CN113427297B - Combination processing is with multimachine position machined part clamping device that can remove iron fillings - Google Patents

Abstract

The invention relates to the field of machining, in particular to a multi-machine-position workpiece clamping device capable of removing scrap iron for combined machining, which comprises a supporting underframe, a rotating assembly, a turning assembly and the like; the supporting chassis is fixedly provided with a rotating assembly, and the top surface of the supporting chassis is provided with a turnover assembly. The number of teeth through scarce gear and straight-teeth gear can learn, and scarce gear rotates the round and can drive straight-teeth gear and the last device and rotate ninety degrees for the rotating turret drives the machined part and rotates ninety degrees, realizes the purpose of switching the machined part position, and the machined part of being convenient for gets into in the manufacturing procedure on next step.

Description

Combination processing is with multimachine position machined part clamping device that can remove iron fillings

Technical Field

The invention relates to the field of machining, in particular to a multi-machine-position workpiece clamping device capable of removing scrap iron for combined machining.

Background

The machining is a machining process for removing materials through mechanical precision machining, namely precision machining, and is machining by using a high-precision machining machine tool, and a high-precision part is machined by using a high-precision machining machine tool, so that the precision machining of the part is realized, and the machining precision of the part is improved.

In the machining process, when a plurality of machining processes are carried out on the machined part, the positions of the machined parts need to be switched to carry out different machining processes, after the machining of the last machined part is finished, a large amount of scrap irons can be remained on the surface of the machined part and the workbench, the machining accuracy of the machined part is easily influenced, the scrap irons on the machined part need to be manually cleaned, the manual cleaning is time-consuming, and the subsequent machining processes are easily influenced.

Disclosure of Invention

The invention aims to provide a multi-machine-position workpiece clamping device capable of switching the positions of workpieces so that the workpieces can enter the next machining process, removing scrap iron on the workpieces and clamping and fixing the workpieces, and the multi-machine-position workpiece clamping device is used for combined machining and can be used for removing the scrap iron, so that the problem that the scrap iron on the workpieces needs to be manually cleaned in the background technology is solved.

The technical scheme is as follows: the utility model provides a multimachine position machined part clamping device that combined machining is with removing iron fillings, includes and supports chassis, runner assembly, upset subassembly and clamping device, and fixed mounting has the runner assembly on supporting the chassis, supports the chassis top surface and is provided with the upset subassembly, and clamping device locates on the runner assembly.

Optionally, the rotating assembly comprises a motor, a rotating shaft, a lack gear, a rotating frame, a straight gear and a placing frame, the motor is fixedly mounted on the top surface of the supporting chassis, the rotating shaft is welded on an output shaft of the motor, the lack gear is fixedly connected to the top end of the rotating shaft, the rotating frame is rotatably connected to the supporting chassis, the straight gear is fixedly connected to the rotating frame, and the placing frame is rotatably connected to the rotating frame in a scattering mode all around.

Optionally, the overturning assembly comprises a supporting frame, a guiding ring frame, a first clamping column frame and a torsion spring, the supporting frame is fixedly mounted on the top surface of the supporting chassis, the guiding ring frame is fixedly mounted at the top of the supporting frame, the first clamping column frame is fixedly connected to the placing frame and is in contact with the guiding ring frame, the torsion spring is fixedly connected to the placing frame, and one end of the torsion spring is connected with the rotating frame.

Optionally, the clamping device comprises a swing frame, clamping blocks, connecting strips, a support frame, a sliding ring frame, compression springs and a slotting limiting ring, the swing frame is connected to the rack in a center scattering mode in a rotating mode, the clamping blocks are welded to the swing frame, the connecting strips are hinged to the swing frame, the support frame is welded to the bottom surface of the rack, the two pairs of connecting strips are hinged to the sliding frame together, the support frame is connected with the sliding frame in a sliding mode, the sliding frame is connected with the sliding ring frame in a sliding mode, the sliding ring frame is in mutual contact with the sliding frame, the compression springs are connected to the sliding ring frame in a connecting mode, one ends of the compression springs are connected with the rack, the slotting limiting ring is fixedly installed on the support frame, and the slotting limiting ring is in mutual contact with the sliding ring frame.

Optionally, the air conditioner further comprises an auxiliary component for removing iron scraps, the auxiliary component for removing iron scraps is arranged on the supporting frame and comprises a slotted cylinder, a pushing circular ring, a second clamping column frame, a guide groove plate and an air outlet pipe with a sieve plate, the slotted cylinder is arranged on the rotating shaft, the pushing circular ring is connected in the supporting frame in a liftable mode, the second clamping column frame is arranged on the bottom surface of the pushing circular ring, the second clamping column frame is in limit fit with the slotted cylinder, the guide groove plate is fixedly mounted on the supporting frame, two pairs of air outlet pipes with the sieve plate are arranged on the supporting frame, the air outlet pipe with the sieve plate is fixedly connected with the guide groove plate, and the supporting frame is provided with an air outlet corresponding to the air outlet pipe with the sieve plate.

Optionally, the device further comprises an anti-deviation assembly, the anti-deviation assembly is arranged on the rotating frame and comprises a slotted ring and a limiting frame, the slotted ring is welded on the rotating frame, the limiting frame is arranged on the second column clamping frame, and at least one part of the limiting frame is arranged in a slotted ring groove.

The beneficial effects of the invention are:

the number of teeth through scarce gear and straight-teeth gear can learn, and scarce gear rotates the round and can drive straight-teeth gear and the last device and rotate ninety degrees for the rotating turret drives the machined part and rotates ninety degrees, realizes the purpose of switching the machined part position, and the machined part of being convenient for gets into in the manufacturing procedure on next step.

Promote a slip ring frame through the fluting spacing ring and move towards keeping away from the rotating turret direction, slip ring frame promotes the carriage upward movement to the carriage drives the connecting strip swing, and then the connecting strip drives the swing span and presss from both sides tight piece and swing in opposite directions, makes to press from both sides tight piece and will not press from both sides the machined part of processing tightly.

Can promote first card post frame upswing through the direction ring frame, first card post frame drives rack and last device and rotates one hundred eighty degrees for the remaining iron fillings in rack and machined part surface drop.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of the rotating assembly of the present invention.

Fig. 4 is a schematic perspective view of the flip assembly of the present invention.

Fig. 5 is a schematic view of a first partial body structure of the clamping device of the present invention.

Fig. 6 is a schematic view of a second partial body structure of the clamping device of the present invention.

Fig. 7 is a schematic partial perspective view of the assembly for removing iron filings according to the present invention.

Fig. 8 is a schematic perspective view of the anti-deviation assembly of the present invention.

Reference numbers in the drawings: 1: support chassis, 2: rotating assembly, 21: motor, 22: rotating shaft, 23: missing gear, 24: rotating frame, 25: spur gear, 26: rack, 3: flip assembly, 31: support frame, 32: guide ring frame, 33: first clip frame, 34: torsion spring, 4: clamping device, 41: swing frame, 42: clamping block, 43: connecting strip, 44: support frame, 45: carriage, 46: slip ring, 47: compression spring, 48: grooving limiting ring, 5: scrap iron removal auxiliary assembly, 51: slotted cylinder, 52: push ring, 521: second clip frame, 53: guide groove plate, 54: air outlet pipe with sieve plate, 6: anti-deviation assembly, 61: slotted ring, 62: a limiting frame.

Detailed Description

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A multi-machine-position workpiece clamping device capable of removing scrap iron for combined machining is disclosed, as shown in figures 1-6, and comprises a supporting chassis 1, a rotating assembly 2, a turning assembly 3 and a clamping device 4, wherein the rotating assembly 2 is fixedly mounted on the supporting chassis 1, the turning assembly 3 used for turning a workpiece is arranged on the top surface of the supporting chassis 1, and the clamping device 4 used for clamping the workpiece is arranged on the rotating assembly 2.

The rotating assembly 2 comprises a motor 21, a rotating shaft 22, a gear lack 23, a rotating frame 24, a straight gear 25 and a placing frame 26, a motor 21 is fixedly mounted on the top surface of the supporting chassis 1, the rotating shaft 22 is welded on an output shaft of the motor 21, the gear lack 23 is fixedly connected to the top end of the rotating shaft 22 far away from the motor 21, the rotating frame 24 is connected to the supporting chassis 1 in a rotating mode, the straight gear 25 is fixedly connected to the rotating frame 24, the placing frame 26 is connected to the rotating frame 24 far away from the supporting chassis 1 in a rotating mode of scattering all around, and the placing frame 26 is used for placing workpieces.

Upset subassembly 3 is including braced frame 31, direction ring frame 32, first jack post frame 33 and torque spring 34, support 1 top surface fixed mounting of chassis has braced frame 31, braced frame 31 top fixed mounting has direction ring frame 32, the rigid coupling has first jack post frame 33 on keeping away from the rack 26 of rotating turret 24, first jack post frame 33 and direction ring frame 32 contact each other, direction ring frame 32 is used for promoting first jack post frame 33 and upwards swings, fixedly connected with torque spring 34 on the rack 26, the torque spring 34 one end and the rotating turret 24 hookup of keeping away from rack 26.

The clamping device 4 comprises a swing frame 41, clamping blocks 42, connecting strips 43, a support frame 44, a sliding frame 45, a sliding ring frame 46, a compression spring 47 and a slotted limiting ring 48, the swing frame 41 is rotatably connected to the placing frame 26 in a center scattering manner, the clamping blocks 42 are welded on the swing frame 41 and used for clamping unmachined workpieces, the connecting strips 43 are hinged to the swing frame 41, the support frame 44 is welded to the bottom surface of the placing frame 26, the sliding frames 45 are hinged to the two pairs of connecting strips 43 together, the support frame 44 is connected with the sliding frame 45 in a sliding manner, the sliding ring frame 46 is connected to the placing frame 26 far away from the first clamping column frame 33 in a sliding manner, the sliding ring frame 46 is in contact with the sliding frame 45, the sliding ring frame 46 is used for pushing the sliding frame 45 to move upwards, the compression spring 47 is connected to the sliding ring frame 46, one end of the compression spring 47 far away from the sliding ring frame 46 is connected with the placing frame 26, the slotted limiting ring 48 is fixedly arranged on the supporting frame 31, and the slotted limiting ring 48 is contacted with the sliding ring frame 46.

This equipment sets up in machining equipment, wherein place the machined part that is carrying out machining on three rack 26, it is tight with the machined part clamp to press from both sides tight piece 42, the machined part that the staff will carry out processing is placed on another rack 26, when needs switch over the machined part, staff's manual starter motor 21, motor 21 output shaft anticlockwise rotation drives axis of rotation 22 and last device anticlockwise rotation, it drives spur gear 25 and last device clockwise to lack gear 23, can learn according to lacking gear 23 and spur gear 25's tooth number, it can drive spur gear 25 and last device and rotate ninety degrees to lack gear 23 to rotate the round, make rotating turret 24 drive the machined part and rotate ninety degrees, the realization is switched over the purpose to the machined part position, be convenient for the machined part get into on next step in the manufacturing procedure.

Meanwhile, the placing frame 26 drives the sliding ring frame 46 to rotate, the slotting limiting ring 48 pushes one sliding ring frame 46 to move towards the direction away from the rotating frame 24, the sliding ring frame 46 pushes the sliding frame 45 to move upwards, so that the sliding frame 45 drives the connecting strip 43 to swing, the connecting strip 43 drives the swinging frame 41 and the clamping block 42 to swing oppositely, and the machined part which is not machined is clamped by the clamping block 42. Then, the sliding ring frame 46 is separated from the slotted limiting ring 48, the compressed compression spring 47 resets to drive the sliding ring frame 46 to move towards the direction close to the rotating frame 24, the sliding ring frame 46 is separated from the sliding frame 45, the sliding frame 45 and the upper device thereof move downwards, the connecting strip 43 drives the swinging frame 41 and the clamping block 42 to swing relatively, the clamping block 42 loosens the machined workpiece, and the worker takes the machined workpiece off from the placing frame 26.

When the rotating frame 24 and the upper device rotate, the guiding circular ring frame 32 can push the first clamping column frame 33 to swing upwards, the first clamping column frame 33 drives the placing frame 26 and the upper device to rotate one hundred eighty degrees, so that the placing frame 26 and the residual iron chips on the surface of the workpiece fall off, and then the compressed torsion spring 34 resets to drive the placing frame 26 and the upper device to rotate and reset. The operator then manually turns off the motor 21, the machine is stopped and the machining apparatus machines the workpiece. And repeating the operation to carry out different processing procedures on the batch of the processed pieces.

Example 2

On the basis of embodiment 1, as shown in fig. 7-8, the device further includes an iron scrap removing auxiliary assembly 5, the supporting frame 31 is provided with the iron scrap removing auxiliary assembly 5, the iron scrap removing auxiliary assembly 5 includes a slotted cylinder 51, a pushing ring 52, a second column clamping frame 521, a guiding slot plate 53 and an air outlet pipe 54 with a sieve plate, the rotating shaft 22 is provided with the slotted cylinder 51, the pushing ring 52 is connected in the supporting frame 31 in a lifting manner, the pushing ring 52 is used for extruding the air in the supporting frame 31, the bottom surface of the pushing ring 52 is provided with the second column clamping frame 521, the second column clamping frame 521 is in limit fit with the slotted cylinder 51, the slotted cylinder 51 is used for pushing the second column clamping frame 521 and the pushing ring 52 to reciprocate up and down, the guiding slot plate 53 is fixedly mounted on the supporting frame 31, the supporting frame 31 is provided with two pairs of sieve plate air outlet pipes 54, the air outlet pipe 54 with the sieve plate is fixedly connected with the guiding slot plate 53, the support frame 31 has an air outlet corresponding to the outlet duct 54 with the sieve plate.

The iron chips adhered to the surfaces of the placing frame 26 and the workpiece fall into the guide groove plate 53, when the rotating shaft 22 rotates anticlockwise, the rotating shaft 22 drives the slotted cylinder 51 to rotate, the slotted cylinder 51 pushes the second clamping column frame 521 and pushes the circular ring 52 to reciprocate up and down, the circular ring 52 is pushed to move upwards to extrude the gas in the supporting frame 31, the gas in the supporting frame 31 is pushed out from the air outlet pipe 54 with the sieve plate, and the iron chips are blown out from the guide groove plate 53 by the gas.

Example 3

On the basis of the embodiment 2, as shown in fig. 7 to 8, the anti-deviation device 6 is further included, the anti-deviation device 6 is disposed on the rotating frame 24, the anti-deviation device 6 is used for preventing the rotating frame 24 and the device thereon from deflecting, the anti-deviation device 6 includes a slotted ring 61 and a limiting frame 62, the slotted ring 61 is welded on the rotating frame 24, the limiting frame 62 is disposed on the second column-clamping frame 521, at least a part of the limiting frame 62 is disposed in a groove of the slotted ring 61, and the limiting frame 62 is used for clamping the slotted ring 61.

When the second clamping column frame 521 moves upwards, the second clamping column frame 521 can drive the limiting frame 62 to move upwards, the limiting frame 62 does not clamp the grooving ring 61 any more, the rotating frame 24 and the upper device thereof can rotate, and after the machined part position is switched, the machined part is machined, the limiting frame 62 just clamps the grooving ring 61, so that the rotating frame 24 and the upper device thereof are prevented from deflecting, and the machined part is prevented from being machined inaccurately.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. The multi-machine-position workpiece clamping device capable of removing scrap iron for combined machining is characterized by comprising a supporting underframe (1), a rotating assembly (2), a turning assembly (3) and a clamping device (4), wherein the rotating assembly (2) is fixedly installed on the supporting underframe (1), the turning assembly (3) is arranged on the top surface of the supporting underframe (1), and the clamping device (4) is arranged on the rotating assembly (2);

the rotating assembly (2) comprises a motor (21), a rotating shaft (22), a missing gear (23), a rotating frame (24), a straight gear (25) and a placing frame (26), the motor (21) is fixedly installed on the top surface of the supporting chassis (1), the rotating shaft (22) is welded on an output shaft of the motor (21), the missing gear (23) is fixedly connected to the top end of the rotating shaft (22), the rotating frame (24) is rotatably connected to the supporting chassis (1), the straight gear (25) is fixedly connected to the rotating frame (24), and the placing frame (26) is rotatably connected to the rotating frame (24) in a peripheral scattering mode;

the turnover component (3) comprises a supporting frame (31), a guiding circular frame (32), a first clamping column frame (33) and a torsion spring (34), wherein the supporting frame (31) is fixedly installed on the top surface of the supporting chassis (1), the guiding circular frame (32) is fixedly installed on the top of the supporting frame (31), the first clamping column frame (33) is fixedly connected onto the placing frame (26), the first clamping column frame (33) is in mutual contact with the guiding circular frame (32), the torsion spring (34) is fixedly connected onto the placing frame (26), and one end of the torsion spring (34) is connected with the rotating frame (24);

the clamping device (4) comprises a swing frame (41), clamping blocks (42), connecting strips (43), a supporting frame (44), a sliding frame (45), a sliding ring frame (46), compression springs (47) and a slotted limiting ring (48), the swing frame (41) is rotatably connected to the placing frame (26) in a center scattering mode, the clamping blocks (42) are welded to the swing frame (41), the connecting strips (43) are hinged to the swing frame (41), the supporting frame (44) is welded to the bottom surface of the placing frame (26), the sliding frames (45) are hinged to the two pairs of connecting strips (43) together, the supporting frame (44) is connected with the sliding frame (45) in a sliding mode, the sliding ring frame (46) is connected to the placing frame (26) in a sliding mode, the sliding ring frame (46) is in mutual contact with the sliding frame (45), the compression springs (47) are connected to the sliding ring frame (46), one end of each compression spring (47) is connected with the placing frame (26), the slotted limiting ring (48) is fixedly arranged on the supporting frame (31), and the slotted limiting ring (48) is contacted with the sliding ring frame (46).

2. The multi-machine-position workpiece clamping device capable of removing scrap iron for combined machining according to claim 1, characterized by further comprising an auxiliary assembly for removing scrap iron (5), wherein the supporting frame (31) is provided with the auxiliary assembly for removing scrap iron (5), the auxiliary assembly for removing scrap iron (5) comprises a slotted cylinder (51), a pushing ring (52), a second clamping column frame (521), a guide groove plate (53) and an air outlet pipe (54) with a sieve plate, the slotted cylinder (51) is arranged on the rotating shaft (22), the pushing ring (52) is connected in the supporting frame (31) in a lifting manner, the second clamping column frame (521) is arranged on the bottom surface of the pushing ring (52), the second clamping column frame (521) is in limit fit with the slotted cylinder (51), the guide groove plate (53) is fixedly arranged on the supporting frame (31), two pairs of air outlet pipes (54) with the sieve plate are arranged on the supporting frame (31), the air outlet pipe (54) with the sieve plate is fixedly connected with the guide groove plate (53), and the supporting frame (31) is provided with an air outlet corresponding to the air outlet pipe (54) with the sieve plate.

3. The multi-machine-position workpiece clamping device capable of removing iron scraps for combined machining according to claim 2, characterized by further comprising an anti-deviation assembly (6), wherein the anti-deviation assembly (6) is arranged on the rotating frame (24), the anti-deviation assembly (6) comprises a slotted ring (61) and a limiting frame (62), the slotted ring (61) is welded on the rotating frame (24), the limiting frame (62) is arranged on the second column clamping frame (521), and at least one part of the limiting frame (62) is arranged in a groove of the slotted ring (61).

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