lifter (a6) is connected with the middle shaft of the other screw rod lifter (a6) through a connecting shaft (a 7); the bottom of a screw rod of the screw rod lifter (a6) is connected with a mounting plate (a8) of a bottom mounting slide rail through a lifting pipe (a36), the slide rail is slidably provided with a mounting seat (a9), the bottom of the mounting seat (a9) is connected with a connecting seat (a10), the bottom of the connecting seat (a10) is provided with a clamping component (a11), and the side wall of the connecting seat (a10) is connected with a piston rod of a first air cylinder (a 12);

a plurality of pallet supports (a13) which are arranged below the support (a1) and extend along the length direction of the support (a1), wherein a pushing mechanism is installed on each pallet support (a 13);

the material receiving mechanism is positioned below the bracket (a1) and can move up and down to receive the falling trusses.

2. The truss welded steel bar stacking device as claimed in claim 1, wherein the clamping assembly (a11) comprises a wide finger cylinder (a37) and a pair of clamping plates (a38), two clamping arms (a39) are respectively arranged on two output rods of the wide finger cylinder (a37), the wide finger cylinder (a37) is used for controlling the two clamping arms (a39) to be clamped or loosened with each other, the clamping plates (a38) are respectively arranged on the clamping arms (a39), a vertical plate 40 is bent downwards at one end of the clamping plate (a38) far away from the clamping arms (a39), and anti-skid patterns (a41) are arranged on the surface of the vertical plate (a 40).

3. The truss splice bar palletizer as in claim 1, wherein open plates (a14) are mounted at both ends of the pallet (a 4).

4. The truss welded steel bar stacking device as claimed in claim 1, wherein a rotating rod (a15) extending along the length direction of the supporting plate (a4) is fixed at the top of the supporting plate (a4) through a pipe clamp (a19), the rotating rod (a15) is hinged with a second vertically arranged air cylinder (a17) through an air cylinder joint (a16), and the second air cylinder (a17) is installed on the side surface of the vertical plate (a 2).

5. The truss splice bar palletizer as in claim 1, wherein a piston rod of the first cylinder (a12) extends through a mounting flange (a18), and the mounting flange (a18) is mounted on a bottom surface of the mounting plate (a 8).

6. The truss welded steel bar stacking device as claimed in claim 1, wherein reinforcing ribs are arranged between two side faces of the vertical plate (a2) and the bracket (a 1).

7. The truss welded steel bar stacking device as claimed in claim 1, wherein the receiving mechanism is composed of a plurality of stacking plates (a20), a chain (a21) with the same number as the stacking plates (a20), a sprocket shaft (a22) and a power device (a23), the number of the stacking plates (a20) is the same as that of the stacking brackets (a13), any stacking plate (a20) is slidably fitted on the upright post (a24) below the stacking plate (a1) and is located on the side edge of the stacking bracket (a13), the sprocket shaft (a22) in transmission connection with the power device (a23) penetrates through a plurality of bearing units (a25), the bearing units (a25) are fixed on the lower portion of the back wall of the upright post (a24) through bearing mounting plates, the stacking plate (a20) comprises a pair of side plates (a35), a front roller shaft (a26) and a rear roller shaft (26 a26) penetrate through the side plates (a) and are located on the front wall of the front roller 24 a24, rear roller shaft (a27) is located stand (a24) back wall, rear roller shaft (a27) is connected with vertical chain (a21) through chain interface (a28), chain (a21) is around establishing on tensioning sprocket (a29) and roller sprocket (a30), tensioning sprocket (a29) is fixed on the sprocket extension board at stand (a24) top, roller sprocket (a30) is fixed on sprocket shaft (a 22).

8. The truss-welded reinforcement stacking apparatus as claimed in claim 7, wherein the two ends of the front roller shaft (a26) and the rear roller shaft (a27) are respectively provided with a second slidable bearing (a31) at the connection with the side plate, and the surface of the second bearing (a31) is in surface contact with the surface of the upright post (a 24).

9. The stacker device for truss welded steel bars according to claim 7 wherein the front roller axle (a26) is located at a lower level than the rear roller axle (a 27); the upper surface of one end of the side plate (a35) far away from the upright post (a24) is provided with a baffle (a 32).

10. The truss splice bar palletizer device according to claim 1, wherein the pushing mechanism comprises a third cylinder (a33) and a pushing plate (a34), the third cylinder (a33) is fixed on the palletizing bracket (a13), and the back of the pushing plate (a34) is connected with a piston rod of the third cylinder (a 33).

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