CN112224854A - Aluminum-based bearing bush generating and feeding treatment process - Google Patents

Abstract

The invention relates to an aluminum-based bearing bush spreading and feeding treatment process, which is used for spreading and conveying a coiled bearing bush piece (1); the process is as follows; s1.1, firstly, sleeving a hollow coil of a coiled bearing bush piece (1) on a feeding central shaft (12) by hoisting through a crown block or a manipulator; then, the coiled bearing bush piece (1) presses down the inner end of a cantilever of the feeding top baffle (19) to enable the feeding top elastic pressing plate (21) to swing downwards; secondly, under the action of self weight, the coiled bearing bush piece (1) is pressed down to contact with the front surface of the feeding side jacking wedge (18), and meanwhile, under the action of oblique downward force, the feeding side jacking wedge (18) overcomes the elastic force of a feeding side spring rod (17) and moves outwards to abut against the outer side wall of the coiled bearing bush piece (1); the invention has reasonable design, compact structure and convenient use.

Description

Aluminum-based bearing bush generating and feeding treatment process

Technical Field

The invention relates to a processing technology for generating and feeding an aluminum-based bearing bush.

Background

The bearing bush is widely applied to marine diesel engines, particularly high-power diesel engines, the radius range of the inner hole of the bearing bush is larger than R500mm, and the problems of inconvenient operation and the like exist in the prior art. Generally, a bimetal material compounded by an aluminum base or a copper base and steel is adopted, a rotating shaft for the existing feeding is a horizontal shaft, the feeding is inconvenient, and the adjustment is needed. The surface of the bearing bush needs to be subjected to a series of treatments such as cutting, rolling, strengthening, bending and the like.

In the bearing bush machining industry, with the improvement of automation degree, different devices such as a boring machine and chamfering devices are often connected through a conveying belt so as to improve production efficiency. In fact, the prior art has been able to adapt the front and rear machines to integrated transport. However, in the machining process, the bearing bush faces leftwards after the front machine such as a boring machine is machined, and when the bearing bush enters a rear machine such as chamfering equipment, the machining requirement is that the bearing bush enters the equipment in a state of facing rightwards, the turning process can be finished only manually at present, and because the production capacity of the bearing bush is large, the process greatly increases the labor capacity and reduces the production efficiency. CN201320804939.4 a conveying device for automatically steering bearing bushes provides a conveying device, but it cannot meet the requirement of automation. In the course of working at present axle bush oil groove, the processing of axle bush oil groove all adopts the lathe, and is inefficient, and every shift does not exceed 1700, and intensity of labour is big, and manual clamping, hand cranking gilding plate feed still produce easily and collapse sword line or have edges and corners, can not guarantee the required precision. Although the CN201020289599.2 milling bearing bush oil groove device provides a processing scheme, the device cannot meet the processing modes of various oil grooves, and has poor universality and high cost. When the punch head punches the positioning lip of the bearing bush in the prior art, the bearing bush is easy to damage, and the punch head is easy to break. CN201020289581.2 is a milling device before punching a bearing bush positioning lip, but the defect of low processing precision still exists. In the CN201910643763.0 bearing bush processing system, the feeding part is easy to loosen, a deviation correcting mechanism is needed, and the feeding of a bearing bush piece is inconvenient; the transmission assembly has single function and cannot effectively utilize the transmission time; the single component assembly is manufactured, and the bending assembly is poor in effect, large in deformation and easy to rebound; pairing stations and difference of transmission lines; the excircle assembly is machined, and turning is inconvenient; machining the inner hole assembly with inaccuracy; the processing lip subassembly, the whereabouts is low, and the memory space is inconvenient.

Disclosure of Invention

The invention aims to solve the technical problem of providing an aluminum-based bearing bush generating and feeding treatment process.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

an aluminum-based bearing bush generating and feeding processing device comprises a feeding device used for generating and conveying coiled bearing bush pieces; the feeding device comprises a feeding rack; the feeding machine is characterized in that a feeding rotary base is arranged on the feeding rack, a feeding central shaft is rotatably arranged on the feeding rotary base, a hollow central sleeve of a coiled bearing bush piece is sleeved with the feeding central shaft, a feeding central step is arranged on the feeding central shaft and used for being in contact with the lower surface of the hollow central sleeve, and a feeding bottom bracket is arranged on the feeding central step.

As a further improvement of the above technical solution:

a feeding bottom bracket radial groove is radially arranged on the feeding bottom bracket; a feeding I-shaped guide block is radially moved on the feeding base support radial groove, a feeding radial moving seat is arranged at the lower end of the feeding I-shaped guide block, and a feeding bottom groove is formed in the bottom of the feeding radial moving seat; a feeding side wall rotating conical shaft is arranged on the feeding radial moving seat in an inverted active or passive self-rotating mode, a feeding side lower rotary table is arranged at the lower end of the feeding side wall rotating conical shaft, and a feeding side upper elastic gland is arranged at the upper end of the feeding side wall rotating conical shaft; the outer side wall of the coiled bearing bush piece is in rolling contact with the corresponding side wall of the feeding side wall rotating conical shaft; the feeding side lower rotary table is used for being in rotary contact with the lower bottom of the coiled bearing bush piece, and the feeding side upper elastic gland is used for being in rotary contact with the upper top of the coiled bearing bush piece;

a feeding rotary table seat is rotatably arranged below the feeding bottom bracket, and a feeding rotary guide groove is formed in the upper surface of the feeding rotary table seat; the groove at the bottom of the feeding is occluded on the feeding spiral-direction rotary-direction guide groove;

when the feeding rotary table seat rotates for one circle, the radial moving distances of all the feeding I-shaped guide blocks along the corresponding feeding bottom support radial grooves are equal to or less than the thickness of the coiled shaft bush piece.

A feeding side support is circumferentially arrayed on the feeding bottom bracket, a feeding side spring rod is radially and telescopically arranged on the feeding side support, the inner end of the feeding side spring rod is connected with the vertical back surface of a feeding side jacking wedge, and the front surface of the feeding side jacking wedge is an arc surface or an inclined surface and is used for elastically contacting with the outer side wall of a coiled bearing bush piece; the front faces of all the loading side jacking inclined wedges form a space with a large upper part and a small lower part so as to place the coiled shaft bushing piece.

A feeding top baffle is arranged above the feeding side ejection wedge, the outer end of the feeding top baffle is hinged to the feeding rack, and a feeding top reset spring is connected between the feeding top baffle and the feeding rack; a feeding top baffle plate with one-way limit is arranged above the feeding top baffle plate, a feeding top elastic pressure plate with the elastic coefficient smaller than that of a feeding top reset spring is arranged below the feeding top baffle plate, and a feeding top guide inclined plane is arranged at the upper inner end part of the feeding top elastic pressure plate; when the coiled bearing bush piece descends, the feeding top baffle is pressed downwards and opened; when the coiled bearing bush piece is in place, the feeding top baffle swings upwards in the reverse direction, and the feeding top elastic pressing plate is in pressure contact with the upper top of the coiled bearing bush piece;

the radius of the hollow sleeve of the coiled bearing bush piece is smaller than the distance from the inner end of the feeding top baffle plate to the central line of the feeding central shaft.

A plurality of elastic feeding bottom radial supporting rollers are radially distributed on the feeding bottom bracket and are used for rolling and contacting with the lower bottom plate of the coiled bearing bush piece;

a feeding output guide seat is rotatably arranged on the feeding bottom bracket and swings with the output of the coiled bearing bush piece, and a feeding output pair roller is vertically arranged on the feeding output guide seat and used for outputting the linear bearing bush piece; a feeding output fixing double roller is arranged on the outer side of the feeding output guide seat and is used for straightening the output bearing bush piece;

a feeding output guide roller is arranged on one side of the feeding output guide seat and is used for rolling contact with the outer side wall of the coiled bearing bush piece so as to align the output end of the bearing bush piece provided with the coil with the feeding output pair roller; and a feeding output guide arm is arranged on one side of the feeding output guide roller and is used for picking out the output end of the coiled bearing bush piece to the feeding output pair roller.

A processing technology for generating and feeding an aluminum-based bearing bush comprises the steps of S1, generating and conveying coiled bearing bush pieces; the process is as follows;

s1.1, firstly, sleeving a hollow coil sleeve of a coiled shaft bush piece on a feeding central shaft in a hoisting manner through a crown block or a manipulator; then, the coiled bearing bush piece presses the inner end of the cantilever of the feeding top baffle downwards, so that the feeding top elastic pressing plate swings downwards; secondly, under the action of self weight, the coiled bearing bush piece is in downward pressing contact with the front face of the feeding side ejection wedge, and meanwhile, under the action of oblique downward pressure, the feeding side ejection wedge overcomes the elasticity of a feeding side spring rod and moves outwards to abut against the outer side wall of the coiled bearing bush piece;

s1.2, after the coiled bearing bush piece descends to pass through the feeding top baffle, the feeding top elastic pressing plate reversely swings back by using the feeding top guide inclined plane until the feeding top elastic pressing plate is contacted with the feeding top stop block, and the feeding top elastic pressing plate is in pressure contact with the upper surface of the coiled bearing bush piece by using elasticity.

As a further improvement of the above technical solution:

s1.3, firstly, rotating a material rotating pedestal, wherein a material feeding rotating direction guide groove passes through a material feeding bottom groove to drive a material feeding I-shaped guide block to radially move and lean against the material feeding rotating direction guide groove, so that a material feeding side wall rotating conical shaft, a material feeding side lower rotating table and a material feeding side upper elastic gland are respectively in rotating contact with the outer side wall, the lower bottom plate and the upper top of a coiled bearing bush piece;

s1.4, firstly, removing a binding belt of the coiled bearing bush piece; and then, starting the feeding output guide arm to contact with the outer side wall of the coiled bearing bush piece, guiding the end head of the coiled bearing bush piece by the feeding output guide roller after the end head of the coiled bearing bush piece contacts with the feeding output guide arm, feeding the end head of the coiled bearing bush piece between the feeding output pair rollers of the feeding output guide seat in the well-adjusted direction, and outputting the end head of the coiled bearing bush piece between the feeding output pair rollers and the feeding output fixed pair rollers.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic (general) view of the overall usage structure of the present invention.

Fig. 2 is a schematic structural diagram (1.1) of the feeding device of the invention.

Fig. 3 is a schematic structural diagram (1.2) of another view angle of the feeding device of the invention.

Wherein: 1. a bearing bush member; 2. a transfer assembly; 3. a feeding device; 4. making a one-piece assembly; 5. bending the assembly; 6. pairing stations; 7. processing the excircle component; 8. machining an inner hole assembly; 9. and processing the lip assembly.

10. A feeding rack; 11. a feeding rotary base; 12. a feeding central shaft; 13. feeding a central step; 14. a feeding bottom bracket; 15. a feeding bottom bracket radial groove; 16. a feeding side support; 17. a feeding side spring rod; 18. a feeding side jacking wedge; 19. a feeding top baffle; 20. a feeding top stop block; 21. feeding a top elastic pressing plate; 22. a feeding top guide inclined plane; 23. a feeding top return spring; 24. a feeding radial moving seat; 25. a material loading bottom groove; 26. feeding an I-shaped guide block; 27. the feeding side wall rotates the conical shaft; 28. a feeding side lower rotary table; 29. an elastic gland is arranged on the feeding side; 30. a feeding bottom radial carrier roller; 31. a feeding output guide seat; 32. a feeding output pair roller; 33. a feeding output guide roller; 34. a feeding output guide arm; 35. a feeding rotary table seat; 36. the feeding is rotated to the rotating direction guide groove.

Detailed Description

As shown in fig. 1 to 3, the aluminum-based bearing shell generating and feeding processing device of the embodiment includes a feeding device 3 for generating and conveying a coiled bearing shell member 1; the feeding device 3 comprises a feeding rack 10; the feeding machine is characterized in that a feeding rotary base 11 is arranged on the feeding rack 10, a feeding central shaft 12 is rotatably arranged on the feeding rotary base 11 and used for sleeving a hollow central sleeve of the coiled bearing bush component 1, a feeding central step 13 is arranged on the feeding central shaft 12 and used for being in contact with the lower surface of the hollow central sleeve, and a feeding bottom bracket 14 is arranged on the feeding central step 13.

A feeding bottom bracket radial groove 15 is radially arranged on the feeding bottom bracket 14; a feeding I-shaped guide block 26 moves on the feeding bottom bracket radial groove 15 in the radial direction, a feeding radial moving seat 24 is arranged at the lower end of the feeding I-shaped guide block 26, and a feeding bottom groove 25 is arranged at the bottom of the feeding radial moving seat 24; a feeding side wall rotating conical shaft 27 is arranged on the feeding radial moving seat 24 in an inverted active or passive self-rotation mode, a feeding side lower rotary table 28 is arranged at the lower end of the feeding side wall rotating conical shaft 27, and a feeding side upper elastic gland 29 is arranged at the upper end of the feeding side wall rotating conical shaft 27; the outer side wall of the coiled bearing bush piece 1 is in rolling contact with the side wall of the corresponding feeding side wall rotating conical shaft 27; the feeding side lower rotary table 28 is used for being in rotary contact with the lower bottom of the coiled bearing bush piece 1, and the feeding side upper elastic gland 29 is used for being in rotary contact with the upper top of the coiled bearing bush piece 1;

a feeding rotary table seat 35 is rotatably arranged below the feeding bottom bracket 14, and a feeding rotary guide groove 36 is arranged on the upper surface of the feeding rotary table seat 35; the feeding bottom groove 25 is occluded on the feeding spiral direction rotating guide groove 36;

when the feeding rotary table seat 35 rotates one circle, the radial moving distances of all the feeding i-shaped guide blocks 26 along the corresponding feeding bottom bracket radial grooves 15 are equal to or less than the thickness of the coiled bearing bush element 1.

A feeding side support 16 is circumferentially arrayed on the feeding bottom bracket 14, a feeding side spring rod 17 is radially and telescopically arranged on the feeding side support 16, the inner end of the feeding side spring rod 17 is connected with the vertical back surface of a feeding side top wedge 18, and the front surface of the feeding side top wedge 18 is an arc surface or an inclined surface for elastically contacting with the outer side wall of the coiled bearing bush piece 1; the front faces of all the loading side top wedges 18 form a space with a large upper part and a small lower part for placing the coiled bearing bush pieces 1.

A feeding top baffle plate 19 is arranged above the feeding side ejection wedge 18, the outer end of the feeding top baffle plate 19 is hinged on the feeding rack 10, and a feeding top reset spring 23 is connected between the feeding top baffle plate 19 and the feeding rack 10; a feeding top stop 20 with one-way limiting function is arranged above the feeding top baffle 19, a feeding top elastic pressure plate 21 with the elastic coefficient smaller than a feeding top reset spring 23 is arranged below the feeding top baffle 19, and a feeding top guide inclined plane 22 is arranged at the upper inner end part of the feeding top elastic pressure plate 21; when the coiled shoe 1 goes down, the loading top flap 19 is pressed down and opened; when the coiled bearing bush component 1 is in place, the feeding top baffle 19 reversely swings upwards, and the feeding top elastic pressing plate 21 is in pressure contact with the top of the coiled bearing bush component 1;

the radius of the hollow sleeve of the coiled shoe 1 is smaller than the distance from the inner end of the feeding top apron 19 to the centre line of the feeding centre shaft 12.

A plurality of elastic feeding bottom radial supporting rollers 30 are radially distributed on the feeding bottom bracket 14 and are used for rolling contact with a lower bottom plate of the coiled bearing bush piece 1;

a feeding output guide seat 31 is rotatably arranged on the feeding bottom bracket 14, swings with the output of the coiled bearing bush piece 1, and a feeding output pair roller 32 is vertically arranged on the feeding output guide seat 31 and used for outputting the linear bearing bush piece 1; a feeding output fixing pair roller is arranged on the outer side of the feeding output guide seat 31 and used for straightening the output bearing bush piece 1;

a feeding output guide roller 33 is arranged on one side of the feeding output guide seat 31 and is used for rolling contact with the outer side wall of the coiled bearing bush piece 1 so as to align the output end of the bearing bush piece 1 provided with the coil with the feeding output pair roller 32; a feeding output guide arm 34 is provided at one side of the feeding output guide roller 33, for picking out the output end of the coiled shoe 1 to the feeding output pair roller 32.

In the aluminum-based bearing bush spreading and feeding treatment process of the embodiment, S1, the coiled bearing bush piece 1 is spread and conveyed; the process is as follows;

s1.1, firstly, sleeving a hollow coil of a coiled bearing bush piece 1 on a feeding central shaft 12 in a hoisting manner through a crown block or a manipulator; then, the coiled bearing bush component 1 presses down the inner end of the cantilever of the feeding top baffle 19, so that the feeding top elastic pressing plate 21 swings downwards; secondly, under the action of self weight, the coiled bearing bush piece 1 is pressed down to contact with the front surface of the feeding side jacking wedge 18, and meanwhile, under the action of oblique downward pressure, the feeding side jacking wedge 18 overcomes the elastic force of the feeding side spring rod 17 and moves outwards to abut against the outer side wall of the coiled bearing bush piece 1;

s1.2, after the coiled bearing bush piece 1 descends and passes through the feeding top baffle 19, the feeding top elastic pressing plate 21 reversely swings back by using the feeding top guide inclined plane 22 until the feeding top elastic pressing plate is contacted with the feeding top stop block 20, and then the feeding top elastic pressing plate 21 is in pressure contact with the upper surface of the coiled bearing bush piece 1 by using elasticity.

S1.3, firstly, rotating a material rotating pedestal 35, driving a material loading I-shaped guide block 26 to radially move and lean against a material loading rotating direction guide groove 36 through a material loading bottom groove 25, and enabling a material loading side wall rotating conical shaft 27, a material loading side lower rotating table 28 and a material loading side upper elastic gland 29 to be in rotating contact with the outer side wall, the lower bottom plate and the upper top of the coiled bearing bush piece 1 respectively;

s1.4, firstly, removing a binding belt of the coiled bearing bush piece 1; then, the feeding output guide arm 34 is started to contact with the outer side wall of the coiled bearing bush piece 1, and after the end of the coiled bearing bush piece 1 contacts the feeding output guide arm 34, the end of the coiled bearing bush piece 1 is guided by the feeding output guide roller 33, fed into the position between the feeding output pair rollers 32 of the feeding output guide seat 31 in the adjusted direction and output to the position between the feeding output fixed pair rollers.

As shown in fig. 1-3, the processing device realizes the processing of a bimetallic bearing bush piece 1, the transmission assembly realizes the transmission and adjustment of the bearing bush among all processes, the feeding device adopts a rotating shaft as a vertical central line to facilitate the hoisting, the deflection is avoided, the plane deformation of the bearing bush is avoided, a deviation correcting device is omitted, a single piece assembly is manufactured to realize the cutting of the single piece, the bending assembly realizes the uniform and stable stress release of the bearing bush through bending and pre-bending, the elastic deformation is reduced, the pairing stations realize the pairwise comparison of the bearing bushes, the database storage is realized through marking and uploading character numbers, the excircle multiple processing is realized by the processing of the excircle assembly, the multiple-process processing of an inner hole is realized by the processing of the inner hole assembly, and the pairing installation is realized after the processing of the lip assembly.

As shown in all figures, the feeding frame 10 is used as a support, the feeding rotating base 11 is used as a reference, the feeding central shaft 12 realizes rotary feeding, the feeding central step 13 realizes lifting bearing, the feeding bottom bracket 14 realizes bearing of the hollow sleeve, the feeding bottom bracket radial groove 15 realizes radial guiding movement, the feeding side support 16 is used as a reference, the feeding side spring rod 17 realizes elastic auxiliary support, so that the feeding side top wedge 18 clamps the axle bush piece in the radial direction to avoid looseness, the feeding top baffle 19 swings downwards to realize opening and closing, the feeding top baffle 20 realizes upward swing limit, the feeding top elastic press plate 21 realizes downward pressing on the top of the axle bush piece, the feeding top guiding inclined plane 22 is convenient for resetting the feeding top elastic press plate 21, the feeding top reset spring 23 realizes automatic resetting, the feeding radial moving base 24 realizes radial movement, the feeding bottom groove 25 and the feeding rotary direction rotary guide groove 36, preferably, the spiral groove is arranged on the end surface, so that the feeding I-shaped guide block 26 can move forwards or backwards at equal intervals in the radial direction at the same time, the feeding side wall rotating conical shaft 27 rotates and presses downwards at the inclined center, the axial jumping of the bearing bush piece during rotation is avoided, the feeding side lower rotary table 28 realizes the supporting of the outermost side of the bearing bush piece in rotating contact, thereby reducing the friction force, realizing the continuous pressing of the elastic gland 29 on the feeding side during the rotation, reducing the rotating friction force of the radial carrier roller 30 at the bottom of the feeding, realizing the guiding of the feeding output guide seat 31, realizing the free swing of the feeding output pair roller 32, therefore, the continuous output of the bearing bush piece is realized, the changes of the tangential direction and the curvature outer diameter caused by the fact that the coiling of the bearing bush piece is continuously reduced are reduced, the feeding output guide roller 33 realizes the guide, the feeding output guide arm 34 realizes the lifting of the output end of the bearing bush piece, and the feeding rotating pedestal 35 realizes the rotating carrying.

Claims (2)

1. An aluminum-based bearing bush generating and feeding treatment process is characterized in that: the coiled shaft bushing piece (1) is unfolded and conveyed; the process is as follows;

s1.1, firstly, sleeving a hollow coil of a coiled bearing bush piece (1) on a feeding central shaft (12) by hoisting through a crown block or a manipulator; then, the coiled bearing bush piece (1) presses down the inner end of a cantilever of the feeding top baffle (19) to enable the feeding top elastic pressing plate (21) to swing downwards; secondly, under the action of self weight, the coiled bearing bush piece (1) is pressed down to contact with the front surface of the feeding side jacking wedge (18), and meanwhile, under the action of oblique downward force, the feeding side jacking wedge (18) overcomes the elastic force of a feeding side spring rod (17) and moves outwards to abut against the outer side wall of the coiled bearing bush piece (1);

s1.2, after the coiled shaft bushing piece (1) descends to pass through the feeding top baffle (19), the feeding top elastic pressing plate (21) reversely swings back by using the feeding top guide inclined plane (22) until the feeding top elastic pressing plate is contacted with the feeding top stop block (20) and then stops, and the feeding top elastic pressing plate (21) is in pressure contact with the upper surface of the coiled shaft bushing piece (1) by using elasticity.

2. The aluminum-based bearing shell generating and loading treatment process as claimed in claim 1, wherein: s1.3, firstly, rotating a material-feeding rotating pedestal (35), wherein a material-feeding rotating direction rotating guide groove (36) drives a material-feeding I-shaped guide block (26) to radially move and lean against through a material-feeding bottom groove (25), so that a material-feeding side wall rotating conical shaft (27), a material-feeding side lower rotating table (28) and a material-feeding side upper elastic gland (29) are respectively in rotating contact with the outer side wall, the lower bottom plate and the upper top of a coiled shaft bush piece (1);

s1.4, firstly, removing a binding belt of the coiled bearing bush piece (1); and then, starting a feeding output guide arm (34) to be in contact with the outer side wall of the coiled shaft bush piece (1), and after the end of the coiled shaft bush piece (1) is in contact with the feeding output guide arm (34), guiding the end of the coiled shaft bush piece (1) by a feeding output guide roller (33), feeding the end of the coiled shaft bush piece (1) between feeding output roller pairs (32) of a feeding output guide seat (31) in the adjusted direction, and outputting the end of the coiled shaft bush piece between the feeding output fixed roller pairs.

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