CN218478075U - Square tube blanking device - Google Patents

Abstract

The utility model relates to a square pipe unloader relates to square pipe production facility technical field, and it includes the mounting bracket, the both sides that the mounting bracket is relative are provided with the conveying chain respectively, the conveying chain is connected with drive assembly, the direction of movement perpendicular to side's pipe's of conveying chain length direction, the tip that the mounting bracket is close to the conveying chain be provided with be used for to the material loading subassembly of conveying chain conveyer side's pipe, the material loading subassembly including be used for accepting and to the material loading pole of propelling movement side's pipe on the conveying chain. The method and the device have the effect of reducing the occupancy rate of the production field.

Description

Square tube blanking device

Technical Field

The application relates to the technical field of square tube production equipment, in particular to a square tube blanking device.

Background

With the continuous development of society, square pipe is widely used in people's production life, because its production efficiency is high, advantage such as with low costs, the production mode of square pipe obtains rapid development, in square pipe production process, needs constantly to convey square pipe, and in the correlation technique, square pipe's conveying mode adopts the conveyer belt more, nevertheless because need experience more steps in square pipe's production process, only relies on the conveyer belt to convey square pipe and needs occupy great production place.

SUMMERY OF THE UTILITY MODEL

In order to reduce production site occupancy, the application provides a square tube unloader.

The application provides a square pipe unloader adopts following technical scheme:

the utility model provides a square tube unloader, includes the mounting bracket, the both sides that the mounting bracket is relative are provided with the conveying chain respectively, the conveying chain is connected with drive assembly, the direction of movement perpendicular to side's of conveying chain length direction, the tip that the mounting bracket is close to the conveying chain be provided with be used for to the material loading subassembly of conveying chain square tube, the material loading subassembly including be used for accepting and to the material loading pole of propelling movement side's tube on the conveying chain.

Through adopting above-mentioned technical scheme, when square pipe from last process conveying to the material loading subassembly on, the lateral wall butt of material loading pole and square pipe, thereby the direction of delivery of material loading subassembly through changing square pipe conveys square pipe to the conveying chain on, the conveying chain conveys next process with square pipe under drive assembly's drive, through the direction of delivery that changes square pipe, it is more nimble when the conveying to make square pipe, thereby reduce the occupancy to the production place.

Optionally, the feeding assembly further comprises a support fixed on the ground, a support seat is fixedly connected to the support, and a hydraulic cylinder is hinged between one end, away from the conveying chain, of the feeding rod and the support.

Through adopting above-mentioned technical scheme, when square pipe from the last process conveyed the material loading subassembly, square pipe and material loading pole looks butt started the pneumatic cylinder, and the piston downstream of pneumatic cylinder for the connecting rod downstream, thereby make the material loading pole towards the direction rotation of keeping away from the supporting seat, thereby with square pipe propelling movement to the conveying chain on.

Optionally, drive assembly set up in the mounting bracket is kept away from the one end of material loading subassembly, drive assembly includes driving motor, install the connecting gear on the driving motor output shaft, the tip of mounting bracket is rotated and is connected with drive gear, conveying chain and drive gear meshing, two be connected with the dwang between the drive gear, be fixed with drive gear on the dwang, be connected with drive chain between drive gear and the connecting gear.

Through adopting above-mentioned technical scheme, when starting driving motor, driving motor drives and connects gear revolve, connects gear drive chain to remove, and drive chain drives drive gear and rotates to make the dwang rotate, the dwang rotates and drives drive gear and rotate, thereby drives two conveying chain and removes, thereby manage and convey one process next with square, increased the utilization ratio of energy, reduced the energy waste.

Optionally, one end of the mounting frame, which is far away from the feeding assembly, is provided with a flow guide assembly for guiding the square pipe to be transported to the next procedure.

Through adopting above-mentioned technical scheme, when the conveying chain conveys square pipe, when square pipe was close to the water conservancy diversion subassembly, the water conservancy diversion subassembly can play certain water conservancy diversion effect to other side's pipe, reduces the damage that square pipe received in the data send process.

Optionally, the water conservancy diversion subassembly includes that two are fixed in fixed plate on the mounting bracket, two rotate between the fixed plate and be connected with a grade pole, the one end of a grade pole is passed fixed plate and fixedly connected with induction motor, induction motor's output shaft with the axis coincidence of a grade pole, the rigid coupling has the water conservancy diversion frame that is the U type on the grade pole, just the U type opening orientation of water conservancy diversion frame a grade pole.

Through adopting above-mentioned technical scheme, when square pipe removed shelves pole department, start induction motor, induction motor drives a shelves pole and rotates to make water conservancy diversion frame rotate, when the one end that shelves pole was kept away from to the water conservancy diversion frame and ground butt, square pipe slided one process next along the water conservancy diversion frame, thereby reduced the damage that square pipe received in the data send process.

Optionally, a sensor is disposed on one side of each of the two fixing plates away from the ground.

Through adopting above-mentioned technical scheme, when the side pipe removed shelves pole department, square pipe and sensor butt, the sensor is to induction motor signals, thereby make induction motor rotate, induction motor drives the shelves pole rotatory, thereby square pipe slides along the water conservancy diversion frame, when square pipe leaves the water conservancy diversion frame completely, the sensor signals once more, make induction motor antiport, thereby rotate the direction that the water conservancy diversion frame is close to shelves pole towards, when the plane is perpendicular and the mounting bracket place plane, induction motor stall, manual operation has been reduced, reduce manpower consumption.

Optionally, one end of the feeding rod, which is far away from the supporting seat, is fixedly connected with a feeding plate, and the feeding plate is a rubber plate.

Through adopting above-mentioned technical scheme, when square pipe from last process conveyed the material loading subassembly, material loading board and square pipe butt, at the in-process with square pipe propelling movement to conveying chain, material loading board can make square pipe can by better propelling movement to conveying chain on, reduce the gliding condition of square pipe at the propelling movement in-process.

Optionally, baffles are arranged on two sides of the mounting frame along the moving direction of the conveying chain.

Through adopting above-mentioned technical scheme, when square pipe moved on the conveying chain, the baffle can play certain spacing effect to the square pipe, reduces the possibility that square pipe dropped from the conveying chain.

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

1. when the square pipe is conveyed to the feeding assembly from the previous process, the feeding rod is abutted against the outer side wall of the square pipe, the feeding assembly conveys the square pipe to the conveying chain by changing the conveying direction of the square pipe, the conveying chain conveys the square pipe to the next process under the driving of the driving assembly, and the conveying direction of the square pipe is changed, so that the square pipe is more flexible in conveying, and the occupancy rate of a production field is reduced;

2. when the square pipe moves to the position of the blocking rod, the induction motor is started, the induction motor drives the blocking rod to rotate, so that the flow guide frame rotates, and when one end of the flow guide frame, which is far away from the blocking rod, is abutted against the ground, the square pipe slides to the next procedure along the flow guide frame, so that the damage to the square pipe in the conveying process is reduced;

3. when square pipe removes shelves pole department, square pipe and sensor butt, the sensor is to induction motor signals, thereby make induction motor rotate, induction motor drives the shelves pole rotatory, thereby square pipe slides along the water conservancy diversion frame, when square pipe leaves the water conservancy diversion frame completely, the sensor signals once more, make induction motor antiport, thereby rotate the direction that the water conservancy diversion frame is close to the shelves pole towards, when the plane is perpendicular and the mounting bracket place plane in the water conservancy diversion frame place, induction motor stall has reduced manual operation, reduce the human consumption.

Drawings

Fig. 1 is a schematic view of the overall structure of a blanking device in the embodiment of the present application.

Fig. 2 is a schematic partial structure diagram of a drive motor in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a flow guide assembly embodied in an embodiment of the present application.

Description of reference numerals: 1. a mounting frame; 11. a support bar; 12. a drive gear; 13. a conveying chain; 2. rotating the rod; 3. a transmission gear; 4. a drive chain; 5. a connecting gear; 6. a drive motor; 7. a feeding assembly; 71. a feeding rod; 72. feeding plates; 73. a supporting base; 74. a support frame; 75. a connecting rod; 76. a hydraulic cylinder; 8. a flow guide assembly; 81. a fixing plate; 82. a sensor; 83. a gear lever; 84. an induction motor; 85. a flow guiding frame; 9. and a baffle plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a square pipe blanking device, refer to fig. 1 and 2, mounting bracket 1 including the rectangle, one side fixedly connected with four bracing pieces 11 that are close to ground at mounting bracket 1, bracing piece 11 is located four edges of mounting bracket 1, equal fixedly connected with drive gear 12 at four endpoints of mounting bracket 1, the axis of drive gear 12 and bracing piece 11 mutually perpendicular, meshing has transfer chain 13 between two drive gears 12 that are located square pipe direction of transfer homonymy, fixedly connected with dwang 2 between two drive gears 12 that are located square pipe direction of transfer both sides, dwang 2 is provided with one, and the axis of dwang 2 and the axis coincidence of these two drive gears 12, and the length direction of dwang 2 and the direction of movement of transfer chain 13 mutually perpendicular, the both ends of dwang 2 rotate and connect the both sides at mounting bracket 1, end fixedly connected with one drive gear 3 at one of dwang 2, meshing is connected with drive chain 4 on drive gear 3, the one end meshing of drive chain 4 keeping away from drive gear 3 is connected with connecting gear 5, connecting gear 5 is connected with driving motor 6 on connecting gear 5, driving motor 6 installs on the crossbeam between two bracing pieces 11, the axis coincidence of connecting gear 5 and the output shaft of driving motor 6, one side of keeping away from mounting bracket 1 and being provided with the square pipe subassembly of propelling movement of push away from chain 13 on the side pipe subassembly.

When square pipe conveys material loading subassembly 7 from one last process, material loading subassembly 7 through the direction of transfer that changes square pipe and square pipe propelling movement to transfer chain 13 on, start driving motor 6 afterwards, driving motor 6 drives connecting gear 5 and rotates, connecting gear 5 rotates and drives drive gear 3 through drive chain 4 and rotate, drive gear 3 rotates and makes dwang 2 rotate, thereby dwang 2 rotates and makes the drive gear 12 of fixed connection on dwang 2 rotate, thereby make transfer chain 13 remove, transfer chain 13 conveys the square pipe of material loading subassembly 7 propelling movement at the removal in-process, thereby realize the transportation of square pipe.

Referring to fig. 1, the feeding assembly 7 includes two feeding rods 71 arranged on two sides of the mounting frame 1, a feeding plate 72 of one end of each feeding rod 71 and fixedly connected with a rectangle is provided, the feeding plate 72 is a rubber plate, one end of each feeding rod 71 away from the feeding plate 72 is hinged to a supporting seat 73, one end of each supporting seat 73 away from the feeding rod 71 is fixedly connected with a supporting frame 74, the supporting frames 74 are fixed on the ground, a connecting rod 75 is fixedly connected between the two feeding rods 71, the connecting rod 75 is located at one end of each feeding rod 71 away from the feeding plate 72, a hydraulic cylinder 76 is hinged to the connecting rod 75, a piston end of the hydraulic cylinder 76 is hinged to the connecting rod 75, and one end of each hydraulic cylinder 76 away from the connecting rod 75 is hinged to the supporting frame 74.

When the square pipe is pushed to the feeding assembly 7 from the previous process, the outer side wall of the square pipe is abutted to the feeding plate 72 on the feeding rod 71, the hydraulic cylinder 76 is started, the piston of the hydraulic cylinder 76 moves downwards, the connecting rod 75 is driven to move towards the direction close to the hydraulic cylinder 76, the connecting rod 75 moves to enable the feeding rod 71 to rotate towards the direction far away from the supporting seat 73, the square pipe is pushed to the conveying chain 13, finally, the square pipe is pushed to the next process on the conveying chain 13, the feeding assembly 7 saves the production floor area by changing the conveying direction of the square pipe, and the flexibility of the device is improved.

Referring to fig. 1 and 3, a flow guiding assembly 8 is disposed on one side of the mounting rack 1 close to the rotating rod 2, the flow guiding assembly 8 includes two fixing plates 81 fixedly connected to one side of the mounting rack 1 close to the rotating rod 2, one side of the two fixing plates 81 away from the ground is fixedly connected with a sensor 82, the length direction of the fixing plates 81 is perpendicular to the rotating rod 2, the rotating rod 2 is inserted into the fixing plates 81 and is rotatably connected with a stop rod 83 between the two fixing plates 81, the stop rod 83 is located on one side of the rotating rod 2 away from the mounting rack 1, one end of the stop rod 83 penetrates through one of the fixing plates 81 and is fixedly connected with an induction motor 84, an output shaft of the induction motor 84 coincides with an axis of the stop rod 83, a U-shaped flow guiding rack 85 is fixedly connected to the mounting rack, and a U-shaped opening of the flow guiding rack 85 faces the stop rod 83.

When the square pipe conveys the position of shelves pole 83 from conveying chain 13, square pipe and sensor 82 butt, sensor 82 signals, make induction motor 84 start, induction motor 84 drives shelves pole 83 and rotates, thereby make water conservancy diversion frame 85 rotatory towards the direction of keeping away from mounting bracket 1, square pipe is along with water conservancy diversion frame 85 lapse, when square pipe leaves water conservancy diversion frame 85 completely, sensor 82 signals again, make induction motor 84 reverse rotation, thereby rotate water conservancy diversion frame 85 towards the direction of being close to mounting bracket 1, when the perpendicular mounting bracket 1 of water conservancy diversion frame 85, induction motor 84 stall, water conservancy diversion frame 85 can be better with square pipe conveying in next process, reduce the damage of square pipe in data send process.

Referring to fig. 1, at equal fixed connection baffle 9 in mounting bracket 1 both sides, and baffle 9 place plane and mounting bracket 1 place plane mutually perpendicular, when square pipe conveys on conveying chain 13, baffle 9 can play certain effect that blocks to the other side pipe, reduces the possibility that square pipe dropped on conveying chain 13, increases square pipe transportation process's stability.

The implementation principle of the square tube blanking device in the embodiment of the application is as follows: when a square pipe is conveyed to the feeding assembly 7 from the previous process, the feeding plate 72 is abutted to the outer side wall of the square pipe, then the hydraulic cylinder 76 is started, the piston of the hydraulic cylinder 76 moves downwards, so that the connecting rod 75 is driven to move downwards, the feeding rod 71 drives the feeding plate 72 to rotate towards the direction far away from the supporting seat 73, so that the conveying direction of the square pipe is changed, the square pipe is conveyed to the conveying chain 13, then the driving motor 6 is started, the driving gear 5 is driven to rotate by the driving motor 6, so that the driving chain 4 moves, the driving gear 3 is driven to rotate by the driving chain 4, the rotating rod 2 rotates, the driving gear 12 is driven to rotate so that the conveying chain 13 moves, and the square pipe is conveyed, when the square pipe is conveyed to the position close to the blocking rod 83, the square pipe is abutted to the sensor 82, the sensor 82 transmits a signal to enable the induction motor 84 to be started, so that the square pipe slides to the next process along the diversion frame 85, when the square pipe is completely separated from the diversion frame 85, the sensor 82 transmits a signal to the induction motor 84, so that the induction motor 84 reversely rotates, and the diversion frame 85 rotates towards the direction close to the 1.

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. The utility model provides a square pipe unloader which characterized in that: including mounting bracket (1), mounting bracket (1) relative both sides are provided with conveying chain (13) respectively, conveying chain (13) are connected with drive assembly, the direction of movement of conveying chain (13) perpendicular to square tube's length direction, mounting bracket (1) be close to conveying chain (13) tip be provided with be used for to conveying chain (13) conveyer square tube's material loading subassembly (7), material loading subassembly (7) including be used for accepting and to conveying chain (13) goes up material loading pole (71) of propelling movement square tube.

2. The square tube blanking device according to claim 1, wherein: the feeding assembly (7) further comprises a support frame fixed on the ground, a support seat (73) is fixedly connected onto the support frame, and a hydraulic cylinder (76) is hinged between one end, far away from the conveying chain (13), of the feeding rod (71) and the support frame.

3. The square tube blanking device according to claim 1 or 2, wherein: drive assembly set up in mounting bracket (1) is kept away from the one end of material loading subassembly (7), drive assembly includes driving motor (6), install connecting gear (5) on driving motor (6) output shaft, the tip of mounting bracket (1) is rotated and is connected with drive gear (12), conveying chain (13) and drive gear (12) meshing, two be connected with dwang (2) between drive gear (12), be fixed with drive gear (3) on dwang (2), be connected with drive chain (4) between drive gear (3) and connecting gear (5).

4. The square tube blanking device according to claim 1 or 2, wherein: one end, far away from the feeding assembly (7), of the mounting frame (1) is provided with a flow guide assembly (8) used for guiding the square pipe to be transported to the next procedure.

5. The square tube blanking device according to claim 4, wherein: flow guide assembly (8) are fixed in including two fixed plate (81), two on mounting bracket (1) rotate between fixed plate (81) and be connected with a grade pole (83), the one end of a grade pole (83) is passed fixed plate (81) and fixedly connected with induction motor (84), the output shaft of induction motor (84) with the axis coincidence of a grade pole (83), the rigid coupling has water conservancy diversion frame (85) that is the U type on a grade pole (83), just the U type opening orientation of water conservancy diversion frame (85) a grade pole (83).

6. The square tube blanking device according to claim 5, wherein: and sensors (82) are arranged on one sides of the two fixing plates (81) far away from the ground.

7. The square tube blanking device according to claim 2, wherein: one end of the feeding rod (71) far away from the supporting seat (73) is fixedly connected with a feeding plate (72), and the feeding plate (72) is a rubber plate.

8. The square tube blanking device according to claim 1, wherein: baffle plates (9) are arranged on two sides of the mounting rack (1) along the moving direction of the conveying chain (13).

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