CN215091875U - Full-automatic shaft part bearing servo press - Google Patents

Abstract

The utility model provides a full-automatic shaft part bearing servo press, which comprises a frame, wherein the top of the frame is provided with a working table plate, and the working table plate is provided with a fixed pressing mechanism, a sliding pressing mechanism, a driving mechanism, a shaft part receiving and feeding mechanism, a bearing feeding mechanism, a lifting mechanism, a feeding mechanism, a discharging mechanism and a shaft part limiting mechanism; whole device simple structure, with low costs and degree of automation is high, and the pressure equipment precision is guaranteed, can reject the axle type part that machining dimension has a problem in advance, avoids getting into the finished product assembly, and the unilateral or the bilateral bearing pressure equipment simultaneously of the axle type part of applicable multiple model need not to shut down in the use and can supply the product, very big promotion production efficiency.

Description

Full-automatic shaft part bearing servo press

Technical Field

The utility model relates to a bearing press field especially relates to a servo press of full-automatic axle type part bearing.

Background

Most of the existing full-automatic bearing presses adopt a six-shaft mechanical arm or a truss mechanical arm to be used as a structure for grabbing products, and the bearing press is high in cost and large in occupied space, small in applicable model range, long in product replacement time and low in production efficiency.

Therefore, a full-automatic shaft part bearing servo press is urgently needed, and the problems that the existing bearing press is high in cost, small in use model range and low in production efficiency can be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic axle type part bearing servo press to solve the above-mentioned problem that current bearing press is with high costs, use the model scope little, production efficiency is low.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides a full-automatic shaft part bearing servo press, which comprises a frame, wherein a working table plate is arranged at the top of the frame, a fixed pressing mechanism is fixedly arranged on the upper surface of the working table plate, a sliding pressing mechanism is slidably arranged on the opposite side of the fixed pressing mechanism, the fixed pressing mechanism and the sliding pressing mechanism are oppositely arranged, and a driving mechanism is connected to the outer side of the sliding pressing mechanism;

the inner sides of the fixed pressing mechanism and the sliding pressing mechanism are both provided with a shaft receiving and sending part mechanism, the two shaft receiving and sending part mechanisms are arranged in a mirror image mode, each shaft receiving and sending part mechanism comprises a shaft receiving and sending part slide rail, a shaft receiving and sending part slide block is slidably arranged on each shaft receiving and sending part slide rail, each shaft receiving and sending part slide block is connected with a feeding block, the upper surface of each feeding block is provided with two limiting grooves, and each feeding block is connected with a feeding cylinder;

the upper part of the fixed pressing mechanism and the upper part of the sliding pressing mechanism are both provided with bearing feeding mechanisms, the two bearing feeding mechanisms are arranged in a mirror image mode, each bearing feeding mechanism comprises three bearing fixing columns which are arranged in a surrounding mode, bearings are limited in the three bearing fixing columns, the lower ends of the bearing fixing columns are obliquely provided with bearing grooves, the lower parts of the bearing fixing columns are provided with push plate cylinders, the push plate cylinders are connected with push plates, the push plates are used for pushing the bearings in the bearing fixing columns to the bearing grooves, the bottoms of the bearing fixing columns are provided with bearing sleeve seats, the bearing sleeve seats are connected with stop block cylinders, the stop block cylinders are connected with stop blocks, and the stop blocks are located at the tail ends of the bearing grooves;

a lifting mechanism is arranged between the fixed pressing mechanism and the sliding pressing mechanism, the lifting mechanism is arranged on the working table plate, the front end of the lifting mechanism is connected with the feeding mechanism in a bearing mode, the tail end of the lifting mechanism is connected with the discharging mechanism in a bearing mode, and the feeding mechanism and the discharging mechanism are both arranged in an inclined mode;

the working table plate is also provided with a fixed tailstock, an optical axis is arranged between the fixed tailstock and the fixed pressing mechanism, the optical axis is connected with a shaft part limiting mechanism, and the shaft part limiting mechanism is positioned right above the lifting mechanism;

still include PLC, actuating mechanism, two pay-off cylinder, two push pedal cylinder, two the dog cylinder lift mechanism the feeding mechanism the discharge mechanism with axle type part stop gear all with PLC electric connection, be used for to PLC feedback pressure numerical value.

Preferably, a slide rail is fixed on the upper surface of the working table plate, a slide block is slidably arranged on the slide rail, and the sliding pressing mechanism is fixed at the top end of the slide block.

Preferably, the fixed pressing mechanism comprises a fixed end seat, a fixed bearing press-fitting tool is arranged on the inner side of the fixed end seat, the fixed bearing press-fitting tool is received below the receiving groove on the side, the push plate cylinder on the side is fixed at the top end of the fixed end seat, and the shaft part receiving and feeding slide rail and the feeding cylinder on the side are fixed on the inner side of the fixed end seat and located below the fixed bearing press-fitting tool.

Preferably, the sliding pressing mechanism comprises a sliding end seat, a sliding bearing press-fitting tool is arranged on the inner side of the sliding end seat, the sliding bearing press-fitting tool is received below the receiving groove on the side, the push plate cylinder on the side is fixed on the top end of the sliding end seat, and the receiving and feeding shaft part sliding rail and the feeding cylinder on the side are fixed on the inner side of the sliding end seat and located below the sliding bearing press-fitting tool.

Preferably, the driving mechanism comprises a first motor, the first motor is electrically connected with the PLC, a first synchronizing wheel is arranged at an output end of the first motor, the first synchronizing wheel is in transmission connection with a second synchronizing wheel, the second synchronizing wheel is in transmission connection with a driving screw rod, and the driving screw rod is connected with the sliding end support through a first guide shaft support.

Preferably, a pressure sensor is arranged between the first guide shaft support and the sliding end support, and the pressure sensor is electrically connected with the PLC.

Preferably, the lifting mechanism comprises a second motor, the second motor is electrically connected with the PLC, a third synchronizing wheel is arranged at an output end of the second motor, the third synchronizing wheel is in transmission connection with a fourth synchronizing wheel, the fourth synchronizing wheel is in transmission connection with a lifting lead screw, the lifting lead screw is connected with a lifting support plate through a bearing seat, a shaft part is fixed on the upper surface of the lifting support plate and used for placing a V-shaped block, two limit grooves are formed in the upper surface of the shaft part for placing the V-shaped block, the side portions of the shaft part are provided with inclined planes, the front end of the shaft part for placing the V-shaped block is in bearing connection with the feeding mechanism, and the tail end of the shaft part is in bearing connection with the discharging mechanism.

Preferably, the feeding mechanism comprises a shaft part feeding limiting section bar, the shaft part feeding limiting section bar is slidably arranged on the rack through a first sliding block and is obliquely fixed in the front of the shaft part where the V-shaped block is arranged, the tail end of the shaft part feeding limiting section bar is provided with a blocking shaft, the blocking shaft is connected with a blocking cylinder, the shaft part feeding limiting section bar is provided with a feeding detector, and the blocking cylinder and the feeding detector are both electrically connected with the PLC.

Preferably, the discharging mechanism comprises a shaft part discharging limiting section bar, the shaft part discharging limiting section bar is slidably arranged on the rack through a second sliding block and is obliquely fixed behind the shaft part placing V-shaped block, a discharging detector is arranged on the shaft part discharging limiting section bar, and the discharging detector is electrically connected with the PLC.

Preferably, axle type part stop gear includes spacing cylinder, spacing cylinder with the optical axis is connected, spacing cylinder is connected with the connecting block, the connecting block is connected with the stopper, the stopper is located axle type part places the V-arrangement piece directly over.

The utility model discloses following beneficial technological effect has been gained for prior art:

the utility model provides a full-automatic axle type part bearing servo press, which comprises a frame, wherein the top of the frame is provided with a working table plate, and the working table plate is provided with a fixed pressing mechanism, a sliding pressing mechanism, a driving mechanism, an axle type part receiving and feeding mechanism, a bearing feeding mechanism, a lifting mechanism, a feeding mechanism, a discharging mechanism and an axle type part limiting mechanism; whole device simple structure, with low costs and degree of automation is high, and the pressure equipment precision is guaranteed, can reject the axle type part that machining dimension has a problem in advance, avoids getting into the finished product assembly, and the bearing pressure equipment of the axle type part of applicable multiple model need not to shut down in the use and can supply the product, very big promotion production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of a full-automatic shaft part bearing servo press provided by the present invention;

fig. 2 is a schematic structural view of a part of a driving mechanism in a full-automatic shaft part bearing servo press provided by the present invention;

fig. 3 is a schematic structural view of a part of a mechanism for receiving and feeding shaft parts in a full-automatic shaft part bearing servo press provided by the present invention;

fig. 4 is a schematic structural view of a bearing feeding mechanism in a full-automatic shaft part bearing servo press provided by the utility model;

fig. 5 is a schematic view of a part of the structure of a lifting mechanism in a full-automatic shaft part bearing servo press provided by the present invention;

fig. 6 is a schematic structural view of a feeding mechanism in a full-automatic shaft bearing servo press provided by the present invention;

fig. 7 is a schematic structural view of a part of a discharging mechanism in a full-automatic shaft part bearing servo press provided by the present invention;

fig. 8 is a schematic structural view of a part of a middle shaft part limiting mechanism of a full-automatic shaft part bearing servo press provided by the present invention;

in the figure: 1: frame, 2: work table, 3: fixing and pressing mechanism, 31: fixed end seat, 32: fixing bearing press-fitting tool, 4: slide pressing mechanism, 41: sliding end seat, 42: slide bearing pressure equipment frock, 5: drive mechanism, 51: first motor, 52: first synchronizing wheel, 53: second synchronizing wheel, 54: drive screw, 55: first guide shaft support, 56: pressure sensor, 6: shaft part receiving and sending mechanism and 61: receiving and sending shaft part sliding rails, 62: receiving and sending shaft part sliding blocks, 63: a feeding block, 64: feeding cylinder, 7: bearing feeding mechanism, 71: bearing fixing column, 72: receiving groove, 73: push plate cylinder, 74: push plate, 75: block cylinder, 76: a stop block and 8: lifting mechanism, 81: second motor, 82: third synchronizing wheel, 83: fourth synchronizing wheel, 84: lifting screw rod, 85: bearing seat, 86: lifting pallet, 87: v-shaped block and 9 are placed on the shaft parts: feeding mechanism, 91: shaft part feeding limiting section bar, 92: first slider, 93: blocking shaft, 94: blocking cylinder, 95: feeding detector, 10: discharge mechanism, 101: shaft part discharging limit profile, 102: second slider, 103: discharge detector, 11: fixed tailstock, 12: optical axis, 13: shaft part limiting mechanism, 131: limiting cylinder, 132: connecting block, 133: stopper, 14: slide rail, 15: a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing a full-automatic axle type part bearing servo press to solve the problem that current bearing press is with high costs, the usage model scope is little, production efficiency is low.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example 1:

the embodiment provides a full-automatic shaft part bearing servo press, which comprises a frame 1, wherein a working table plate 2 is arranged at the top of the frame 1, a fixed pressing mechanism 3 is fixedly arranged on the upper surface of the working table plate 2, a sliding pressing mechanism 4 is slidably arranged on the opposite side of the fixed pressing mechanism 3, the fixed pressing mechanism 3 and the sliding pressing mechanism 4 are oppositely arranged, and a driving mechanism 5 is connected to the outer side of the sliding pressing mechanism 4; the inner sides of the fixed pressing mechanism 3 and the sliding pressing mechanism 4 are both provided with a shaft part receiving and feeding mechanism 6, the two shaft part receiving and feeding mechanisms 6 are arranged in a mirror image mode, each shaft part receiving and feeding mechanism 6 comprises a shaft part receiving and feeding slide rail 61, a shaft part receiving and feeding slide block 62 is slidably arranged on each shaft part receiving and feeding slide rail 61, each shaft part receiving and feeding slide block 62 is connected with a feeding block 63, the upper surface of each feeding block 63 is provided with two limiting grooves, and each feeding block 63 is connected with a feeding cylinder 64; the upper portion of the fixed pressing mechanism 3 and the upper portion of the sliding pressing mechanism 4 are both provided with bearing feeding mechanisms 7, the two bearing feeding mechanisms 7 are arranged in a mirror image mode, each bearing feeding mechanism 7 comprises three bearing fixing columns 71 which are arranged in a surrounding mode, bearings to be pressed and mounted are limited in the three bearing fixing columns 71, the lower ends of the bearing fixing columns 71 are obliquely provided with bearing grooves 72, the lower portions of the bearing fixing columns 71 are provided with push plate cylinders 73, the push plate cylinders 73 are connected with push plates 74, the push plates 74 are used for pushing the bearings in the bearing fixing columns 71 to the bearing grooves 72, the bottoms of the bearing fixing columns 71 are provided with bearing sleeve seats, the bearing sleeve seats are connected with stop block cylinders 75, the stop block cylinders 75 are connected with stop blocks 76, and the stop blocks 76 are located at the tail ends of the bearing grooves 72; a lifting mechanism 8 is arranged between the fixed pressing mechanism 3 and the sliding pressing mechanism 4, the lifting mechanism 8 is arranged on the working table plate 2, the front end of the lifting mechanism 8 is connected with a feeding mechanism 9 in a bearing mode, the tail end of the lifting mechanism is connected with a discharging mechanism 10 in a bearing mode, and the feeding mechanism 9 and the discharging mechanism 10 are both arranged in an inclined mode; the working table plate 2 is also provided with a fixed tailstock 11, an optical axis 12 is arranged between the fixed tailstock 11 and the fixed pressing mechanism 3, the optical axis 12 is connected with a shaft part limiting mechanism 13, and the shaft part limiting mechanism 13 is positioned right above the lifting mechanism 8; the automatic feeding device is characterized by further comprising a PLC, wherein the driving mechanism 5, the two feeding cylinders 64, the two push plate cylinders 73, the two stop block cylinders 75, the lifting mechanism 8, the feeding mechanism 9, the discharging mechanism 10 and the shaft part limiting mechanism 13 are electrically connected with the PLC.

Specifically, a slide rail 14 is fixed on the upper surface of the work table plate 2, a slide block 15 is slidably arranged on the slide rail 14, and the sliding pressing mechanism 4 is fixed at the top end of the slide block 15.

Further, the fixed pressing mechanism 3 includes a fixed end seat 31, a fixed bearing press-fitting tool 32 is disposed inside the fixed end seat 31, the fixed bearing press-fitting tool 32 is received below the receiving groove 72, the push plate cylinder 73 on the side is fixed to the top end of the fixed end seat 31, and the shaft part receiving and feeding slide rail 61 and the feeding cylinder 64 on the side are fixed inside the fixed end seat 31 and located below the fixed bearing press-fitting tool 32.

Further, the sliding pressing mechanism 4 includes a sliding end seat 41, a sliding bearing press-fitting tool 42 is disposed inside the sliding end seat 41, the sliding bearing press-fitting tool 42 is received below the side receiving groove 72, the push plate cylinder 73 on the side is fixed at the top end of the sliding end seat 41, and the shaft receiving and feeding part slide rail 61 and the feeding cylinder 64 on the side are fixed inside the sliding end seat 41 and below the sliding bearing press-fitting tool 42.

Further, as shown in fig. 2, the driving mechanism 5 includes a first motor 51, the first motor 51 may be a servo motor or a step motor, the first motor 51 is electrically connected to the PLC, an output end of the first motor 51 is provided with a first synchronizing wheel 52, the first synchronizing wheel 52 is in transmission connection with a second synchronizing wheel 53, the second synchronizing wheel 53 is in transmission connection with a driving screw 54, and the driving screw 54 is connected to the sliding end base 41 through a first guiding shaft base 55.

Further, a pressure sensor 56 is arranged between the first guide shaft support 55 and the sliding end support 41, and the pressure sensor 56 is electrically connected with the PLC and can collect press-fitting pressure.

Further, as shown in fig. 5, the lifting mechanism 8 includes a second motor 81, the second motor 81 may adopt a servo motor or a stepping motor, the second motor 81 is electrically connected with the PLC, an output end of the second motor 81 is provided with a third synchronizing wheel 82, the third synchronizing wheel 82 is connected with a fourth synchronizing wheel 83 in a transmission manner, the fourth synchronizing wheel 83 is connected with a lifting screw 84 in a transmission manner, the lifting screw 84 is connected with a lifting support plate 86 through a bearing seat 85, an upper surface of the lifting support plate 86 is fixed with a shaft part for placing a V-shaped block 87, an upper surface of the shaft part for placing the V-shaped block 87 is provided with two limiting grooves, a side portion of the limiting grooves is provided with an inclined surface, a front end of the shaft part for placing the V-shaped block 87 is supported by the feeding mechanism 9, and a tail end of the shaft part is supported by the discharging mechanism 10.

Further, as shown in fig. 6, the feeding mechanism 9 includes a shaft-type part feeding limiting section 91, the shaft-type part feeding limiting section 91 is slidably disposed on the frame 1 through a first sliding block 92, and is obliquely fixed in front of the shaft-type part placing V-block 87, a blocking shaft 93 is disposed at the end of the shaft-type part feeding limiting section 91, the blocking shaft 93 is connected to a blocking cylinder 94, a feeding detector 95 is disposed on the shaft-type part feeding limiting section 91, the feeding detector 95 is used for monitoring the number of shaft-type parts on the shaft-type part feeding limiting section 91, and both the blocking cylinder 94 and the feeding detector 95 are electrically connected to the PLC for feeding pressure values back to the PLC.

Further, as shown in fig. 7, the discharging mechanism 10 includes a shaft part discharging limiting section 101, the shaft part discharging limiting section 101 is slidably disposed on the frame 1 through a second sliding block 102 and is obliquely fixed behind the shaft part placing V-block 87, a discharging detector 103 is disposed on the shaft part discharging limiting section 101, the discharging detector 103 is used for monitoring the number of shaft parts on the shaft part discharging limiting section 101, and the discharging detector 103 is electrically connected to the PLC.

Further, as shown in fig. 8, the shaft part limiting mechanism 13 includes a limiting cylinder 131, the limiting cylinder 131 is connected to the optical axis 12, the limiting cylinder 131 is connected to a connecting block 132, the connecting block 132 is connected to a limiting block 133, and the limiting block 133 is located right above the V-shaped block 87 for placing the shaft part.

The utility model provides a pair of full-automatic axle type part bearing servo press, its theory of operation is: the shaft parts to be pressed are placed on the shaft part feeding limiting section 91, the bearings to be pressed are respectively placed in the bearing fixing columns 71 on two sides for limiting, the PLC is started, the blocking shaft 93 is in a blocking state, the stop block 76 is also in a blocking state, when the pressing is started, the blocking cylinder 94 drives the blocking shaft 93 to fall down, the shaft parts to be pressed slide to the first limiting groove of the shaft part placing V-shaped block 87 under the action of gravity due to the inclined arrangement of the shaft part feeding limiting section 91, the shaft parts to be pressed are immediately reset by the driving of the blocking cylinder 94 at the moment, the shaft parts behind are blocked, the shaft parts placing V-shaped block 87 is lifted by the second motor 81 through the lifting screw rod 84, the feeding block 63 is moved forwards by the feeding cylinder 64, the shaft parts are placed in the V-shaped block 87 to fall down by the second motor 81, and then the shaft parts enter the first limiting groove of the feeding block 63, the feeding cylinder 64 moves the feeding block 63 backwards, meanwhile, the second motor 81 drives the shaft part placing V-shaped block 87 to rise again, the shaft part enters the second limit groove of the shaft part placing V-shaped block 87, the first groove similarly obtains a shaft part, at the moment, the push plate cylinder 73 drives the push plate 74 to push the bearing to be pressed at the bottommost part in the bearing fixing column 71 to the receiving groove 72 and respectively enters the fixed bearing press-fitting tool 32 and the sliding bearing press-fitting tool 42, at the moment, the stop block cylinder extends out of the stop block state to prevent the bearing from flying out when sliding, when the shaft part rises to be level with the fixed bearing press-fitting tool 32 and the sliding bearing press-fitting tool 42, at the moment, the feeding block resets, the limit cylinder 131 drives the limit block 133 to press the shaft part, the stop block cylinder 75 drives the stop block 76 to rise, the first motor 51 drives the driving screw 54 to slide the sliding end seat 41 towards the fixed end seat 31, the bearing is impressed the both ends of axle type part under the effect of pressure, first motor 51 drives drive lead screw 54 and keeps away from fixed end seat 31 with slip end seat 41, the V-arrangement piece 87 is placed to axle type part and falls once more, dog 76 is in the state of blockking simultaneously, the feed block is located the front end this moment, the axle type part that the pressure equipment was good falls into the second spacing inslot of feed block 63, axle type part is placed V-arrangement piece 87 and is risen once more, the axle type part that the pressure equipment is good is promoted by the inclined plane and is slided to next process on the spacing section bar 101 of ejection of compact, the axle type part of treating the pressure equipment repeats above-mentioned step.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete examples, and the explanation of the above examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present description should not be construed as a limitation of the present invention.

Claims (10)

1. The utility model provides a servo press of full-automatic axle type part bearing which characterized in that: the device comprises a rack, wherein a working table plate is arranged at the top of the rack, a fixed pressing mechanism is fixedly arranged on the upper surface of the working table plate, a sliding pressing mechanism is slidably arranged on the opposite side of the fixed pressing mechanism, the fixed pressing mechanism and the sliding pressing mechanism are oppositely arranged, and a driving mechanism is connected to the outer side of the sliding pressing mechanism;

the inner sides of the fixed pressing mechanism and the sliding pressing mechanism are both provided with a shaft receiving and sending part mechanism, the two shaft receiving and sending part mechanisms are arranged in a mirror image mode, each shaft receiving and sending part mechanism comprises a shaft receiving and sending part slide rail, a shaft receiving and sending part slide block is slidably arranged on each shaft receiving and sending part slide rail, each shaft receiving and sending part slide block is connected with a feeding block, the upper surface of each feeding block is provided with two limiting grooves, and each feeding block is connected with a feeding cylinder;

the upper part of the fixed pressing mechanism and the upper part of the sliding pressing mechanism are both provided with bearing feeding mechanisms, the two bearing feeding mechanisms are arranged in a mirror image mode, each bearing feeding mechanism comprises three bearing fixing columns which are arranged in a surrounding mode, bearings are limited in the three bearing fixing columns, the lower ends of the bearing fixing columns are obliquely provided with bearing grooves, the lower parts of the bearing fixing columns are provided with push plate cylinders, the push plate cylinders are connected with push plates, the push plates are used for pushing the bearings in the bearing fixing columns to the bearing grooves, the bottoms of the bearing fixing columns are provided with bearing sleeve seats, the bearing sleeve seats are connected with stop block cylinders, the stop block cylinders are connected with stop blocks, and the stop blocks are located at the tail ends of the bearing grooves;

a lifting mechanism is arranged between the fixed pressing mechanism and the sliding pressing mechanism, the lifting mechanism is arranged on the working table plate, the front end of the lifting mechanism is connected with the feeding mechanism in a bearing mode, the tail end of the lifting mechanism is connected with the discharging mechanism in a bearing mode, and the feeding mechanism and the discharging mechanism are both arranged in an inclined mode;

the working table plate is also provided with a fixed tailstock, an optical axis is arranged between the fixed tailstock and the fixed pressing mechanism, the optical axis is connected with a shaft part limiting mechanism, and the shaft part limiting mechanism is positioned right above the lifting mechanism;

still include PLC, actuating mechanism, two pay-off cylinder, two push pedal cylinder, two the dog cylinder lift mechanism the feeding mechanism the discharge mechanism with axle type part stop gear all with PLC electric connection.

2. The full-automatic shaft part bearing servo press of claim 1, wherein: the upper surface of the working table plate is fixed with a sliding rail, a sliding block is arranged on the sliding rail in a sliding mode, and the sliding pressing mechanism is fixed to the top end of the sliding block.

3. The full-automatic shaft part bearing servo press of claim 2, wherein: the fixed hold-down mechanism comprises a fixed end seat, a fixed bearing press-fitting tool is arranged on the inner side of the fixed end seat, the fixed bearing press-fitting tool is received below the receiving groove on the side, a push plate cylinder on the side is fixed at the top end of the fixed end seat, and a shaft part sliding rail and a feeding cylinder on the side are fixed on the inner side of the fixed end seat and located below the fixed bearing press-fitting tool.

4. The full-automatic shaft part bearing servo press of claim 3, wherein: the sliding pressing mechanism comprises a sliding end seat, a sliding bearing press-fitting tool is arranged on the inner side of the sliding end seat, the sliding bearing press-fitting tool is received below the receiving groove on the side, the push plate cylinder on the side is fixed on the top end of the sliding end seat, and the receiving and feeding shaft part sliding rail and the feeding cylinder on the side are fixed on the inner side of the sliding end seat and located below the sliding bearing press-fitting tool.

5. The full-automatic shaft part bearing servo press of claim 4, wherein: the driving mechanism comprises a first motor, the first motor is electrically connected with the PLC, a first synchronizing wheel is arranged at the output end of the first motor, the first synchronizing wheel is connected with a second synchronizing wheel in a transmission manner, the second synchronizing wheel is connected with a driving lead screw in a transmission manner, and the driving lead screw is connected with the sliding end seat through a first guide shaft support.

6. The full-automatic shaft part bearing servo press of claim 5, wherein: and a pressure sensor is arranged between the first guide shaft support and the sliding end seat, and the pressure sensor is electrically connected with the PLC and used for feeding back a pressure value to the PLC.

7. The full-automatic shaft part bearing servo press of claim 6, wherein: the lifting mechanism comprises a second motor, the second motor is electrically connected with the PLC, a third synchronizing wheel is arranged at the output end of the second motor, a fourth synchronizing wheel is connected in a transmission mode with the third synchronizing wheel, a lifting lead screw is connected in a transmission mode with the fourth synchronizing wheel, the lifting lead screw is connected with a lifting support plate through a bearing seat, shaft parts are fixed on the upper surface of the lifting support plate and are placed in V-shaped blocks, two limit grooves are formed in the upper surface, placed in the V-shaped blocks, of the shaft parts, inclined planes are arranged on the side portions of the shaft parts, the front end, placed in the V-shaped blocks, of the shaft parts is in bearing connection with the feeding mechanism, and the tail end of the shaft parts is in bearing connection with the discharging mechanism.

8. The full-automatic shaft part bearing servo press of claim 7, wherein: the feeding mechanism comprises a shaft part feeding limiting section bar, the shaft part feeding limiting section bar is slidably arranged on the rack through a first sliding block and is obliquely fixed in the front of the shaft part where the V-shaped block is arranged, a blocking shaft is arranged at the tail end of the shaft part feeding limiting section bar and is connected with a blocking cylinder, a feeding detector is arranged on the shaft part feeding limiting section bar, and the blocking cylinder and the feeding detector are both electrically connected with the PLC.

9. The full-automatic shaft part bearing servo press of claim 8, wherein: the discharging mechanism comprises a shaft part discharging limiting section bar, the shaft part discharging limiting section bar is slidably arranged on the rack through a second sliding block and is obliquely fixed at the rear part of the shaft part where the V-shaped block is arranged, a discharging detector is arranged on the shaft part discharging limiting section bar, and the discharging detector is electrically connected with the PLC.

10. The full-automatic shaft part bearing servo press of claim 9, wherein: the shaft part limiting mechanism comprises a limiting cylinder, the limiting cylinder is connected with the optical axis, the limiting cylinder is connected with a connecting block, the connecting block is connected with a limiting block, and the limiting block is located right above the shaft part for placing the V-shaped block.

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