CN112893530A

CN112893530A - Bearing bush pressing device for auto-parts

Info

Publication number: CN112893530A
Application number: CN202110056435.8A
Authority: CN
Inventors: 王照生
Original assignee: Jiangxi Chenghui Auto Parts Manufacturing Co ltd
Current assignee: Shenzhen 101digital Products Co ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2021-06-04
Anticipated expiration: 2041-01-15
Also published as: CN112893530B

Abstract

The invention relates to a bearing bush pressing and processing device for automobile accessories, which comprises a base, a fixed seat, an n-shaped frame, a cylinder, a circular pressing block, a feeding hopper, a shaping mechanism and a material guide mechanism, wherein the fixed seat is fixedly connected to the middle part of one side of the base, and the feeding hopper is fixedly connected to the middle part of one side of the fixed seat and communicated with the fixed seat. According to the invention, the iron sheet is placed in the fixing seat to be in contact with the shaping mechanism, the cylinder is started to drive the circular pressing block to move downwards, the circular pressing block moves downwards to drive the iron sheet to move downwards, the iron sheet moves downwards to drive the shaping mechanism to operate, the positioning mechanism drives the material guiding mechanism to operate, and the circular pressing block presses the iron sheet into the bearing bush through the positioning mechanism and the material guiding mechanism.

Description

Bearing bush pressing device for auto-parts

Technical Field

The invention relates to a processing device, in particular to a bearing bush pressing processing device for automobile accessories.

Background

In the auto-parts manufacturing process, the axle bush is then one of them, and the preparation of axle bush then need use the iron sheet, need press into the arc with the iron sheet, and the iron sheet has also just also been made into the axle bush, and at present, most all are that the staff is held the instrument and is pressed into the arc with the iron sheet, need the people to make strong with the instrument with the iron sheet press into the arc, and time is long, and is more hard, and long-time use tool, and the easy ache of hand leads to work efficiency to reduce.

Therefore, a special need exists for a bearing bush pressing device for auto parts, which can replace manual work to press iron sheets into a bearing bush, is labor-saving and has high working efficiency, so as to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects that the working efficiency is reduced because the iron sheet is pressed into an arc shape by a tool which needs to be forced by people, the time is long, the labor is hard, and the hand is easy to ache when the tool is used for a long time, the invention has the technical problems that: the utility model provides a can replace the manual work to press into the axle bush with the iron sheet, it is more laborsaving, and axle bush suppression processingequipment for auto-parts that work efficiency is high.

The technical scheme is as follows: the utility model provides a bearing bush suppression processingequipment for auto-parts, is including base, fixing base, n type frame, cylinder, circular briquetting, feeder hopper, forming mechanism and guide mechanism, base one side middle part rigid coupling has the fixing base, and the feeder hopper rigid coupling is in fixing base one side middle part and intercommunication, and n type frame rigid coupling in fixing base one side, the cylinder is fixed to cross-under in n type frame one side middle part, and circular briquetting rigid coupling is in the telescopic link tip of cylinder for press the iron sheet into the bearing bush, forming mechanism installs in the fixing base, and guide mechanism installs one side in the fixing base, its and forming mechanism contact cooperation.

Preferably, the setting mechanism is including the design movable block, contact wheel and spring post, the connection of design movable block rotary type both sides in the fixing base, contact wheel rotary type connect in the design movable block inner, its with guide mechanism contact cooperation, the connection of spring post rotary type both sides in the fixing base, its tail end is connected with design movable block one side rotary type.

Preferably, the guide mechanism includes reference column, design elevator and reset spring, the location post interval slidingtype place in fixing base one side, its quantity is four, design elevator rigid coupling between four reference column one ends, and it and contact wheel contact cooperation, reset spring connect between design elevator one side and fixing base are inside.

Preferably, the material pushing device further comprises a material pushing mechanism, wherein the material pushing mechanism comprises a mounting seat, a servo motor, a driving shaft, a first transmission assembly, a rotating shaft, a driving gear, a driven rack and a material pushing block, the mounting seat is fixedly connected to one side of the base, the driven rack is slidably arranged inside the mounting seat, the material pushing block is slidably arranged on one side of the mounting seat, one side of the material pushing block is fixedly connected with one end of the driven rack, the rotating shaft is connected between two sides of the mounting seat in a rotating mode, the driving gear is fixedly sleeved on the circumferential direction of one side of the rotating shaft, the servo motor is arranged on one side of the base, the driving shaft is fixedly connected to the end portion of.

Preferably, the material stopping mechanism also comprises a material stopping mechanism, the material stopping mechanism comprises a second transmission assembly, a guide wheel, a transmission gear, a toothed stop block, positioning guide pillars, positioning springs, a blanking plate and a rotating rod, the rotating rod is rotatably connected between two sides in the fixed seat, the transmission gear is symmetrically and fixedly sleeved on the rotating rod, the guide wheels are rotatably connected between two sides in the mounting seat, the number of the two guide pillars is two, the second transmission assembly is connected between the circumferential direction of one side of the rotating shaft and the circumferential direction of one side of the rotating rod, the number of the two second transmission assemblies is two, the second transmission assembly bypasses the guide wheel to be matched with the guide wheel, the toothed stop block is slidably connected to one side of the fixed seat and meshed with the transmission gear, the positioning guide pillars are symmetrically and fixedly connected in the base, the tail ends of the two second transmission assemblies are positioned in the toothed stop block, the positioning guide pillars, the blanking plate is sleeved on the positioning guide post, is fixedly connected to one side of the fixed seat and is in an inclined state.

Preferably, the automatic feeding device further comprises a feeding mechanism, wherein the feeding mechanism comprises a feeding box, an L-shaped stress frame, a spring rope, a one-way shaft, a rotation column with a ratchet wheel, a ratchet block, a roller wheel and a limiting column, the feeding box is fixedly connected to one side of the base and matched with the feeding hopper, the rotation type with the ratchet rotation column is symmetrically connected between two sides of the feeding box in a penetrating manner, the roller wheel is fixedly sleeved on the circumference of one side of the rotation column with the ratchet wheel and located in the feeding box, the one-way shaft is rotatably connected to one end of the rotation column with the ratchet wheel and matched with the rotation column with the one side of the one-way shaft, the L-shaped stress frame is fixedly connected to the circumference of one side of the one-way shaft and matched with the circular pressing block in a contacting manner, the spring rope is fixedly connected between one side of the two L-shaped stress frames, the limiting column is symmetrically fixedly connected to one side of.

Preferably, still including receiving mechanism, receiving mechanism is including connecing workbin, damping spring and sponge case, connect workbin rigid coupling in base one side, the sponge case slidingtype place in connecing the workbin, its and lower flitch cooperation, damping spring connect outside the sponge case one side with connect between the workbin one side.

Preferably, still including buffer gear, buffer gear is including buffer frame, buffer spring, support post, spring bolt and locking spring, buffer frame slidingtype cross-under in last workbin one side, buffer frame wherein both ends run through last workbin one side, support post rigid coupling in one side of one-way shaft, the spring bolt slidingtype place in support post one side, its and buffer frame contact cooperation, locking spring connect between spring bolt one end and support post are inside, the wire winding of buffer spring symmetry formula connect in buffer frame between one side and last workbin one side.

The invention has the following advantages:

1. through putting into the iron sheet in the fixing base and the contact of forming mechanism, start the cylinder and drive circular briquetting and move down, circular briquetting moves down and drives the iron sheet and move down, and the iron sheet moves down and drives the forming mechanism function, and positioning mechanism drives guide mechanism function, and circular briquetting is then pressed into the axle bush with the iron sheet through positioning mechanism and guide mechanism, so, need not the manual axle bush that presses into with the iron sheet of people, and is more laborsaving.

2. Through the effect of pushing equipment, can push off the axle bush from the fixing base in, so, more convenient collection to the axle bush is handled.

3. Through the effect of feed mechanism, can make the iron sheet drop to in the fixing base with the contact of design movable block, so, need not operating personnel and put into the fixing base with the hand iron sheet always in, labour saving and time saving.

Drawings

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

FIG. 2 is a schematic diagram of a first partial structure according to the present invention.

FIG. 3 is a second partial structure diagram of the present invention.

Fig. 4 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

In the above drawings: 1: base, 2: fixing base, 3: n-type frame, 31: cylinder, 32: circular briquette, 33: feed hopper, 4: shaping mechanism, 41: shaping movable block, 42: contact wheel, 43: spring post, 5: material guide mechanism, 51: positioning post, 52: design elevator, 53: return spring, 6: pushing equipment, 61: mount, 62: servo motor, 63: drive shaft, 64: first transmission assembly, 65: rotating shaft, 66: drive gear, 67: driven rack, 68: pusher block, 7: stock stop, 71: second transmission assembly, 72: guide wheel, 73: transmission gear, 74: toothed stopper, 75: positioning guide post, 76: positioning spring, 77: blanking plate, 78: rotating rod, 8: feed mechanism, 81: feeding box, 82: l-shaped stress frame, 83: spring string, 84: one-way shaft, 85: ratcheted rotary column, 86: ratchet block, 87: roller, 88: spacing post, 9: receiving mechanism, 91: a material receiving box, 92: damping spring, 93: sponge case, 10: damping mechanism, 101: buffer frame, 102: buffer spring, 103: support column, 104: a latch bolt, 105: a locking spring.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example (b): a bearing bush pressing device for automobile parts;

referring to fig. 1 and 2, including base 1, fixing base 2, n type frame 3, cylinder 31, circular briquetting 32, feeder hopper 33, forming mechanism 4 and guide mechanism 5, the rigid coupling has fixing base 2 in the middle of the 1 top of base, the rigid coupling has feeder hopper 33 in the middle of the 2 tops of fixing base, the rigid coupling has n type frame 3 between 2 tops of fixing base front and back both sides, install cylinder 31 in the middle of the 3 tops of n type frame, the telescopic link tip rigid coupling of cylinder 31 has circular briquetting 32, the bottom is equipped with guide mechanism 5 in the fixing base 2, both sides are equipped with forming mechanism 4 around in the fixing base 2.

The shaping mechanism 4 comprises a shaping movable block 41, a contact wheel 42 and a spring column 43, wherein the upper parts of the front side surface and the rear side surface in the fixing seat 2 are rotatably connected with the shaping movable block 41, the lower parts of the inner ends of the shaping movable blocks 41 on the front side and the rear side are rotatably connected with the contact wheel 42, the contact wheel 42 is in contact fit with the material guide mechanism 5, the middle parts of the front side surface and the rear side surface in the fixing seat 2 are rotatably connected with the spring column 43, and the inner end of the spring column 43 is rotatably connected with the outer side surface.

The material guiding mechanism 5 comprises positioning columns 51, a shaping lifting block 52 and a return spring 53, the positioning columns 51 are symmetrically placed in a left-right sliding mode on the front side and the rear side of the bottom in the fixing base 2, the shaping lifting block 52 is fixedly connected between the top ends of the four positioning columns 51, the shaping lifting block 52 is in contact fit with the contact wheel 42, and the return spring 53 is connected between the middle of the bottom of the shaping lifting block 52 and the bottom in the fixing base 2.

Firstly, an operator puts an iron sheet into the fixed seat 2 to contact with the shaping mechanism 4, the air cylinder 31 is started, the telescopic rod of the air cylinder 31 extends to drive the circular pressing block 32 to move downwards, the circular pressing block 32 moves downwards to contact with the iron sheet through the feed hopper 33, the circular pressing block 32 drives the iron sheet to move downwards, the iron sheet moves downwards to drive the shaping mechanism 4 to operate, the shaping mechanism 4 enables the iron sheet to be in an arc shape, the shaping mechanism 4 also drives the material guide mechanism 5 to move downwards, the iron sheet moves downwards to contact with the material guide mechanism 5, the material guide mechanism 5 enables the iron sheet to be in an arc shape, when the iron sheet is completely pressed into an arc shape, the iron sheet is pressed into a bearing bush, the telescopic rod of the air cylinder 31 is shortened to drive the circular pressing block 32 to move upwards to reset, the air cylinder 31 is closed, the circular pressing block 32 is reset to be separated from the bearing bush, the shaping mechanism 4 drives the bearing bush, the operator can take off the axle bush from the fixing base 2, so repeatedly, can be constantly with pressing into the axle bush with the iron sheet.

When the circular pressing block 32 drives the iron sheet to move downwards, the iron sheet moves downwards to contact with the shaping movable block 41 to drive the shaping movable block to swing downwards, the spring column 43 is compressed, the shaping movable block 41 swings downwards to drive the contact wheel 42 to swing downwards, the contact wheel 42 swings downwards to drive the material guiding mechanism 5 to move downwards, when the shaping movable block 41 swings downwards to the maximum stroke, the shaping movable block 41 stops swinging downwards, the circular pressing block 32 presses the iron sheet into an arc shape through the shaping movable block 41, when the iron sheet is pressed into a shaft bush, the starting air cylinder 31 drives the circular pressing block 32 to move upwards to reset, the circular pressing block 32 is separated from the shaft bush, due to the action of the spring column 43, the shaping movable block 41 swings upwards to drive the shaft bush to move upwards to a proper position, the shaping movable block 41 also drives the contact wheel 42 to swing upwards to reset, the contact wheel 42 does not limit the material guiding mechanism 5, and the material guiding mechanism 5 also moves upwards to reset, the operator can take off the axle bush from the fixing base 2.

When the contact wheel 42 swings downwards, the contact wheel 42 drives the shaping lifting block 52 to move downwards, the return spring 53 is compressed, the shaping lifting block 52 moves downwards to drive the positioning column 51 to move downwards, and then the contact wheel 42 stops driving the shaping lifting block 52 to move downwards, the circular pressing block 32 further presses the iron sheet into an arc shape through the shaping lifting block 52, and the iron sheet is pressed into a bearing bush. When the contact wheel 42 swings upwards to reset, the contact wheel 42 does not limit the fixed lifting block 52, and the fixed lifting block 52 moves upwards to drive the positioning column 51 to move upwards to reset under the action of the reset spring 53.

Referring to fig. 1, fig. 3, fig. 4 and fig. 5, the device further includes a pushing mechanism 6, the pushing mechanism 6 includes a mounting seat 61, a servo motor 62 and a driving shaft 63, first transmission assembly 64, a rotating shaft 65, a driving gear 66, a driven rack 67 and a material pushing block 68, a mounting seat 61 is fixedly connected to the middle of the right side of the top of the base 1, the driven rack 67 is slidably placed on the upper portion of the mounting seat 61, the material pushing block 68 is slidably placed on the upper portion of the left side of the mounting seat 61, the right side of the material pushing block 68 is fixedly connected with the left end of the driven rack 67, the rotating shaft 65 is rotatably connected to the left side of the upper portion of the mounting seat 61, the driving gear 66 is circumferentially fixedly connected to the rear side of the rotating shaft 65, the driving gear 66 is meshed with the driven rack 67, a servo motor 62 is installed on the right portion of the front side of the top of the base 1, a driving shaft 63 is fixedly connected to the end of.

The material stopping mechanism 7 further comprises a material stopping mechanism 7, wherein the material stopping mechanism 7 comprises a second transmission assembly 71, a guide wheel 72, a transmission gear 73, a toothed stop block 74, a positioning guide post 75, a positioning spring 76, a blanking plate 77 and a rotating rod 78, the rotating rod 78 is rotatably connected in the middle of the lower side in the fixed seat 2, the transmission gear 73 is fixedly connected in the circumferential direction of the front side and the rear side of the rotating rod 78, two groups of guide wheels 72 are rotatably connected in the left side of the lower side in the installation seat 61, two second transmission assemblies 71 are connected between the circumferential direction of the middle part of the rotating rod 78 and the circumferential direction of the rear part of the rotating shaft 65, the second transmission assemblies 71 are in contact fit with the guide wheels 72, the toothed stop block 74 is connected in a sliding manner in the middle of the left part of the fixed seat 2, the toothed stop block 74 is meshed with the transmission gear 73, two positioning guide posts 75 are fixedly connected in an embedded manner on the left side of the, the positioning spring 76 is sleeved on the positioning guide post 75, the middle part of the left side surface of the fixed seat 2 is fixedly connected with a blanking plate 77, and the blanking plate 77 is in an inclined state.

The automatic feeding device also comprises a feeding mechanism 8, wherein the feeding mechanism 8 comprises a feeding box 81, an L-shaped stress frame 82, a spring rope 83, a one-way shaft 84, a rotation column 85 with a ratchet wheel, a ratchet block 86, a roller 87 and a limiting column 88, the middle of the left side of the top of the base 1 is fixedly connected with the feeding box 81, the feeding box 81 is matched with the feeding hopper 33, the ratchet rotation column 85 with the ratchet wheel is rotatably connected between the front part of the left side and the rear part of the left side of the feeding box 81 and between the front part of the left side and the rear part of the right side, the roller 87 is fixedly sleeved on the rotation column 85 with the ratchet wheel, the roller 87 is positioned in the feeding box 81, the middle part of the right end of the rotation column 85 with the ratchet wheel is rotatably connected with the one-way shaft 84, the one-way shaft 84 is in contact fit with the rotation column 85 with the ratchet wheel, the L-shaped stress frame 82 is circumferentially fixedly connected, limiting columns 88 are symmetrically and fixedly connected to the lower portion of the outer right side surface of the upper material box 81 in a front-back mode, the limiting columns 88 are matched with the L-shaped stress frame 82, ratchet blocks 86 are rotatably connected to the front side and the rear side of the lower portion of the outer right side surface of the upper material box 81, and the ratchet blocks 86 are meshed with the rotating columns 85 with the ratchet wheels.

When the shaping movable block 41 drives the bearing bush to move upwards to a proper position, the servo motor 62 is started to rotate reversely, the servo motor 62 rotates reversely to drive the driving shaft 63 to rotate reversely, the driving shaft 63 rotates reversely to drive the first transmission assembly 64 to rotate reversely, the first transmission assembly 64 rotates reversely to drive the rotating shaft 65 to rotate reversely, the rotating shaft 65 rotates reversely to drive the driving gear 66 to rotate reversely, the driving gear 66 rotates reversely to drive the driven rack 67 to move leftwards, the driven rack 67 moves leftwards to drive the material pushing block 68 to move leftwards, the material pushing block 68 moves leftwards to be in contact with the bearing bush to push the material pushing block to move leftwards to be separated from the fixing seat 2, the bearing bush falls onto the base 1, at the moment, the servo motor 62 is started to rotate forwards. Therefore, the bearing bush is more convenient to collect and treat.

When the shaping movable block 41 swings upwards to drive the bearing bush to move upwards to a proper position, the toothed block 74 blocks the bearing bush to limit the bearing bush, when the servo motor 62 is started to rotate reversely, the rotating shaft 65 rotates reversely to drive the second transmission assembly 71 to rotate reversely, the second transmission assembly 71 drives the rotating rod 78 to rotate reversely, the rotating rod 78 rotates reversely to drive the transmission gear 73 to rotate reversely, the transmission gear 73 rotates reversely to drive the toothed block 74 to move downwards, the positioning spring 76 is compressed, the toothed block 74 moves downwards without blocking the bearing bush, the pushing block 68 moves leftwards to push the bearing bush to move leftwards to be separated from the fixed seat 2, the bearing bush falls onto the blanking plate 77, and the bearing bush on the blanking plate 77 falls onto the base 1, when the rotating shaft 65 is rotated forwardly and returned, the rotating shaft 65 drives the rotating rod 78 to rotate forwardly and return through the second transmission assembly 71, the transmission gear 73 drives the toothed block 74 to move upwardly and return, and the positioning spring 76 also returns. Therefore, the bearing bush can be prevented from falling out of the fixed seat 2.

Initially, the spring rope 83 is in a stretched state, firstly, an operator puts a proper amount of iron sheet into the feeding box 81, the contact between the iron sheet and the roller 87 is limited, the telescopic rod of the starting cylinder 31 extends to drive the round pressing block 32 to move downwards, the round pressing block 32 moves downwards to be separated from the L-shaped stress frame 82, due to the action of the spring rope 83, the L-shaped stress frame 82 swings upwards to drive the one-way shaft 84 to rotate outwards, the ratchet block 86 prevents the ratchet rotating column 85 from rotating outwards, the one-way shaft 84 does not drive the ratchet rotating column 85 to rotate outwards, when the L-shaped stress frame 82 swings upwards to contact with the limiting column 88, the L-shaped stress frame 82 stops swinging upwards, the one-way shaft 84 stops rotating outwards, when the round pressing block 32 moves upwards to reset, the round pressing block 32 drives the L-shaped stress frame 82 to swing downwards to reset, the L-shaped stress frame 82 swings downwards to drive the one-way shaft 84 to rotate inwards, the one-way shaft 84 rotates inwards to drive the ratchet wheel rotating column 85 to rotate inwards, the ratchet wheel rotating column 85 rotates inwards to drive the roller 87 to rotate inwards, the roller 87 rotates inwards to drive the lowest iron sheet to move downwards, when the lowest iron sheet moves downwards and is separated from the roller 87, the iron sheet falls to the bottom of the upper material box 81, the iron sheet in the upper material box 81 slides into the feed hopper 33, the iron sheet also falls into the fixed seat 2 to be contacted with the sizing movable block 41, the cylinder 31 is started to be started again to drive the circular pressing block 32 to move downwards to press the iron sheet into a bearing bush, and the operation is repeated, so that one iron sheet can continuously fall into the fixed seat 2 to be contacted with the sizing movable block 41 to be pressed into the bearing bush. Therefore, an operator is not required to put the iron sheet into the fixed seat 2 by hands all the time, and time and labor are saved.

Referring to fig. 1, 2, 4 and 5, the material receiving device comprises a material receiving mechanism 9, wherein the material receiving mechanism 9 comprises a material receiving box 91, a damping spring 92 and a sponge box 93, the material receiving box 91 is fixedly connected to the middle of the left side of the top of the base 1, the material receiving box 91 is located below the material discharging plate 77, the sponge box 93 is placed in the material receiving box 91 in a sliding mode, and the damping spring 92 is connected between the middle of the outer bottom of the sponge box 93 and the inner bottom of the material receiving box 91.

Still including buffer gear 10, buffer gear 10 is including buffer frame 101, buffer spring 102, support post 103, spring bolt 104 and locking spring 105, the cross-under of slidingtype has buffer frame 101 between the both sides around the bottom of going up workbin 81, buffer frame 101 right-hand member runs through workbin 81 right side, buffer frame 101 interior top front and back both sides respectively with go up workbin 81 in around having buffer spring 102 between the both sides around the bottom, the rigid coupling has support post 103 in the middle of the one-way shaft 84 bottom, support post 103 left surface lower part slidingtype has placed spring bolt 104, spring bolt 104 and buffer frame 101 contact cooperation, be connected with locking spring 105 between spring bolt 104 right-hand member and the support post 103 inside.

When the axle bush in flitch 77 drops, the axle bush drops to in the sponge case 93, because of damping spring 92's effect, sponge case 93 can cushion the axle bush. When a proper amount of bearing bushes are arranged in the sponge box 93, an operator can take out the bearing bushes from the sponge box 93 and collect the bearing bushes. Therefore, the bearing bush can be prevented from falling to the base 1 violently to cause damage.

When the circular pressing block 32 moves downwards to be separated from the L-shaped stress frame 82, the L-shaped stress frame 82 drives the one-way shaft 84 to rotate outwards, the one-way shaft 84 rotates outwards to drive the supporting upright post 103 to rotate outwards, the supporting upright post 103 rotates outwards to drive the bolt 104 to rotate outwards, the bolt 104 rotates outwards to be separated from the buffer frame 101, further, when the circular pressing block 32 moves upwards to reset and drives the L-shaped stress frame 82 to swing downwards, when the L-shaped stress frame 82 drives the one-way shaft 84 to rotate inwards, the one-way shaft 84 rotates inwards to drive the supporting upright post 103 to rotate inwards, the supporting upright post 103 rotates inwards to drive the bolt 104 to rotate inwards, at the moment, the roller 87 also rotates inwards to drive the lowermost iron sheet to move downwards to fall, the iron sheet falls onto the buffer frame 101, the iron sheet drives the buffer frame 101 to move downwards, the buffer spring 102 compresses, and when the buffer frame 101 moves downwards to the maximum stroke, the buffer frame 101 stops moving, the iron sheet slides from the buffer frame 101 to the feeding hopper 33, and then falls into the fixed seat 2, the buffer frame 101 moves upwards to contact with the latch 104 due to the action of the buffer spring 102, and the buffer frame 101 slides over the latch 104 to reset due to the action of the locking spring 105. Thus, the iron sheet can be prevented from falling down to the bottom of the upper bin 81 violently to cause damage.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a bearing bush suppression processingequipment for auto-parts, a serial communication port, including base (1), fixing base (2), n type frame (3), cylinder (31), circular briquetting (32), feeder hopper (33), forming mechanism (4) and guide mechanism (5), base (1) one side middle part rigid coupling has fixing base (2), feeder hopper (33) rigid coupling in fixing base (2) one side middle part and intercommunication, n type frame (3) rigid coupling in fixing base (2) one side, cylinder (31) fixed cross-under in n type frame (3) one side middle part, circular briquetting (32) rigid coupling in the telescopic link tip of cylinder (31) for press into the bearing bush with the iron sheet, forming mechanism (4) are installed in fixing base (2), one side in fixing base (2) is installed in guide mechanism (5), its and forming mechanism (4) contact fit.

2. The bearing bush pressing machining device for the automobile accessories is characterized in that the shaping mechanism (4) comprises a shaping movable block (41), a contact wheel (42) and a spring column (43), the shaping movable block (41) is rotatably connected to the two sides in the fixed seat (2), the contact wheel (42) is rotatably connected to the inner end of the shaping movable block (41) and is in contact fit with the material guide mechanism (5), the spring column (43) is rotatably connected to the two sides in the fixed seat (2), and the tail end of the spring column is rotatably connected with one side of the shaping movable block (41).

3. The bearing bush pressing machining device for the automobile accessories is characterized in that the material guiding mechanism (5) comprises positioning columns (51), shaping lifting blocks (52) and return springs (53), the positioning columns (51) are arranged on one side of the fixed seat (2) in a sliding mode at intervals, the number of the positioning columns is four, the shaping lifting blocks (52) are fixedly connected among one ends of the four positioning columns (51) and are in contact fit with the contact wheels (42), and the return springs (53) are connected between one side of the shaping lifting blocks (52) and the inside of the fixed seat (2).

4. The bearing bush pressing machining device for the automobile accessories is characterized by further comprising a material pushing mechanism (6), wherein the material pushing mechanism (6) comprises a mounting seat (61), a servo motor (62), a driving shaft (63), a first transmission assembly (64), a rotating shaft (65), a driving gear (66), a driven rack (67) and a material pushing block (68), the mounting seat (61) is fixedly connected to one side of the base (1), the driven rack (67) is slidably arranged in the mounting seat (61), the material pushing block (68) is slidably arranged on one side of the mounting seat (61), one side of the material pushing block is fixedly connected with one end of the driven rack (67), the rotating shaft (65) is rotatably connected between two sides of the mounting seat (61), the driving gear (66) is fixedly sleeved on the circumferential direction of one side of the rotating shaft (65), the servo motor (62) is arranged on one side of the base (1), the driving shaft (63) is fixedly connected to the end part of an output shaft of the servo motor (62), and the first transmission assembly (64) is connected between the circumferential direction of one side of the rotating shaft (65) and the circumferential direction of one side of the driving shaft (63).

5. The bearing bush pressing machining device for the automobile accessories is characterized by further comprising a material blocking mechanism (7), wherein the material blocking mechanism (7) comprises a second transmission assembly (71), a guide wheel (72), a transmission gear (73), a toothed block (74), a positioning guide post (75), a positioning spring (76), a blanking plate (77) and a rotating rod (78), the rotating rod (78) is rotatably connected between two sides inside the fixed seat (2), the transmission gear (73) is symmetrically and fixedly sleeved on the rotating rod (78), the guide wheel (72) is rotatably connected between two sides inside the installation seat (61), the number of the guide wheel is two, the second transmission assembly (71) is connected between the circumferential direction of one side of the rotating shaft (65) and the circumferential direction of one side of the rotating rod (78), the number of the second transmission assembly (71) bypasses the guide wheel (72) and is matched with the guide wheel, the toothed stop block (74) is slidably connected to one side of the fixed seat (2) in a penetrating mode and meshed with the transmission gear (73), the positioning guide pillar (75) is symmetrically and fixedly connected to the inside of the base (1), the tail end of the positioning guide pillar is located in the toothed stop block (74), the positioning guide pillar (75) is in sliding fit with the toothed stop block (74), the positioning spring (76) is symmetrically connected between one side of the toothed stop block (74) and the inside of the base (1) and sleeved on the positioning guide pillar (75), and the blanking plate (77) is fixedly connected to one side of the fixed seat (2) and is in an inclined state.

6. The bearing bush pressing machining device for the automobile accessories is characterized by further comprising a feeding mechanism (8), wherein the feeding mechanism (8) comprises a feeding box (81), an L-shaped stress frame (82), a spring rope (83), a one-way shaft (84), a rotating column (85) with a ratchet wheel, a ratchet block (86), a roller (87) and a limiting column (88), the feeding box (81) is fixedly connected to one side of the base (1) and matched with the feeding hopper (33), the rotating column (85) with the ratchet wheel is symmetrically and rotatably connected between two sides of the feeding box (81), the roller (87) is fixedly sleeved on the circumferential direction of one side of the rotating column (85) with the ratchet wheel and is located in the feeding box (81), the one-way shaft (84) is rotatably connected to one end of the rotating column (85) with the ratchet wheel and matched with the rotating column, the L-shaped stress frame (82) is fixedly connected to the circumferential direction of one side of the one-way shaft (84), the ratchet wheel type loading device is in contact fit with a circular pressing block (32), a spring rope (83) is fixedly connected between one side of each L-shaped stress frame (82), a limiting column (88) is symmetrically and fixedly connected to one side of the outer side of the loading box (81) and matched with the L-shaped stress frame (82), and a ratchet block (86) is symmetrically and rotatably connected to one side of the outer side of the loading box (81) and meshed with a rotating column (85) with a ratchet wheel.

7. The bearing bush pressing device for the automobile accessories is characterized by further comprising a material receiving mechanism (9), wherein the material receiving mechanism (9) comprises a material receiving box (91), a damping spring (92) and a sponge box (93), the material receiving box (91) is fixedly connected to one side of the base (1), the sponge box (93) is placed in the material receiving box (91) in a sliding mode and matched with the material discharging plate (77), and the damping spring (92) is connected between the outer side of the sponge box (93) and the inner side of the material receiving box (91).

8. The bearing bush pressing machining device for the automobile accessories is characterized by further comprising a buffering mechanism (10), wherein the buffering mechanism (10) comprises a buffering frame (101), a buffering spring (102), a supporting upright post (103), a bolt (104) and a locking spring (105), the buffer frame (101) is slidably connected to one side of the upper feed box (81), two ends of the buffer frame (101) penetrate through one side of the upper feed box (81), the support upright post (103) is fixedly connected to one side of the one-way shaft (84), the bolt (104) is slidably placed on one side of the support upright post (103), the buffer spring is in contact fit with the buffer frame (101), the locking spring (105) is connected between one end of the lock tongue (104) and the inside of the supporting upright post (103), and the buffer spring (102) is symmetrically wound between the inner side of the buffer frame (101) and the inner side of the upper feed box (81).