CN212070222U - Supplementary unloader of continuous hem device - Google Patents

Abstract

The utility model discloses a supplementary unloader of continuous hem device relates to the technical field of aluminum plate hem, and it is including accepting the frame and collecting the frame, it has the horizontally board of accepting to rotate on the accepting frame, accept the board and contradict with the play work or material rest, it has the rotor plate to rotate on the collection frame, be fixed with the baffle on the rotor plate, the subaerial driving piece that is provided with, the driving piece is used for driving the rotation of rotor plate. When the aluminum plate conveying device is used, the aluminum plate conveying device is used for conveying aluminum plates to the receiving plate, the receiving plate is horizontally arranged, the rotating plate is abutted to the ground, the aluminum plate conveying device is driven to receive rotation of the receiving plate, the receiving plate is parallel to and abutted to the rotating plate, the aluminum plate slides to the rotating plate from the receiving plate, then the driving piece is started, the driving piece drives the rotating plate to rotate, and therefore the rotating plate is in a vertical state, and the aluminum plate is vertically arranged on the collecting frame. Because do not need the manual work to move aluminum plate to collect on the frame, consequently improved aluminum plate machining efficiency.

Description

Supplementary unloader of continuous hem device

Technical Field

The utility model belongs to the technical field of the technique of aluminum plate hem and specifically relates to a supplementary unloader of continuous hem device is related to.

Background

At present, when a door is machined and produced, a flanging device is generally needed to be used for flanging an aluminum plate.

As shown in fig. 1, the prior art discloses a continuous edge folding device, which comprises a feeding frame 500, a conveying frame 510 and a discharging frame 200, which are arranged in a straight line. The feeding frame 500, the transmission frame 510 and the discharging frame 200 are all provided with a horizontal rotating roller 520 in a rotating mode, one end of the transmission frame 510 in the width direction is fixed with an installation table 530, a lower pressing roller 540 is arranged on the installation table 530 in a rotating mode, the lower pressing roller 540 is arranged along the length direction of the transmission frame 510, one end, close to the installation table 530, of the lower pressing roller 540 is coaxially fixed with a pressing disc 560, and the diameter of the pressing disc 560 is larger than that of the lower pressing roller 540. An upper pressing roll 550 is rotated on the mounting table 530, the upper pressing roll 550 is disposed along the length direction of the transfer frame 510, the upper pressing roll 550 is disposed above the lower pressing roll 540, and the gap between the upper pressing roll and the lower pressing roll allows the aluminum sheet to pass through. A controller 570 is provided at one side of the feed carriage 500 to control the rotation of the upper press roll 550 and the lower press roll 540. An auxiliary disc 580 is rotated on the mounting table 530, the auxiliary disc 580 is positioned between every two upper compression rollers 550 at the rear end, and the auxiliary disc 580 abuts against the bending position of the aluminum plate. During operation, wear to place aluminum plate between last compression roller 550 and lower compression roller 540 by feeding frame 500, then start controller 570 for the rotation of compression roller 550 and lower compression roller 540 is gone up in the control of controller 570, thereby makes aluminum plate at the in-process of transmission, goes up compression roller 550 and lower compression roller 540 and carries out the hem to it, and the aluminum plate of accomplishing the hem transmits to going out work rest 200 on, then manual handling to other processes.

Because the aluminum plate of accomplishing the hem needs artifical transport to other processes, when other processes are far away from the hem device, perhaps staff's transport time is longer, will cause staff's fatigue to influence the efficiency of aluminum plate processing.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a supplementary unloader of continuous hem device has the effect that improves aluminum plate machining efficiency.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a supplementary unloader of continuous hem device, is including accepting the frame and collecting the frame, it has the horizontally board of accepting to rotate on the frame to accept, it contradicts with the play work or material rest to accept the board, it has the rotor plate to rotate on the frame to collect, be fixed with the baffle on the rotor plate, subaerial being provided with the driving piece, the driving piece is used for driving the rotation of rotor plate.

Through adopting above-mentioned technical scheme, when initial, accept the board level, the rotor plate is contradicted with ground, and after the aluminum plate conveying that processing was accomplished was accepted on the board, the rotation of board was accepted in the drive, accepts board and rotor plate parallel and level and contradict, and aluminum plate slides to the rotor plate on accepting the board, then starts the driving piece, and the rotation of driving piece drive rotor plate to make the rotor plate be vertical state, thereby make aluminum plate vertical arrange in on the collection frame. Because do not need the manual work to move aluminum plate to collecting on the frame, consequently reduced staff's the amount of labour to aluminum plate machining efficiency has been improved.

Further: the driving part comprises a motor, the motor is fixed on the ground, a rotating shaft is coaxially fixed on an output shaft of the motor, and the rotating shaft is fixedly connected with the rotating plate.

Through adopting above-mentioned technical scheme, after aluminum plate arranged in on the rotor plate, starter motor, motor drive pivot rotated to drive the rotation of rotor plate, thereby make aluminum plate vertical arrange in on collecting the frame.

Further: the collecting frame slides on the ground, a plurality of partition plates are arranged on the collecting frame, and partition layers are formed between every two partition plates.

Through adopting above-mentioned technical scheme, after an aluminum plate vertically arranged in an interlayer of collecting the frame, the collection frame that slides for next aluminum plate can place in another interlayer, thereby makes aluminum plate neatly arrange on collecting the frame.

Further: the ground is rotated and is provided with a horizontal lead screw, a pushing block is connected to the lead screw in a threaded manner, the pushing block is abutted to the collection frame, a connecting piece is arranged on the lead screw, and the motor drives the lead screw to rotate through the connecting piece.

Through adopting above-mentioned technical scheme, when the rotor plate rotated to the horizontality from vertical state, the connecting piece started, and the motor passes through the rotation that the connecting piece drove the lead screw to make the ejector pad drive the removal of collecting the frame, when the rotor plate rotated to vertical state from the horizontality, the connecting piece did not start, and the motor did not drive the rotation of lead screw, and it is unmovable to collect the frame, and aluminum plate is vertical to be arranged in on collecting the frame.

Further: four corners of the lower surface of the collecting frame are all rotated with rollers.

Through adopting above-mentioned technical scheme, the purpose that sets up the gyro wheel is, reduces and collects the frictional force that frame and ground slided.

Further: threaded connection has the stopper on the lead screw, the stopper is contradicted with collecting the frame, the interval between stopper and the ejector pad is for collecting the length of frame.

Through adopting above-mentioned technical scheme, the purpose that sets up the stopper is spacing to collecting the piece, when avoiding the ejector pad to promote to collect the frame and remove, collects the frame and removes too much.

Further: the coaxial first belt pulley that is fixed with of output shaft of motor, the connecting piece includes the ratchet, ratchet and the coaxial fixed connection of lead screw, the coaxial rotation of lead screw has the second belt pulley, the coaxial pawl that is fixed with of second belt pulley, the pawl is contradicted with the ratchet, first belt pulley passes through belt transmission with the second belt pulley and is connected.

Through adopting above-mentioned technical scheme, when the motor corotation, first belt pulley drives the second belt pulley and rotates, and the pawl moves on the ratchet, and when the motor reversal, first belt pulley drives the second belt pulley and rotates, and the pawl drives the rotation of ratchet to drive the rotation of lead screw, thereby make the ejector pad promote the removal of collecting the frame.

Further: an auxiliary plate is vertically fixed on the ground, the rotating plate rotates on the auxiliary plate, a sliding rail is fixed on one side of the collecting frame along the length of the collecting frame, a sliding groove is formed in the length direction of the auxiliary plate, the sliding rail slides in the sliding groove, and an auxiliary block rotates on the limiting block.

Through adopting above-mentioned technical scheme, after the aluminum plate on collecting the frame is filled with, rotate the auxiliary block for the auxiliary block is not contradicted with collecting the frame, then slides and collects the frame, makes to collect the frame and slides out the auxiliary plate, thereby realizes collecting the dismantlement of frame.

To sum up, the utility model discloses a beneficial technological effect does:

1. the purpose of board and rotor plate is accepted in the setting, and when the initiation, accept the board level, the rotor plate is contradicted with ground, and after the aluminum plate conveying that processing was accomplished was accepted on the board, the rotation of board was accepted in the drive, accepts board and rotor plate parallel and level and contradict, and aluminum plate slided to the rotor plate on accepting the board, then starts the driving piece, the rotation of driving piece drive rotor plate to make the rotor plate be vertical state, thereby make aluminum plate vertical arrange in on the collection frame. The aluminum plate does not need to be manually moved to the collecting frame, so that the labor capacity of workers is reduced;

2. the purpose of arranging the screw rod, the push block and the connecting piece is that when the rotating plate rotates from a vertical state to a horizontal state, the connecting piece is started, the motor drives the screw rod to rotate through the connecting piece, so that the push block drives the collection frame to move;

3. the purpose of setting up ratchet, pawl and second belt pulley is that when the motor corotation, first belt pulley drives the second belt pulley and rotates, and the pawl moves on the ratchet, and when the motor reversal, first belt pulley drives the second belt pulley and rotates, and the pawl drives the rotation of ratchet to the rotation of drive lead screw, thereby make the ejector pad promote the removal of collecting the frame.

Drawings

FIG. 1 is a schematic view of the overall structure of the prior art;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

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

fig. 4 is a partially enlarged schematic view of a portion B in fig. 2.

Reference numerals: 100. a receiving frame; 110. a bearing plate; 200. a discharging frame; 300. an auxiliary plate; 310. a rotating plate; 320. a baffle plate; 400. a collection rack; 410. a partition plate; 420. a slide rail; 430. a drive member; 431. a motor; 432. a rotating shaft; 433. a lead screw; 440. a connecting member; 441. a ratchet wheel; 442. a pawl; 443. a second pulley; 444. a first pulley; 450. a roller; 460. a limiting block; 470. a chute; 480. an auxiliary block; 500. a feeding frame; 510. a transmission rack; 520. rotating the stick; 530. an installation table; 540. a lower pressing roller; 550. an upper compression roller; 560. a platen; 570. a controller; 580. an auxiliary disk.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 2, for the utility model discloses a supplementary unloader of continuous flanging device, including accepting frame 100, rotate horizontally on accepting frame 100 and accept board 110, accept board 110 and transmit frame 510 and contradict. An upright auxiliary plate 300 is fixed on the ground, a rotating plate 310 is rotated on the auxiliary plate 300, baffles 320 are fixed on both sides of the rotating plate 310 in the length direction, and initially, the rotating plate 310 is arranged on the ground in parallel. After the aluminum plate is transferred to the receiving plate 110, the receiving plate 110 is manually rotated, the receiving plate 110 abuts against the rotating plate 310, and the aluminum plate slides from the receiving plate 110 to the rotating plate 310.

As shown in fig. 2 and 3, the auxiliary blanking device of the continuous flanging device further comprises a collecting frame 400, a sliding rail 420 is fixed on one side of the collecting frame 400 along the length thereof, a sliding groove is formed along the length direction of the auxiliary plate 300, and the sliding rail 420 slides in the sliding groove. A motor 431 is fixed on the ground, a rotating shaft 432 is coaxially fixed on an output shaft of the motor 431, and the rotating shaft 432 is fixedly connected with the rotating plate 310. After the aluminum plate is placed on the rotating plate 310, the motor 431 is activated, and the motor 431 drives the rotating plate 310 to rotate, so that the aluminum plate is vertically placed on the collecting rack 400.

A plurality of partition plates 410 are fixed on the collection frame 400, and a partition is formed between every two partition plates 410. Horizontal lead screw 433 rotates through the bearing frame on subaerial, threaded connection has the ejector pad (not shown in the figure) on lead screw 433, and the ejector pad is contradicted with collection frame 400 bottom plate. A connecting member 440 is provided on the screw 433, and the motor 431 drives the screw 433 to rotate through the connecting member 440. When the rotating plate 310 rotates from the vertical state to the horizontal state, the connecting piece 440 is started, the motor 431 drives the screw 433 to rotate through the connecting piece 440, so that the pushing block drives the collecting rack 400 to move, when the rotating plate 310 rotates from the horizontal state to the vertical state, the connecting piece 440 is not started, the motor 431 does not drive the screw 433 to rotate, the collecting rack 400 does not move, the aluminum plate is vertically arranged on the collecting rack 400, and therefore the aluminum plate can be neatly arranged on the collecting rack 400.

The connecting member 440 includes a ratchet 441, the ratchet 441 is coaxially and fixedly connected with the screw 433, the screw 433 coaxially rotates with a second pulley 443, the second pulley 443 is fixed with a pawl 442, and the pawl 442 abuts against the ratchet 441. A first belt pulley 444 is coaxially fixed to an output shaft of the motor 431, and the first belt pulley 444 and the second belt pulley 443 are in transmission connection through a belt. When the motor 431 rotates forward, the first belt pulley 444 drives the second belt pulley 443 to rotate through the belt, and the pawl 442 moves on the ratchet wheel 441, and when the motor 431 rotates backward, the first belt pulley 444 drives the second belt pulley 443 to rotate, and the pawl 442 drives the ratchet wheel 441 to rotate, so as to drive the screw 433 to rotate, and thus the pushing block pushes the collection frame 400 to move.

To reduce the slippage of the collecting rack 400, rollers 450 are rotated at each of the four corners of the collecting rack 400.

As shown in fig. 4, in order to avoid pushing the collection frame 400 too much by the pushing block 434, the collection frame 400 needs to be limited, a limiting block 460 is connected to the screw 433 by a thread, and a distance between the limiting block 460 and the pushing block is the length of the collection frame 400.

After the collection frame 400 is filled with the aluminum plates, the collection frame 400 needs to be slid and moved away, so that the collection frame 400 is separated from the auxiliary plate 300, the limiting block 460 is provided with an arc-shaped sliding groove 470, the auxiliary block 480 slides in the sliding groove 470, and the height of the limiting block 460 is lower than that of the bottom plate of the collection frame 400. When spacing is carried out collection frame 400, supplementary piece 480 is contradicted with collection frame 400 bottom plate, collects frame 400 when sliding out, rotates supplementary piece 480 for supplementary piece 480 does not contradict with collection frame 400.

The specific working process of this embodiment: after the aluminum plate is transmitted to the receiving plate 110, the receiving plate 110 is manually rotated, the receiving plate 110 abuts against the rotating plate 310, the aluminum plate slides to the rotating plate 310 from the receiving plate 110, then the motor 431 is started, the motor 431 forwards drives the rotating plate 310 to rotate through the rotating shaft 432, the rotating plate 310 is in a vertical state, the aluminum plate is placed on the collecting frame 400, then the motor 431 reversely rotates, the rotating plate 310 is driven to be in a horizontal state, the first belt pulley 444 drives the second belt pulley 443 to rotate, the pawl 442 drives the ratchet 441 to rotate, the ratchet 441 drives the screw 433 to rotate, the push block pushes the collecting frame 400 to slide, and the next interlayer is placed at the receiving plate 110.

Claims (8)

1. The utility model provides a supplementary unloader of continuous hem device which characterized in that: including accepting frame (100) and collection frame (400), it has the horizontally board (110) of accepting to rotate on accepting frame (100), it contradicts with play work or material rest (200) to accept board (110), it has rotor plate (310) to rotate on collecting frame (400), be fixed with baffle (320) on rotor plate (310), subaerial driving piece (430) that is provided with, driving piece (430) are used for driving the rotation of rotor plate (310).

2. An auxiliary blanking device of a continuous flanging device according to claim 1, characterized in that: the driving part (430) comprises a motor (431), the motor (431) is fixed on the ground, an output shaft of the motor (431) is coaxially fixed with a rotating shaft (432), and the rotating shaft (432) is fixedly connected with the rotating plate (310).

3. An auxiliary blanking device of a continuous flanging device according to claim 2, characterized in that: the collecting frame (400) slides on the ground, a plurality of partition plates (410) are arranged on the collecting frame (400), and partition layers are formed between every two partition plates (410).

4. An auxiliary blanking device of a continuous flanging device according to claim 3, characterized in that: rotate subaerial horizontally lead screw (433) that has, threaded connection has ejector pad (434) on lead screw (433), ejector pad (434) and collection frame (400) butt, be provided with connecting piece (440) on lead screw (433), motor (431) are through the rotation of connecting piece (440) drive lead screw (433).

5. An auxiliary blanking device of a continuous flanging device according to claim 4, characterized in that: four corners of the lower surface of the collecting rack (400) are all provided with rollers (450) in a rotating mode.

6. An auxiliary blanking device of a continuous flanging device according to claim 5, characterized in that: threaded connection has stopper (460) on lead screw (433), stopper (460) contradict with collecting frame (400), the length of interval for collecting frame (400) between stopper (460) and ejector pad (434).

7. An auxiliary blanking device of a continuous flanging device according to claim 6, characterized in that: a first belt pulley (444) is coaxially fixed on an output shaft of the motor (431), the connecting piece (440) comprises a ratchet wheel (441), the ratchet wheel (441) is coaxially and fixedly connected with a lead screw (433), the lead screw (433) coaxially rotates to form a second belt pulley (443), a pawl (442) is coaxially fixed on the second belt pulley (443), the pawl (442) is abutted against the ratchet wheel (441), and the first belt pulley (444) is in transmission connection with the second belt pulley (443) through a belt.

8. An auxiliary blanking device of a continuous flanging device according to claim 7, characterized in that: an auxiliary plate (300) is vertically fixed on the ground, the rotating plate (310) rotates on the auxiliary plate (300), a sliding rail (420) is fixed on one side of the collecting frame (400) along the length of the collecting frame, a sliding groove is formed in the length direction of the auxiliary plate (300), the sliding rail (420) slides in the sliding groove, and an auxiliary block (480) rotates on the limiting block (460).

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