CN114524266A - Full-automatic heavy tubular product material loading machine - Google Patents

Abstract

The invention discloses a full-automatic heavy pipe feeding machine which comprises a fixed frame, a plurality of stock components arranged on one side of the fixed frame, a plurality of material selecting components arranged on one side of the stock components, and a plurality of feeding components arranged above the material selecting components, wherein the stock components are arranged on the fixed frame; the fixed frame is further provided with an operation console, and the operation console is connected with the storage assembly, the material selecting assembly and the material feeding assembly. The invention has the beneficial effects that the efficiency is obviously improved; the equipment stock house has strong expansibility, single feeding and long-time cutting, and can realize one person and multiple machines for operation; the cost is saved, the air cylinders are adopted to replace a motor, a speed reducer, a connecting rod assembly, a chain wheel, a belt pulley and the like in a large quantity, the complex structure is reduced, the functions are better realized, the cost is saved, and the after-sale cost is lower; the modular design can expand the material storehouse volume fast, but quick adjustment material loading pipe length is to customer's demand on guaranteeing structural strength basis, and the adjustment cylinder size adapts to various heavy tubular product.

Description

Full-automatic heavy tubular product material loading machine

Technical Field

The invention relates to the technical field of pipe feeding, in particular to a full-automatic heavy pipe feeding machine.

Background

With the development of laser technology, the laser pipe cutting machine gradually replaces part of conventional pipe processing modes and occupies a place in the field of industrial processing; aiming at the cutting and processing of the pipe, the automatic feeding requirements of the pipe are increasingly urgent for improving the efficiency and reducing the labor intensity of personnel, so that automatic feeding machines of various types of pipes appear in the market, but most of the automatic feeding machines are only suitable for light pipes, and the research on the automatic feeding of the heavy pipes is less;

in view of the above, there is a need for an improved existing pipe feeder that can accommodate the needs of the present application for heavy pipe feeding.

Disclosure of Invention

Because present tubular product material loading machine can not satisfy our user demand, and it is not good to heavy tubular product result of use, therefore we have designed a full-automatic heavy tubular product material loading machine on the basis of prior art defect, can carry out the material loading to heavy tubular product well, efficient to excellent in use effect.

The technical scheme of the invention is that the full-automatic heavy pipe feeding machine comprises a fixed frame, a plurality of stock components arranged on one side of the fixed frame, a plurality of material selecting components arranged on one side of the stock components, and a plurality of feeding components arranged above the material selecting components; the fixed frame is further provided with an operation console, and the operation console is connected with the storage assembly, the material selecting assembly and the material feeding assembly.

The technical scheme is further supplemented, the stock component comprises a plurality of placing frames, a connecting plate arranged above the placing frames, a stock base arranged above the connecting plate, a roller support arranged above the stock base, and a first roller structure arranged above the roller support; the connecting plate is fixedly connected with the placing frames, the material warehouse base is installed in the middle position above the connecting plate, the roller wheel support is fixedly installed on the material warehouse base, and the first roller wheel structure is connected with the roller wheel support through a pin shaft.

Further supplementing the technical scheme, a height adjusting mechanism is further installed below the base of the material warehouse.

Supplementing the technical scheme further, the height adjusting mechanism comprises a first cylinder, a first cylinder bracket fixedly connected with the first cylinder, a piston connected with the first cylinder, and a Y-shaped joint fixedly connected with the piston; the first air cylinder support is fixedly connected with the placing frame, and the Y-shaped joint is fixedly connected with the lower end of the material warehouse base.

The technical scheme is further supplemented, the material selecting assembly comprises a supporting transmission assembly, a material selecting bracket arranged above the supporting transmission assembly, a second roller structure arranged above the material selecting bracket, a material pushing assembly arranged on one side of the material selecting bracket, a material supporting roller device arranged on one side of the material selecting bracket, and a material pushing device arranged on one side of the material selecting bracket; the supporting transmission assembly, the material pushing assembly, the material supporting roller device and the material pushing device are driven by cylinders.

The technical scheme is further supplemented, the supporting transmission assembly is driven by a plurality of cylinders, the pushing assembly comprises a second cylinder, a second cylinder support connected with the second cylinder and a pushing plate connected with the second cylinder, the second cylinder support is fixedly mounted on the material selecting support, the second cylinder and the material selecting support are arranged in parallel, the pushing plate is vertically arranged, and the pushing plate is trapezoidal.

To the further supplement of this technical scheme, hold in the palm material gyro wheel device and set up in the side end that the storehouse material subassembly was kept away from to the material selection support, hold in the palm material gyro wheel device and include third cylinder support, set up third cylinder on third cylinder support, set up in the fixed bolster of third cylinder top, set up the material supporting wheel on the fixed bolster, third cylinder support fixed mounting is on the material selection support, the third cylinder is vertical setting, third cylinder fixed mounting is on third cylinder support, the fixed bolster is connected with material supporting wheel pin shaft.

To the further supplement of this technical scheme, blevile of push sets up in the material selecting support be close to with storehouse material subassembly one side, blevile of push includes fourth cylinder support, sets up fourth cylinder on fourth cylinder support, sets up movable plate on the fourth cylinder, sets up in the L template of movable plate top, sets up the push pedal in L template top, one side that fourth cylinder support is close to the material selecting support still transversely is equipped with the removal slider, the position department that lies in the removal slider on the material selecting support still is equipped with the lateral shifting slide rail, remove slider slidable mounting on the lateral shifting slide rail, L template slidable mounting is on fourth cylinder support, movable plate and L template fixed connection, push pedal fixed mounting is in L template top.

To the further supplement of this technical scheme, the pay-off subassembly includes a plurality of jack catch subassemblies, still install X axle removal subassembly, Y axle removal subassembly, Z axle removal subassembly on the jack catch subassembly, Y axle removal subassembly is installed on fixed frame, X axle removal subassembly sets up on Y axle removal subassembly, Z axle removal subassembly is installed on X axle removal subassembly, the jack catch subassembly sets up on Z axle removal subassembly.

To the further supplement of this technical scheme, the jack catch subassembly includes that the removal rail, fixed mounting are in the lower jack catch on removing the rail, set up last jack catch on removing the rail, with the jack catch drive assembly that the jack catch is connected.

The method has the beneficial effects that 1, the efficiency is obviously improved; the equipment material warehouse has strong expansibility, single feeding and long-time cutting, and can realize one person for multiple machines to operate; 2. the cost is saved, the air cylinders are adopted to replace a motor, a speed reducer, a connecting rod assembly, a chain wheel, a belt pulley and the like in a large quantity, the complex structure is reduced, the functions are better realized, the cost is saved, and the after-sale cost is lower; 3. the modular design can expand the material storehouse volume fast, but quick adjustment material loading pipe length is to customer's demand on guaranteeing structural strength basis, and the adjustment cylinder size adapts to various heavy tubular product.

Drawings

FIG. 1 is a schematic view of a first angled overall configuration of the present invention;

FIG. 2 is a second angle overall structure schematic of the present invention;

in the figure, 1, a fixed frame; 2. a stock component; 21. placing a rack; 22. a connecting plate; 23. a stock house base; 24. a roller bracket; 25. a first roller structure; 26. a height adjustment mechanism; 261. a first cylinder; 262. a first cylinder mount; 263. a Y-shaped joint; 3. selecting a material component; 31. supporting the transmission assembly; 32. selecting a material bracket; 33. a second roller structure; 34. a material pushing assembly; 341. a second cylinder; 342. a second cylinder holder; 343. a material pushing plate; 35. a material supporting roller device; 351. a third cylinder support; 352. a third cylinder; 353. fixing a bracket; 354. a material supporting wheel; 36. a material pushing device; 361. a fourth cylinder frame; 362. a fourth cylinder; 363. moving the plate; 364. an L-shaped plate; 365. pushing the plate; 366. moving the slide block; 367. transversely moving the slide rail; 4. a feeding assembly; 41. an X-axis moving assembly; 42. a Y-axis moving assembly; 43. a Z-axis moving assembly; 44. a jaw assembly; 441. a moving rail; 442. a lower jaw; 443. an upper jaw; 444. a jaw drive assembly; 5. the console is operated.

Detailed Description

Because present tubular product material loading machine can not satisfy our user demand, and it is not good to heavy tubular product result of use, therefore we have designed a full-automatic heavy tubular product material loading machine on the basis of prior art defect, can carry out the material loading to heavy tubular product well, efficient to excellent in use effect.

In order to make the technical solution more clear to those skilled in the art, the technical solution of the present invention will be described in detail below with reference to the accompanying drawings 1-2:

the technical scheme of the invention is that the full-automatic heavy pipe feeding machine comprises a fixed frame 1, a plurality of stock components 2 arranged on one side of the fixed frame 1, a plurality of material selecting components 3 arranged on one side of the stock components 2, and a plurality of feeding components 4 arranged above the material selecting components 3; the fixed frame 1 is also provided with an operation console 5, the operation console 5 is connected with the stock component 2, the material selecting component 3 and the feeding component 4, and the operation console 5 can control the work of the stock component 2, the material selecting component 3 and the feeding component 4; the structures of the stock component 2, the material selecting component 3 and the material feeding component 4 are explained in detail as follows:

firstly, a stock component 2 comprises a plurality of placing frames 21, a connecting plate 22 arranged above the placing frames 21, a stock base 23 arranged above the connecting plate 22, a roller bracket 24 arranged above the stock base 23, and a first roller structure 25 arranged above the roller bracket 24; the connecting plate 22 is fixedly connected with the plurality of placing frames 21, the material warehouse base 23 is installed in the middle position above the connecting plate 22, the roller support 24 is fixedly installed on the material warehouse base 23, the first roller structure 25 is in pin connection with the roller support 24, preferably, a height adjusting mechanism 26 is further installed below the material warehouse base 23, and the height adjusting mechanism 26 can control the material warehouse base 23 to be lifted, so that a workpiece on the material warehouse base can be conveniently unloaded, wherein the height adjusting mechanism 26 comprises a first air cylinder 261, a first air cylinder 261 support fixedly connected with the first air cylinder 261, a piston connected with the first air cylinder 261, and a Y-shaped joint 263 fixedly connected with the piston; first cylinder 261 support and rack 21 fixed connection, the Y type connects 263 and the lower extreme fixed connection of feed bin base 23, and first cylinder 261 can control the piston and reciprocate to can drive the Y type and connect 263 and reciprocate, and then can drive feed bin base 23 towards the slope of selecting materials subassembly 3, thereby conveniently unload.

The material selecting component 3 comprises a supporting transmission component 31, a material selecting bracket 32 arranged above the supporting transmission component 31, a second roller structure 33 arranged above the material selecting bracket 32, a material pushing component 34 arranged on one side of the material selecting bracket 32, a material supporting roller device 35 arranged on one side of the material selecting bracket 32, and a material pushing device 36 arranged on one side of the material selecting bracket 32; the supporting transmission assembly 31, the pushing assembly 34, the material supporting roller device 35 and the pushing device 36 are all driven by cylinders, the supporting transmission assembly 31 is driven by a plurality of cylinders, the pushing assembly 34 comprises a second cylinder 341, a second cylinder 341 support connected with the second cylinder 341 and a pushing plate 343 connected with the second cylinder 341, the second cylinder 341 support is fixedly mounted on the material selecting support 32, the second cylinder 341 and the material selecting support 32 are arranged in parallel, the pushing plate 343 is vertically arranged, and the pushing plate 343 is trapezoidal; the material supporting roller device 35 is arranged at one side end part of the material selecting bracket 32 far away from the stock component 2, the material supporting roller device 35 comprises a third air cylinder 352 bracket 351, a third air cylinder 352 arranged on the third air cylinder 352 bracket 351, a fixed bracket 353 arranged above the third air cylinder 352 and a material supporting wheel 354 arranged on the fixed bracket 353, the third air cylinder 352 bracket 351 is fixedly arranged on the material selecting bracket 32, the third air cylinder 352 is vertically arranged, the third air cylinder 352 is fixedly arranged on the third air cylinder 352 bracket 351, the fixed bracket 353 is in pin connection with the material supporting wheel 354, the material pushing device 36 is arranged at one side, close to the stock component 2, of the material selecting bracket 32, the material pushing device 36 comprises a fourth air cylinder 362 bracket 361, a fourth air cylinder 362 arranged on the fourth air cylinder 362 bracket 361, a moving plate 363 arranged on the fourth air cylinder 362, and an L-shaped plate 364 arranged above the moving plate 363, The material selecting device comprises a push plate 365 arranged above an L-shaped plate 364, a movable sliding block 366 is further transversely arranged on one side, close to a material selecting bracket 32, of a fourth cylinder 362 bracket 361, a transverse movable sliding rail 367 is further arranged at the position, located on the movable sliding block 366, of the material selecting bracket 32, the movable sliding block 366 is slidably mounted on the transverse movable sliding rail 367, the L-shaped plate 364 is slidably mounted on the fourth cylinder 362 bracket 361, the movable plate 363 is fixedly connected with the L-shaped plate 364, and the push plate 365 is fixedly mounted above the L-shaped plate 364.

And finally, the feeding assembly 4 comprises a plurality of jaw assemblies 44, an X-axis moving assembly, a Y-axis moving assembly 42 and a Z-axis moving assembly 43 are further mounted on the jaw assemblies 44, the Y-axis moving assembly 42 is mounted on the fixed frame 1, the X-axis moving assembly is arranged on the Y-axis moving assembly 42, the Z-axis moving assembly 43 is mounted on the X-axis moving assembly, the jaw assemblies 44 are arranged on the Z-axis moving assembly 43, and finally, the jaw assemblies 44 comprise moving rails 441, lower jaws 442 fixedly mounted on the moving rails 441, upper jaws 443 arranged on the moving rails 441 and jaw driving assemblies 444 connected with the upper jaws 443, and the jaw driving assemblies 444 can control the upper jaws 443 to move longitudinally, so that workpieces can be clamped conveniently.

The following system illustrates the overall working principle of the present invention: firstly, heavy pipes are placed on the stock component 2, the first roller structure 25 can enable the pipes to move well, the height adjusting mechanism 26 can control the stock base 23 to be lifted, so that the pipes on the height adjusting mechanism are unloaded and moved onto the material selecting component 3, the supporting transmission component 31 can drive the pipes to move, the material pushing component 34 can move the heavy pipes along the direction of the material selecting support 32, the material supporting roller device 35 can control the pipes to move along the direction of the rollers, the material pushing device 36 can transversely position the pipes, the feeding component 4 can convey machined parts to a needed place from the material selecting component 3, and people can use the pipe conveniently.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (10)

1. The full-automatic heavy pipe feeding machine is characterized by comprising a fixed frame (1), a plurality of stock components (2) arranged on one side of the fixed frame (1), a plurality of material selecting components (3) arranged on one side of the stock components (2), and a plurality of feeding components (4) arranged above the material selecting components (3); still be equipped with operation control panel (5) on fixed frame (1), operation control panel (5) are connected with storehouse material subassembly (2), selection material subassembly (3), pay-off subassembly (4).

2. The full-automatic heavy pipe feeder according to claim 1, wherein the stock assembly (2) comprises a plurality of placing frames (21), a connecting plate (22) arranged above the placing frames (21), a stock base (23) arranged above the connecting plate (22), a roller bracket (24) arranged above the stock base (23), and a first roller structure (25) arranged above the roller bracket (24); the material warehouse is characterized in that the connecting plate (22) is fixedly connected with the plurality of placing frames (21), the material warehouse base (23) is installed in the middle position above the connecting plate (22), the roller wheel support (24) is fixedly installed on the material warehouse base (23), and the first roller wheel structure (25) is connected with the roller wheel support (24) through a pin shaft.

3. The fully automatic heavy pipe feeder according to claim 2, characterized in that a height adjusting mechanism (26) is further installed below the magazine base (23).

4. The fully automatic heavy pipe feeder according to claim 3, wherein the height adjusting mechanism (26) comprises a first cylinder (261), a first cylinder (261) bracket fixedly connected with the first cylinder (261), a piston connected with the first cylinder (261), and a Y-shaped joint (263) fixedly connected with the piston; first cylinder (261) support and rack (21) fixed connection, Y type connects (263) and the lower extreme fixed connection of feed bin base (23).

5. The full-automatic heavy pipe feeder according to claim 4, wherein the material selecting assembly (3) comprises a supporting transmission assembly (31), a material selecting bracket (32) arranged above the supporting transmission assembly (31), a second roller structure (33) arranged above the material selecting bracket (32), a material pushing assembly (34) arranged on one side of the material selecting bracket (32), a material supporting roller device (35) arranged on one side of the material selecting bracket (32), and a material pushing device (36) arranged on one side of the material selecting bracket (32); the supporting transmission assembly (31), the pushing assembly (34), the material supporting roller device (35) and the pushing device (36) are driven by cylinders.

6. The full-automatic heavy pipe feeder according to claim 5, wherein the supporting transmission assembly (31) is driven by a plurality of cylinders, the pushing assembly (34) comprises a second cylinder (341), a second cylinder (341) bracket connected with the second cylinder (341), and a pushing plate (343) connected with the second cylinder (341), the second cylinder (341) bracket is fixedly mounted on the material selecting bracket (32), the second cylinder (341) and the material selecting bracket (32) are arranged in parallel, the pushing plate (343) is vertically arranged, and the pushing plate (343) is trapezoidal.

7. The full-automatic heavy pipe feeder according to claim 6, wherein the material supporting roller device (35) is arranged at one side end of the material selecting support (32) far away from the stock component (2), the material supporting roller device (35) comprises a third cylinder (352) support (351), a third cylinder (352) arranged on the third cylinder (352) support (351), a fixing support (353) arranged above the third cylinder (352), and a material supporting wheel (354) arranged on the fixing support (353), the third cylinder (352) support (351) is fixedly arranged on the material selecting support (32), the third cylinder (352) is vertically arranged, the third cylinder (352) is fixedly arranged on the third cylinder (352) support (351), and the fixing support (353) is in pin connection with the material supporting wheel (354).

8. The full-automatic heavy-duty pipe feeder according to claim 7, wherein a material pushing device (36) is arranged on one side of the material selecting bracket (32) close to the stock component (2), the material pushing device (36) comprises a fourth cylinder (362) bracket (361), a fourth cylinder (362) arranged on the fourth cylinder (362) bracket (361), a moving plate (363) arranged on the fourth cylinder (362), an L-shaped plate (364) arranged above the moving plate (363), and a push plate (365) arranged above the L-shaped plate (364), a moving slide block (366) is further transversely arranged on one side of the fourth cylinder (362) bracket (361) close to the material selecting bracket (32), a transverse moving slide rail (367) is further arranged on the material selecting bracket (32) at the position of the moving slide block (366), and the moving slide block (366) is slidably mounted on the transverse moving slide rail (367), the L-shaped plate (364) is slidably mounted on a bracket (361) of a fourth air cylinder (362), the moving plate (363) is fixedly connected with the L-shaped plate (364), and the push plate (365) is fixedly mounted above the L-shaped plate (364).

9. The full-automatic heavy pipe feeder according to claim 8, wherein the feeding assembly (4) comprises a plurality of jaw assemblies (44), the jaw assemblies (44) are further provided with an X-axis moving assembly, a Y-axis moving assembly (42) and a Z-axis moving assembly (43), the Y-axis moving assembly (42) is arranged on the fixed frame (1), the X-axis moving assembly is arranged on the Y-axis moving assembly (42), the Z-axis moving assembly (43) is arranged on the X-axis moving assembly, and the jaw assemblies (44) are arranged on the Z-axis moving assembly (43).

10. The fully automatic heavy pipe feeder according to claim 9, wherein the jaw assembly (44) comprises a moving rail (441), a lower jaw (442) fixedly mounted on the moving rail (441), an upper jaw (443) disposed on the moving rail (441), and a jaw driving assembly (444) connected with the upper jaw (443).

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