CN214211853U - A turn-ups equipment for bimetal bearing processing - Google Patents

Abstract

The utility model relates to a bearing processing field, the technical scheme of the utility model be: a flanging device for machining a bimetallic bearing comprises a rack, wherein a feeding and discharging mechanism is arranged on the rack, a feeding mechanism is further arranged on the side surface of the feeding and discharging mechanism, a flanging mechanism is arranged on the left side of the feeding mechanism, the feeding and discharging mechanism comprises a feeding and discharging support, and a feeding and discharging clamping jaw is arranged on the feeding and discharging support in a sliding manner; the feeding mechanism comprises a feeding support, a feeding cylinder is arranged on the feeding support, four feeding slide bars are further arranged on the feeding support, and a feeding die is arranged on each feeding slide bar in a sliding manner; the flanging mechanism comprises a flanging mounting plate, and a pre-flanging mechanism, a flat-flanging mechanism and a shaping mechanism are arranged on the flanging mounting plate.

Description

A turn-ups equipment for bimetal bearing processing

Technical Field

The utility model relates to a bearing processing field especially involves a turn-ups equipment for bimetal bearing processing.

Background

The metal bearing is one of oil-free lubrication bearings, and the product is formed by rolling a copper-steel integrated bimetallic strip by using a high-quality low-carbon steel backing as a matrix and sintering a lead-tin-bronze alloy on the surface of the matrix and performing high-temperature sintering and compact rolling for several times, and is suitable for various purposes such as a bushing bearing a medium-speed and high-impact load, a thrust washer and the like. At present, the processing of bimetal bearing need carry out the flanging to it, generally all uses artifical material loading, then separates the finished product, and work efficiency is extremely low, simultaneously, carries out the flanging and need carry out a lot of flanging and plastic processing man-hour, and general company can use two equipment to process usually, and manufacturing cost is great. Therefore, there is a need for an improved structure that overcomes the above-mentioned deficiencies.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a turn-ups equipment for bimetal bearing processing.

The above technical purpose of the utility model is realized through following technical scheme: a flanging device for machining a bimetallic bearing comprises a rack, wherein a feeding and discharging mechanism is arranged on the rack, a feeding mechanism is further arranged on the side surface of the feeding and discharging mechanism, a flanging mechanism is arranged on the left side of the feeding mechanism, the feeding and discharging mechanism comprises a feeding and discharging support, and a feeding and discharging clamping jaw is arranged on the feeding and discharging support in a sliding manner;

the feeding mechanism comprises a feeding support, a feeding cylinder is arranged on the feeding support, four feeding slide bars are further arranged on the feeding support, and a feeding die is arranged on each feeding slide bar in a sliding manner;

the flanging mechanism comprises a flanging mounting plate, a shaping mechanism is arranged above the flanging mounting plate in a sliding manner, a pre-turning mechanism is arranged on the left side of the mounting plate, a flat-turning mechanism is arranged on the right side of the mounting plate, two guide plates are symmetrically arranged on two sides above the mounting plate, a transverse slide rail is arranged below the mounting plate, the pre-turning mechanism and the flat-turning mechanism are symmetrically arranged, the shaping mechanism comprises a shaping motor, a shaping head is arranged below the shaping motor in a sliding manner, the pre-turning mechanism comprises a pre-turning motor, the pre-turning motor is connected with a pre-turning head, the flat-turning mechanism comprises a flat-turning motor, and the flat-turning motor is connected with a flat-turning head.

By adopting the technical scheme, the bimetallic bearing needing flanging is placed on a feeding die of a feeding mechanism through a feeding and discharging mechanism, the feeding die is conveyed to a flanging mechanism through a feeding cylinder, a workpiece is turned up to a side with a certain angle by a pre-turning mechanism, a machining head is automatically changed into a flat turning mechanism, then the workpiece is subjected to fine flanging by the flat turning mechanism, the side is turned flat, then the flat turning head returns to the original taste, finally, according to the actual condition, the shaping mechanism above automatically performs fine shaping on the workpiece, the workpiece is sent back by the feeding mechanism after the finish, and finally, a finished product is placed on a discharging track through a feeding and discharging clamping jaw of the feeding and discharging mechanism.

The utility model discloses a further set up to: the feeding die is of a square block structure, a die hole is formed in the middle of the feeding die, a fixed die is arranged in the die hole and fixed on the feeding die through a flange, and the right side of the fixed die is of a cylindrical structure.

Through adopting above-mentioned technical scheme, the bearing that detachable fixed mould can guarantee each size can both be processed on this equipment for the application scope of equipment is bigger.

The utility model discloses a further set up to: the feeding die is provided with a sliding hole, the feeding sliding rod penetrates through the sliding hole, a feeding sliding block is arranged below the feeding die, a feeding line rail is further arranged below the feeding die, and the feeding sliding block is matched with the feeding line rail.

Through adopting above-mentioned technical scheme, the setting of slip pay-off can make that feeding mechanism can be better with go up unloading mechanism and turn-ups mechanism cooperation, no longer need artifical pay-off, perhaps many equipment process, improved production efficiency greatly, practiced thrift manufacturing cost.

The utility model discloses a further set up to: the feeding cylinder is connected with a feeding telescopic rod, and the feeding telescopic rod is fixedly connected with the feeding die.

The utility model discloses a further set up to: the feeding and discharging device is characterized in that a feeding and discharging cylinder is arranged on the feeding and discharging support, the feeding and discharging cylinder is connected with an upper feeding and discharging fixed block in a sliding mode, and a feeding and discharging clamping jaw is arranged on the feeding and discharging fixed block.

Through adopting above-mentioned technical scheme, go up unloading mechanism still including setting up the unloading track in the side, guaranteed the separation of going up the unloading for finished product bearing and raw materials bearing separately place.

The utility model discloses a further set up to: the guide plate is vertically fixed on the mounting plate through a bolt, and a shaping track is arranged on the inner side of the guide plate; a shaping telescopic rod is arranged below the shaping motor, a shaping connecting plate is arranged on the shaping telescopic rod in a sliding mode, a shaping head is fixed on the shaping connecting plate, shaping sliding blocks are arranged on two sides of the shaping connecting plate, and the shaping sliding blocks are matched with the shaping rail; the transverse sliding rail comprises an upper rail and a lower rail, the middle of the upper rail is provided with a shaping groove, the shaping groove is located under the shaping head, and the lower rail is provided with a sliding groove.

The utility model discloses a further set up to: the pre-turning motor is fixed on the mounting plate through a pre-turning fixing plate, the pre-turning motor is connected with a first rotating shaft, a first transmission belt is sleeved on the first rotating shaft, the other end of the first transmission belt is connected with a first ball nut, a first screw rod is rotatably arranged in the first ball nut, a pre-turning mounting block is arranged on the first screw rod, and a pre-turning head is fixed on the pre-turning mounting block; the flat-turning motor is fixed on the mounting plate through a flat-turning fixing plate, the flat-turning motor is connected with a second rotating shaft, a second driving belt is sleeved on the second rotating shaft, the other end of the second driving belt is connected with a second ball nut, a second screw rod is arranged in the second ball nut in a rotating mode, a flat-turning mounting block is arranged on the second screw rod, and a flat-turning head is fixed on the flat-turning mounting block.

By adopting the technical scheme, the three stations sequentially process the products to be processed, so that the processing efficiency is greatly improved; the arrangement of the shaping rail can ensure that the shaping head can move up and down on the Z axis, and the processing range of the shaping head is ensured; the arrangement of the shaping groove can ensure that the shaping head cannot be contacted with the upper track during working, and the normal operation of the working is ensured; the pre-turning head and the flat turning head drive the screw rod to move through the nut, so that the normal sliding of the pre-turning mounting block and the flat turning mounting block can be ensured, the rotation speed of the screw rod can be ensured through the arrangement of the first transmission belt and the second transmission belt, and the phenomenon that equipment cannot normally work due to too fast or too slow rotation can be avoided; the arrangement of the screw fixing seat and the rotating bearing ensures that the screw can normally rotate, and the pre-turning mounting block and the flat-turning mounting block move relatively.

To sum up, the utility model discloses following beneficial effect has: the detachable fixed die can ensure that bearings of all sizes can be processed on the equipment, so that the application range of the equipment is wider; the sliding feeding device can enable the feeding mechanism to be better matched with the feeding and discharging mechanism and the flanging mechanism, manual feeding is not needed, or multiple devices are used for processing, so that the production efficiency is greatly improved, and the production cost is saved; go up unloading mechanism still including setting up the unloading track in the side, guaranteed the unloading separation of going up for finished product bearing and raw materials bearing separately place.

Drawings

Fig. 1 is a schematic structural diagram of a flanging device for processing a bimetallic bearing provided by the utility model.

Fig. 2 is a schematic structural diagram of a flanging device for processing a bimetallic bearing provided by the utility model.

Fig. 3 is a schematic structural diagram of the flanging mechanism provided by the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the drawings and the specific embodiments.

As shown in fig. 1-3, the utility model provides a flanging device for bimetallic bearing processing, including frame 1, be provided with on frame 1 and go up unloading mechanism 2, go up unloading mechanism 2 side and still be provided with feeding mechanism 3, feeding mechanism 3 left side is provided with flanging mechanism 4, go up unloading mechanism 2 and include last unloading support 21, the last unloading clamping jaw 22 that slides on going up unloading support 21;

the feeding mechanism 3 comprises a feeding support 31, a feeding cylinder 32 is arranged on the feeding support 31, four feeding slide bars 33 are further arranged on the feeding support 31, and a feeding die 34 is arranged on the feeding slide bars 33 in a sliding manner;

the turn-ups mechanism 4 includes turn-ups mounting panel 41, the slip of turn-ups mounting panel 41 top is provided with plastic mechanism 42, mounting panel 41 left side is provided with turns over mechanism 43 in advance, mounting panel 41 right side is provided with flat turn-ups mechanism 44, mounting panel 41 top bilateral symmetry is provided with two deflectors, mounting panel 41 below is provided with transverse slide rail, turn over mechanism 43 in advance with flat turn over mechanism 44 symmetry sets up, plastic mechanism 42 includes the plastic motor, the slip of plastic motor below is provided with the plastic head, turn over mechanism 43 in advance including turning over the motor in advance, it is connected with the head of turning over in advance to turn over the motor in advance, flat turn over mechanism 44 including the flat turn over motor, the flat turn over motor is connected with the flat turn over head.

The utility model discloses a further set up to: the feeding die 34 is of a square block structure, a die hole is formed in the middle of the feeding die 34, a fixed die is arranged in the die hole and fixed on the feeding die 34 through a flange, and the right side of the fixed die is of a cylindrical structure.

The utility model discloses a further set up to: the feeding die 34 is provided with a sliding hole, the feeding sliding rod 33 penetrates through the sliding hole, a feeding sliding block is arranged below the feeding die 34, a feeding line rail is further arranged below the feeding die 34, and the feeding sliding block is matched with the feeding line rail.

The utility model discloses a further set up to: the feeding cylinder 32 is connected with a feeding telescopic rod, and the feeding telescopic rod is fixedly connected with the feeding die 34.

The utility model discloses a further set up to: the feeding and discharging support 21 is provided with a feeding and discharging cylinder which is connected with an upper feeding and discharging fixed block in a sliding mode, and the feeding and discharging fixed block is provided with a feeding and discharging clamping jaw 22.

The utility model discloses a further set up to: the guide plate is vertically fixed on the mounting plate 41 through a bolt, and a shaping track is arranged on the inner side of the guide plate; a shaping telescopic rod is arranged below the shaping motor, a shaping connecting plate is arranged on the shaping telescopic rod in a sliding mode, a shaping head is fixed on the shaping connecting plate, shaping sliding blocks are arranged on two sides of the shaping connecting plate, and the shaping sliding blocks are matched with the shaping rail; the transverse sliding rail comprises an upper rail and a lower rail, the middle of the upper rail is provided with a shaping groove, the shaping groove is located under the shaping head, and the lower rail is provided with a sliding groove.

The utility model discloses a further set up to: the pre-turning motor is fixed on the mounting plate 41 through a pre-turning fixing plate, the pre-turning motor is connected with a first rotating shaft, a first transmission belt is sleeved on the first rotating shaft, the other end of the first transmission belt is connected with a first ball nut, a first screw rod is rotatably arranged in the first ball nut, a pre-turning mounting block is arranged on the first screw rod, and a pre-turning head is fixed on the pre-turning mounting block; the flat-turning motor is fixed on the mounting plate 41 through a flat-turning fixing plate, the flat-turning motor is connected with a second rotating shaft, a second driving belt is sleeved on the second rotating shaft, the other end of the second driving belt is connected with a second ball nut, a second screw rod is arranged in the second ball nut in a rotating mode, a flat-turning mounting block is arranged on the second screw rod, and a flat-turning head is fixed on the flat-turning mounting block.

The working principle is as follows: the method comprises the steps that a bimetallic bearing needing flanging is placed on a feeding die of a feeding mechanism through a feeding and discharging mechanism, the feeding die is conveyed to a flanging mechanism through a feeding cylinder, a workpiece is turned up to a side with a certain angle through a pre-turning mechanism, a machining head is automatically changed into a flat turning mechanism, then the flat turning mechanism carries out fine flanging on the workpiece, the side is turned flat, the flat turning head returns to the original taste, finally, according to the actual situation, a shaping mechanism above the workpiece automatically carries out fine shaping on the workpiece, the workpiece is sent back through the feeding mechanism after the fine shaping is completed, and finally, a finished product is placed on a discharging track through a feeding and discharging clamping jaw of the feeding and discharging mechanism.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a turn-ups equipment for bimetal bearing processing, includes frame (1), its characterized in that: the automatic feeding and discharging device is characterized in that a feeding and discharging mechanism (2) is arranged on the rack (1), a feeding mechanism (3) is further arranged on the side surface of the feeding and discharging mechanism (2), a flanging mechanism (4) is arranged on the left side of the feeding mechanism (3), the feeding and discharging mechanism (2) comprises a feeding and discharging support (21), and a feeding and discharging clamping jaw (22) is slidably arranged on the feeding and discharging support (21);

the feeding mechanism (3) comprises a feeding support (31), a feeding cylinder (32) is arranged on the feeding support (31), four feeding slide bars (33) are further arranged on the feeding support (31), and a feeding die (34) is arranged on the feeding slide bars (33) in a sliding manner;

turn-ups mechanism (4) are including turn-ups mounting panel (41), it is provided with plastic mechanism (42) to slide turn-ups mounting panel (41) top, mounting panel (41) left side is provided with turns over mechanism (43) in advance, mounting panel (41) right side is provided with flat turn-over mechanism (44), mounting panel (41) top bilateral symmetry is provided with two deflectors, mounting panel (41) below is provided with transverse slide rail, turn over mechanism (43) in advance with flat turn-over mechanism (44) symmetry sets up, plastic mechanism (42) are including the plastic motor, the slip of plastic motor below is provided with the plastic head, turn over mechanism (43) in advance including turning over the motor in advance, it turns over the head in advance to turn over the motor connection in advance to turn over the motor in advance, flat turn over mechanism (44) including the flat turn-over motor, the flat turn over the motor and be connected with the flat turn-over the head.

2. The flanging device for machining the bimetallic bearing according to claim 1, characterized in that: the feeding die (34) is of a square block structure, a die hole is formed in the middle of the feeding die (34), a fixed die is arranged in the die hole and fixed on the feeding die (34) through a flange, and the right side of the fixed die is of a cylindrical structure.

3. The flanging device for machining the bimetallic bearing according to claim 2, characterized in that: the feeding die is characterized in that a sliding hole is formed in the feeding die (34), the feeding sliding rod (33) penetrates through the sliding hole, a feeding sliding block is arranged below the feeding die (34), a feeding line rail is further arranged below the feeding die (34), and the feeding sliding block is matched with the feeding line rail.

4. The flanging device for machining the bimetallic bearing according to claim 1, characterized in that: the feeding cylinder (32) is connected with a feeding telescopic rod, and the feeding telescopic rod is fixedly connected with the feeding die (34).

5. The flanging device for machining the bimetallic bearing according to claim 1, characterized in that: the feeding and discharging mechanism is characterized in that a feeding and discharging cylinder is arranged on the feeding and discharging support (21), the feeding and discharging cylinder is connected with an upper feeding and discharging fixed block in a sliding mode, and a feeding and discharging clamping jaw (22) is arranged on the feeding and discharging fixed block.

6. The flanging device for machining the bimetallic bearing according to claim 1, characterized in that: the guide plate is vertically fixed on the mounting plate (41) through a bolt, and a shaping rail is arranged on the inner side of the guide plate; a shaping telescopic rod is arranged below the shaping motor, a shaping connecting plate is arranged on the shaping telescopic rod in a sliding mode, a shaping head is fixed on the shaping connecting plate, shaping sliding blocks are arranged on two sides of the shaping connecting plate, and the shaping sliding blocks are matched with the shaping rail; the transverse sliding rail comprises an upper rail and a lower rail, the middle of the upper rail is provided with a shaping groove, the shaping groove is located under the shaping head, and the lower rail is provided with a sliding groove.

7. The flanging device for machining the bimetallic bearing according to claim 1, characterized in that: the pre-turning motor is fixed on the mounting plate (41) through a pre-turning fixing plate, the pre-turning motor is connected with a first rotating shaft, a first transmission belt is sleeved on the first rotating shaft, the other end of the first transmission belt is connected with a first ball nut, a first screw rod is rotatably arranged in the first ball nut, a pre-turning mounting block is arranged on the first screw rod, and a pre-turning head is fixed on the pre-turning mounting block; the flat-turning motor is fixed on the mounting plate (41) through a flat-turning fixing plate, the flat-turning motor is connected with a second rotating shaft, a second driving belt is sleeved on the second rotating shaft, the other end of the second driving belt is connected with a second ball nut, a second screw rod is arranged in the second ball nut in a rotating mode, a flat-turning mounting block is arranged on the second screw rod, and a flat-turning head is fixed on the flat-turning mounting block.

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