CN212668264U - Automatic material collecting device of steel mesh - Google Patents

Abstract

The application relates to the technical field of steel mesh processing, in particular to an automatic steel mesh receiving device which comprises a supporting turnover mechanism, a lifting receiving mechanism, a supporting turnover mechanism supporting assembly and a turnover assembly, wherein the lifting receiving mechanism is arranged on the supporting turnover mechanism; the lifting material receiving mechanism comprises a material receiving platform and a lifting assembly, wherein the material receiving platform and the lifting assembly are located below the supporting assembly. In the process that the steel mesh is conveyed and discharged by the conveying table, the steel mesh is horizontally conveyed to the supporting assembly, and the steel mesh is positioned right above the material receiving table, so that the steel mesh cannot directly fall onto the material receiving table, and the steel bars on the steel mesh are not easy to loosen; when the overturning assembly drives the supporting assembly to overturn, the lifting assembly drives the material receiving platform to ascend, so that the space between the material receiving platform and the supporting assembly is reduced, a steel mesh falling onto the material receiving platform is not easy to loosen, and the welding quality of the steel mesh is ensured; the lifting component drives the material receiving platform to descend by the thickness of one steel mesh so as to receive subsequent materials of the material receiving platform. The application ensures the welding quality of the steel mesh.

Description

Automatic material collecting device of steel mesh

Technical Field

The application relates to the technical field of steel mesh processing, in particular to an automatic steel mesh receiving device.

Background

The steel mesh is formed by a plurality of steel reinforcement welding that are crisscross setting, and after the steel mesh welding was accomplished, need carry the steel mesh to the unloading platform of welding machine one side from the transport platform of welding machine.

In the blanking process of the steel mesh, the inventor finds that a certain height difference exists between the conveying table and the blanking platform, so that the steel mesh is likely to cause the welded reinforcing steel bars to be loose when falling, the welding quality of the steel mesh is affected, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to guarantee the welding quality of steel mesh, this application provides an automatic material collecting device of steel mesh.

The application provides a pair of automatic material collecting device of steel mesh adopts following technical scheme: an automatic steel mesh collecting device comprises a supporting and overturning mechanism and a lifting and collecting mechanism, wherein the supporting and overturning mechanism comprises a supporting assembly and an overturning assembly, the supporting assembly is used for receiving a steel mesh conveyed by a conveying table, and the overturning assembly is used for driving the supporting assembly to overturn so that the steel mesh falls; the lifting material receiving mechanism comprises a material receiving platform and a lifting assembly, wherein the material receiving platform is located below the supporting assembly, and the lifting assembly is used for driving the material receiving platform to lift.

By adopting the technical scheme, in the process of conveying and blanking the steel mesh by the conveying table, the steel mesh is horizontally conveyed to the supporting assembly, and the steel mesh is positioned right above the material receiving table, so that the steel mesh cannot directly fall onto the material receiving table, and the steel bars on the steel mesh are not easy to loosen; when the overturning assembly drives the supporting assembly to overturn, the lifting assembly drives the material receiving platform to ascend, so that the space between the material receiving platform and the supporting assembly is reduced, a steel mesh falling onto the material receiving platform is not easy to loosen, and the welding quality of the steel mesh is ensured; the lifting component drives the material receiving platform to descend by the thickness of one steel mesh so as to receive subsequent materials of the material receiving platform.

Preferably, the supporting component comprises two supporting plates arranged at intervals, the steel mesh is placed on the two supporting plates, and a dropping cavity for the steel mesh to drop is formed between the two supporting plates.

By adopting the technical scheme, the two supporting plates support the steel mesh together, so that the stability of the steel mesh is ensured; when the overturning assembly drives the two supporting plates to overturn, the steel mesh falls to the material receiving platform from the falling cavity.

Preferably, the overturning assembly comprises a plurality of supporting columns, a first air cylinder and a rotating plate are rotatably connected to the supporting columns, a piston rod of the first air cylinder is rotatably connected to the rotating plate, and the rotating plate is rotatably connected to the supporting plate.

Through adopting above-mentioned technical scheme, when the piston rod of cylinder is flexible, first cylinder, rotor plate and backup pad all will take place the rotation for the steel mesh in the backup pad can be followed the chamber that drops and dropped to receive the material bench.

Preferably, the supporting and overturning mechanism further comprises a moving assembly, the moving assembly comprises a bracket, and a penetrating groove for the support to penetrate is formed in the bracket; the bracket is rotationally connected with a roller through a rotating shaft, the axial direction of the rotating shaft is the same as the conveying direction of the steel mesh, and the roller is tightly propped against the side wall of the pillar; the support is fixed with the second motor, and the output shaft fixed connection of second motor is in the pivot.

By adopting the technical scheme, when the second motor drives the rotating shaft and the idler wheel to rotate, the support post slides in the through groove, so that the distance between the two support plates is changed, and the support plates can be suitable for supporting steel meshes with different specifications; when the second motor was closed, the gyro wheel will compress tightly in the pillar for the pillar is difficult for sliding in the wear-to-establish groove, has guaranteed the stability of upset subassembly.

Preferably, a material collecting platform is arranged on one side, away from the conveying platform, of the material receiving platform, the material receiving platform comprises a fixing frame, a plurality of conveying rollers which are sequentially arranged in the horizontal direction are rotatably connected to the fixing frame, and a belt is sleeved on each two adjacent conveying rollers; the fixed frame is also fixedly provided with a first motor, and an output shaft of the first motor is fixedly connected to one of the conveying rollers.

Through adopting above-mentioned technical scheme, when one of them conveying roller of first motor drive was rotatory, the belt will drive all the other conveying roller linkages for receive the material platform and can carry the steel mesh that piles up to the material collection bench, receive the material platform this moment and can continue to receive the material, and the workman can carry out the unloading to the steel mesh that the material collection bench.

Preferably, still include a plurality of stop gear, stop gear includes two sets of material components that keep off, is equipped with the transport chamber that supplies the steel mesh to carry between two sets of material components that keep off.

By adopting the technical scheme, the steel mesh is not easy to fall off from the side part of the material receiving platform in the conveying process.

Preferably, the material blocking assembly comprises a mounting plate arranged on the fixing frame, a second cylinder is fixed on the mounting plate, and a piston rod of the second cylinder extends axially along the conveying roller and is fixed with a baffle.

Through adopting above-mentioned technical scheme, the second cylinder can drive the baffle motion for interval between two relative baffles changes, so the baffle can carry on spacingly to the steel mesh of different specifications.

Preferably, two penetrating rods penetrating through the mounting plate are fixed on the baffle plate.

Through adopting above-mentioned technical scheme for the baffle only can be followed the extending direction who wears to establish the pole and slided, has improved the stability of baffle in the motion process.

Preferably, the limiting mechanism further comprises an adjusting assembly, the adjusting assembly comprises a frame, a screw rod is rotatably connected to the frame, the mounting plate is in sliding fit with the frame along the axial direction of the conveying roller, and the screw rod is in threaded fit with the mounting plate.

Through adopting above-mentioned technical scheme, rotatory lead screw can adjust the position of mounting panel in the frame, has increased the adjustable range of baffle position to stop gear's suitability has been improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure in the embodiment of the present application;

FIG. 2 is a schematic structural diagram showing a supporting and turning mechanism and a lifting and receiving mechanism in the embodiment of the present application;

fig. 3 is a schematic structural diagram showing a material blocking assembly in the embodiment of the application;

FIG. 4 is a schematic diagram showing the structure of an adjustment assembly in an embodiment of the present application;

fig. 5 is a schematic structural diagram showing a moving component in the embodiment of the present application.

Reference numerals: 1. supporting and overturning the mechanism; 11. a support assembly; 111. a support plate; 112. a drop chamber; 12. a turnover assembly; 121. a pillar; 122. a first cylinder; 123. a rotating plate; 13. a moving assembly; 131. a support; 132. a groove is arranged in a penetrating way; 133. a roller; 134. a rotating shaft; 135. a second motor; 136. a gear; 2. a lifting material receiving mechanism; 21. a material receiving platform; 211. a fixed mount; 212. a conveying roller; 213. a belt; 214. a first motor; 22. a lifting assembly; 221. a third cylinder; 23. a material collecting platform; 3. a limiting mechanism; 31. the material blocking component; 311. mounting a plate; 312. a second cylinder; 313. a baffle plate; 314. a rod is arranged in a penetrating way; 32. an adjustment assembly; 321. a transverse plate; 322. folding the plate; 323. a screw rod; 324. a rocker.

Detailed Description

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

The embodiment of the application discloses automatic material collecting device of steel mesh. As shown in fig. 1, an automatic steel mesh collecting device comprises a supporting and overturning mechanism 1, a lifting and collecting mechanism 2 and a plurality of limiting mechanisms 3, wherein the supporting and overturning mechanism 1 comprises a supporting component 11 and an overturning component 12; the lifting and receiving mechanism 2 comprises a receiving platform 21, a lifting component 22 and a collecting platform 23 which are positioned below the supporting component 11.

The steel mesh conveyed by the conveying table is conveyed to the supporting assembly 11, the overturning assembly 12 drives the supporting assembly 11 to rotate, so that the steel mesh falls onto the material receiving table 21, the lifting assembly 22 drives the material receiving table 21 to ascend, the distance between the material receiving table 21 and the supporting assembly 11 is reduced, and the steel mesh falling onto the material receiving table 21 is not easy to loosen; when more steel nets are stacked on the material receiving table 21, the material receiving table 21 conveys the steel nets to the material collecting table 23, and the limiting mechanism 3 enables the conveyed steel nets to be difficult to deviate; the material receiving table 21 can then continue to receive material, and the worker can perform blanking on the steel mesh on the material collecting table 23.

As shown in fig. 2, the supporting assembly 11 includes two supporting plates 111 disposed at intervals, the steel mesh is placed on the two supporting plates 111, and a dropping cavity 112 is disposed between the two supporting plates 111; the turning assembly 12 includes a plurality of support columns 121, a first cylinder 122 and a rotating plate 123 are rotatably connected to the support columns 121, a piston rod of the first cylinder 122 is rotatably connected to the rotating plate 123, and the rotating plate 123 is rotatably connected to the support plate 111. When the piston rod of the first cylinder 122 extends, the first cylinder 122, the rotating plate 123 and the supporting plate 111 all rotate, so that the steel mesh on the supporting plate 111 falls from the falling cavity 112 to the material receiving platform 21.

As shown in fig. 3, the material receiving platform 21 includes a fixing frame 211, the fixing frame 211 is rotatably connected with a plurality of conveying rollers 212 sequentially arranged along a horizontal direction, and each two adjacent conveying rollers 212 are respectively sleeved with a belt 213; the fixed mount 211 is further fixed with a first motor 214, and an output shaft of the first motor 214 is fixedly connected to one of the conveying rollers 212. When the first motor 214 drives one of the conveying rollers 212 to rotate, the belt 213 drives the other conveying rollers 212 to link, so that the material receiving platform 21 can convey the stacked steel nets to the material collecting platform 23.

As shown in fig. 1, the structure of the material collecting platform 23 is the same as that of the material receiving platform 21, and the fixing frame 211 on the material collecting platform 23 is fixed on the ground; the lifting assembly 22 comprises a plurality of third air cylinders 221 fixed on the ground, and piston rods of the third air cylinders 221 extend in the vertical direction and are fixedly connected to the fixed frame 211 for driving the material receiving table 21 to lift.

As shown in fig. 3, the limiting mechanism 3 includes two sets of material blocking assemblies 31, each material blocking assembly 31 includes a mounting plate 311, a second cylinder 312 is fixed on the mounting plate 311, a piston rod of the second cylinder 312 extends axially along the conveying roller 212 and is fixed with a baffle 313, and a conveying cavity is arranged between the two baffles 313. The second cylinder 312 can drive the baffle 313 to move, so that the distance between two opposite baffles 313 is changed, the baffles 313 can limit steel meshes of different specifications, and the steel meshes can be conveyed to the material collecting platform 23.

As shown in fig. 3, two through rods 314 passing through the mounting plate 311 are fixed on the baffle 313, so that the baffle 313 can only slide along the extending direction of the through rods 314, and the stability of the baffle 313 in the movement process is improved.

As shown in fig. 4, the limiting mechanism 3 further includes an adjusting assembly 32, the adjusting assembly 32 includes a horizontal plate 321, two folding plates 322 disposed in an "L" shape are fixed on the mounting plate 311, the two folding plates 322 are clamped on the horizontal plate 321 and attached to the bottom of the horizontal plate 321, and the mounting plate 311 is attached to the top of the horizontal plate 321, so that the mounting plate 311 can slide on the horizontal plate 321.

As shown in fig. 4, a screw rod 323 is rotatably connected to the frame, the axial direction of the screw rod 323 is the same as the axial direction of the conveying roller 212, the screw rod 323 is screwed to the mounting plate 311, and a rocker 324 is fixed to an end of the screw rod 323. The position of the mounting plate 311 on the frame can be adjusted by rotating the rocker 324, so that the adjustable range of the position of the baffle 313 is enlarged, and the applicability of the limiting mechanism 3 is improved.

As shown in fig. 5, the supporting and overturning mechanism 1 further includes a moving assembly 13, the moving assembly 13 includes a bracket 131 and two sets of rollers 133, the bracket 131 is provided with a through groove 132 for the support post 121 to penetrate through, the rollers 133 are rotatably connected to the bracket 131 through a rotating shaft 134, the axial direction of the rotating shaft 134 is the same as the conveying direction of the steel mesh, one set of rollers 133 abuts against the upper side of the support post 121, and the other set of rollers 133 abuts against the lower side of the support post 121; a second motor 135 is fixed on the bracket 131, an output shaft of the second motor 135 is fixedly connected to one of the rotating shafts 134, gears 136 are fixedly sleeved outside the two rotating shafts 134, and the two gears 136 are meshed with each other.

When the second motor 135 is started, under the action of the gear 136, the two rotating shafts 134 will rotate synchronously and reversely, the roller 133 will rotate synchronously and drive the supporting column 121 to slide in the through groove 132, so that the distance between the two supporting plates 111 is changed, and the supporting plates 111 can be suitable for supporting steel nets of different specifications; when the second motor 135 is turned off, the two sets of rollers 133 are clamped to the supporting column 121, so that the supporting column 121 is not easily slid in the through groove 132, and the stability of the turnover assembly 12 is ensured.

The implementation principle of the automatic receiving device for the steel mesh in the embodiment of the application is as follows: the steel mesh conveyed by the conveying table is conveyed to the two support plates 111, and the piston rod of the first cylinder 122 extends out, so that the first cylinder 122, the rotating plate 123 and the support plates 111 all rotate, and the steel mesh on the support plates 111 falls onto the material receiving table 21 from the falling cavity 112; when the piston rod of the first cylinder 122 extends out, the third cylinder 221 drives the material receiving platform 21 to ascend, so that the distance between the material receiving platform 21 and the supporting plate 111 is reduced, the steel mesh falling onto the material receiving platform 21 is not easy to loosen, and the quality of the steel mesh is ensured.

Then, the first motor 214 drives one of the conveying rollers 212 to rotate, and the belt 213 drives the other conveying rollers 212 to link, so that the material receiving platform 21 can convey the stacked steel nets to the material collecting platform 23; in the conveying process of the steel mesh, the baffle 313 blocks and limits the steel mesh, so that the steel mesh is not easy to deviate; the material receiving table 21 can then continue to receive material, and the worker can perform blanking on the steel mesh on the material collecting table 23.

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 (9)

1. The utility model provides an automatic material collecting device of steel mesh which characterized in that: the steel mesh conveying device comprises a supporting turnover mechanism (1) and a lifting material receiving mechanism (2), wherein the supporting turnover mechanism (1) comprises a supporting assembly (11) used for receiving a steel mesh conveyed by a conveying platform and a turnover assembly (12) used for driving the supporting assembly (11) to turn over so that the steel mesh falls; the lifting material receiving mechanism (2) comprises a material receiving platform (21) positioned below the supporting component (11) and a lifting component (22) used for driving the material receiving platform (21) to lift.

2. The automatic steel mesh receiving device of claim 1, wherein: the supporting assembly (11) comprises two supporting plates (111) which are arranged at intervals, the steel mesh is placed on the two supporting plates (111), and a falling cavity (112) for the steel mesh to fall is formed between the two supporting plates (111).

3. The automatic steel mesh receiving device of claim 2, wherein: the overturning assembly (12) comprises a plurality of supporting columns (121), wherein the supporting columns (121) are connected with first air cylinders (122) and rotating plates (123) in a rotating mode, piston rods of the first air cylinders (122) are connected to the rotating plates (123) in a rotating mode, and the rotating plates (123) are connected to the supporting plate (111) in a rotating mode.

4. The automatic steel mesh receiving device as claimed in claim 3, wherein: the supporting and overturning mechanism (1) further comprises a moving assembly (13), the moving assembly (13) comprises a support (131), and a penetrating groove (132) for the support column (121) to penetrate is formed in the support (131); the bracket (131) is rotatably connected with a roller (133) through a rotating shaft (134), the axial direction of the rotating shaft (134) is the same as the conveying direction of the steel mesh, and the roller (133) is tightly propped against the side wall of the support column (121); a second motor (135) is fixed on the bracket (131), and an output shaft of the second motor (135) is fixedly connected to the rotating shaft (134).

5. The automatic steel mesh receiving device of claim 1, wherein: a material collecting platform (23) is arranged on one side, away from the conveying platform, of the material receiving platform (21), the material receiving platform (21) comprises a fixing frame (211), a plurality of conveying rollers (212) which are sequentially arranged in the horizontal direction are rotatably connected to the fixing frame (211), and a belt (213) is sleeved on each two adjacent conveying rollers (212); the fixed frame (211) is also fixedly provided with a first motor (214), and an output shaft of the first motor (214) is fixedly connected with one conveying roller (212).

6. The automatic steel mesh receiving device according to claim 5, wherein: the steel mesh conveying device is characterized by further comprising a plurality of limiting mechanisms (3), each limiting mechanism (3) comprises two material blocking assemblies (31), and a conveying cavity for conveying a steel mesh is arranged between the two material blocking assemblies (31).

7. The automatic steel mesh receiving device as claimed in claim 6, wherein: keep off material subassembly (31) including locating mounting panel (311) on mount (211), be fixed with second cylinder (312) on mounting panel (311), the piston rod of second cylinder (312) is fixed with baffle (313) along conveying roller (212) axial extension.

8. The automatic steel mesh receiving device of claim 7, wherein: two penetrating rods (314) penetrating through the mounting plate (311) are fixed on the baffle plate (313).

9. The automatic steel mesh receiving device of claim 7, wherein: the limiting mechanism (3) further comprises an adjusting component (32), the adjusting component (32) comprises a rack fixed on the fixing frame (211), a screw rod (323) is connected to the rack in a rotating mode, the mounting plate (311) is matched with the rack in a sliding mode along the axial direction of the conveying roller (212), and the screw rod (323) is matched with the mounting plate (311) in a threaded mode.

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