CN219170120U - Automatic assembling equipment for connecting rod plates - Google Patents

Abstract

The utility model discloses automatic assembly equipment for a connecting rod plate, which comprises a frame, a bearing feeding group, a bearing assembly group, a clamp spring feeding group and a clamp spring assembly group, wherein the frame is provided with a plurality of clamping springs; the bearing feeding group is arranged on the bearing assembly group and used for pushing the bearing to the bearing pressing jig, and comprises a first fixing frame, a bearing bin, a first bin frame, a bearing pushing plate and a bearing cylinder, wherein the bearing cylinder pushes the bearing pushing plate to push the bearing of the bearing bin falling into the first bin frame to the bearing pressing jig; the clamping spring feeding group is arranged on the clamping spring assembly group and used for pushing the clamping springs to the clamping spring pressing jig, and comprises a second fixing frame, a clamping spring bin, a second bin frame, a clamping spring push plate and a clamping spring air cylinder, and the clamping spring push plate is pushed by the clamping spring air cylinder to push the clamping springs falling into the second bin frame from the clamping spring bin to the clamping spring pressing jig. According to the utility model, the bearing and the clamp spring can be respectively and automatically fed and aligned, so that the automatic assembly of the connecting rod plate is realized, and the assembly quality and the assembly efficiency are improved.

Description

Automatic assembling equipment for connecting rod plates

Technical Field

The utility model relates to the technical field of connecting rod plate assembly equipment, in particular to automatic connecting rod plate assembly equipment.

Background

The connecting rod plate is used for body-building equipment, the assembly holes are formed in the end portions of the connecting rod plate, the bearing and the clamp spring are assembled into the assembly holes respectively, the bearing assembly machine and the clamp spring assembly machine are arranged on equipment matched with the assembly, the bearing is assembled firstly, then the clamp spring is assembled, the existing assembly mode is mainly to manually grasp the connecting rod plate and place the connecting rod plate on a jig corresponding to the assembly, the bearing and the clamp spring are manually placed in sequence respectively, the assembly of the bearing and the clamp spring is carried out respectively, but the placement of the bearing and the clamp spring is needed to be aligned and placed, if the alignment is not carried out, the assembly equipment cannot finish accurate assembly in the assembly process, the assembly fails, the operation is needed again, the placement process of the bearing and the clamp spring occupies a large amount of time, and the manual placement has a certain experience on the requirement of operators, the subjectivity is strong, and the long-time operation requirement cannot be met, so the automatic feeding and alignment of the bearing and the clamp spring are required to be respectively, and the automatic assembly of the connecting rod plate is realized, and the assembly quality and the assembly efficiency are improved.

Disclosure of Invention

The utility model aims to provide automatic assembly equipment for a connecting rod plate.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the automatic connecting rod plate assembling device comprises a frame, a bearing feeding group, a bearing assembling group, a clamp spring feeding group and a clamp spring assembling group;

the bearing feeding group is arranged on the bearing assembly group and used for pushing a bearing to the bearing pressing jig, and comprises a first fixing frame, a bearing bin, a first bin frame, a bearing pushing plate and a bearing cylinder;

the clamping spring feeding set is arranged on the clamping spring assembly set and used for pushing the clamping springs to the clamping spring pressing jig, the clamping spring feeding set comprises a second fixing frame, a clamping spring bin, a second bin frame, a clamping spring pushing plate and a clamping spring cylinder, the second fixing frame is arranged on the clamping spring assembly set, the clamping spring bin is arranged on the second fixing frame through the second bin frame, and the clamping spring pushing plate is pushed to push the clamping springs falling into the second bin frame from the clamping spring bin to the clamping spring pressing jig through the clamping spring cylinder.

Further, the bearing feeding group further comprises a push plate supporting seat and a pressing plate, the push plate supporting seat is provided with a push plate sliding groove for sliding installation of the bearing push plate, the pressing plate is arranged on the push plate sliding groove through a bolt cover, the bearing cylinder is arranged at the bottom of the first fixing frame, the output part of the bearing cylinder is fixedly arranged at one end of the bearing push plate through a bolt, and the other end of the bearing push plate is inserted into the first bin frame and provided with a first pushing port with a bearing structure matched with.

Further, first feed bin frame includes bottom plate and fixing base, the bottom plate is installed on first mount and is offered towards the bearing blown down tank that the bearing tool was used for the bearing ejection of compact, the fixing base passes through the bolt to be installed on the bottom plate and is put in the top of bearing blown down tank, the communicating feed bin installing port from top to bottom has been seted up to the fixing base, the bearing feed bin inlays and establishes at the feed bin installing port, and its inside bearing falls into along the bearing blown down tank of feed bin installing port.

Further, the bearing feeding group further comprises a box changing cylinder, the output part of the box changing cylinder is arranged on the first fixing frame through a fixing block and a bolt, the bottom plate is arranged on the box changing cylinder through the bolt, at least two bearing discharging grooves are formed in the bottom plate, at least two fixing seats are arranged on the bottom plate, a bearing bin is respectively arranged on the two fixing seats, the box changing cylinder pushes the first bin frame to move on the first fixing frame, and the bearing bin matched with the bearing cylinder is replaced.

Further, the bearing assembly group comprises a first assembly frame, a bearing assembly machine, a bearing push head and a positioning cylinder, wherein a push head hole is formed in the top of the first assembly frame, a positioning hole is formed in the bottom of the first assembly frame, a first fixing frame is installed on the first assembly frame through bolts, the bearing assembly machine is installed at the top of the first assembly frame, an output part of the bearing assembly machine passes through the push head hole, is installed with the bearing push head and pushes the bearing push head to assemble a bearing to an assembly port of a connecting rod plate, and the positioning cylinder is installed at the bottom of the first assembly frame, passes through the positioning hole, is installed with a bearing pressing jig, and is connected with a positioning core rod of the bearing pressing jig and pushes the bearing push head to move up and down to be used for positioning a bearing on the assembly port of the connecting rod plate.

Further, the bearing pressing jig comprises a mounting plate, an assembly seat, a positioning block and a positioning core rod, wherein the mounting plate is fixedly arranged on the first assembly frame through a bolt, the assembly seat is arranged on the mounting plate and is provided with a positioning groove which is vertically communicated with the mounting plate, the positioning block is embedded in the positioning groove and is provided with a movable hole, and the positioning core rod is movably arranged in the movable hole and pushes the positioning core rod to move in the movable hole through a positioning cylinder so as to be used for positioning the bearing.

Further, the second fixing frame is provided with a left-right communicated clamp spring discharging groove, one end of the second fixing frame is provided with a guide block for guiding the clamp spring pushing plate through a bolt, a pressing block for pressing the clamp spring pushing plate is arranged above the guide block through a bolt, the second bin frame is arranged on the second fixing frame on two sides of the clamp spring discharging groove through a bolt, the clamp spring bin is arranged on the second bin frame, and the clamp spring inside the clamp spring bin falls into the clamp spring discharging groove along the clamp spring bin.

Further, the second bin frame is composed of two clamping blocks symmetrically, the two clamping blocks are provided with arc-shaped notches which are matched with the clamping spring bin and used for clamping the clamping spring bin to limit the clamping spring bin to move, the clamping blocks are provided with fixing holes and movably provided with fixing rods, and the clamping blocks are fixed between the two clamping blocks through the fixing rods inserted into side holes of the clamping spring bin.

Further, the jump ring assembly group includes second assembly jig, jump ring assembly machine, jump ring guide block and jump ring press the cover, the second mount passes through the bolt mounting on the second assembly jig, the jump ring assembly machine passes through the bolt mounting at second assembly jig top, its output downwardly directed press the jump ring tool and press the cover mutually with the jump ring, the jump ring is pressed the cover and is offered one and is pressed the installation cavity of guide block looks adaptation, through the jump ring assembly machine promotes the jump ring and presses the cover to reciprocate and place or retrieve the jump ring guide block on pressing the jump ring tool, and through the jump ring is pressed the cover will fall into the jump ring of jump ring guide block and assemble on the connecting rod board.

Further, the clamp spring pressing sleeve is provided with a clamping hole communicated with the mounting cavity on the side wall of the clamp spring pressing sleeve and is provided with a clamping air cylinder, the output part of the clamping air cylinder is provided with a clamping rod moving in the clamping hole, and the top of the clamp spring guide block is provided with a lock hole matched with the clamping rod.

After the technical scheme is adopted, compared with the background technology, the utility model has the following advantages:

1. according to the automatic feeding and automatic alignment device, automatic feeding and automatic alignment of the bearings are realized through the bearing feeding groups and the bearing assembly groups, the bearings are stored in the bearing storage bins of the bearing feeding groups, the bearings are pushed onto the bearing pressing jig by the bearing pushing plates pushed by the bearing cylinders, the connecting rod plates and the bearings are positioned through the bearing pressing jig, and then the bearings are assembled through the bearing assembly groups, so that automatic feeding, alignment and assembly of the bearings are realized.

2. According to the clamping spring feeding device, automatic feeding and automatic alignment of the clamping springs are achieved through the clamping spring feeding group and the clamping spring assembling group, the clamping springs are stored in the clamping spring storage bin of the clamping spring feeding group, the clamping spring pushing plate is pushed to push the clamping springs to the clamping spring pressing jig by utilizing the clamping spring air cylinder, the connecting rod plate and the clamping springs are positioned through the clamping spring pressing jig, and then the clamping springs are assembled through the clamping spring assembling group, so that automatic feeding, alignment and assembly of the clamping springs are achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a bearing assembly set and a bearing loading set according to the present utility model;

FIG. 3 is a schematic diagram illustrating the decomposition of the feed components of the bearing of the present utility model;

FIG. 4 is a schematic view of an exploded assembly component of the bearing of the present utility model;

FIG. 5 is a schematic diagram of a clamping spring assembly set and a clamping spring feeding set according to the present utility model;

fig. 6 is a schematic diagram of the decomposition of the feeding component of the clamping spring.

Reference numerals illustrate:

a frame 1; a bearing feeding group 2; a bearing assembly group 3; a clamp spring feeding group 4; a clamp spring assembly group 5; a press bearing jig 6; the clamp spring pressing jig 7; a first fixing frame 21; a bearing silo 22; a first magazine rack 23; a bearing push plate 24; a bearing cylinder 25; a push plate support 26; a pressing plate 27; a cartridge changing cylinder 28; a fixed block 29; a bottom plate 231; a fixing base 232; bearing discharge chute 233; a first mounting bracket 31; a bearing assembly machine 32; a bearing push head 33; a positioning cylinder 34; a second fixing frame 41; a clamp spring stock bin 42; a second magazine rack 43; a jump ring push plate 44; a clamp spring cylinder 45; jump ring discharge chute 46; a guide block 47; a briquette 48; a second mount 51; the jump ring assembly machine 52; a jump ring guide block 53; the clamp spring pressing sleeve 54; a clamping cylinder 55; a mounting plate 71; a mounting seat 72; a positioning block 73; the mandrel 74 is positioned.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It should be noted that, in the present utility model, terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are all based on the orientation or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element of the present utility model must have a specific orientation, and thus should not be construed as limiting the present utility model.

Examples

The utility model discloses automatic connecting rod plate assembling equipment which is matched with the figures 1 to 6, and comprises a frame 1, a bearing feeding group 2, a bearing assembling group 3, a clamp spring feeding group 4 and a clamp spring assembling group 5.

The bearing assembly group 3 and the jump ring assembly group 5 are respectively installed on the frame 1 through bolts, two bearing assembly groups 3 and two jump ring assembly groups 5 are respectively preferred and symmetrically arranged on the frame 1, the connecting rod plate is placed on the two bearing assembly groups 3 or the two jump ring assembly groups 5 for carrying out assembly operation on the bearing or the jump ring, a supporting column for supporting the connecting rod plate is arranged between the two assembly groups, and the number of the supporting columns is not limited in the embodiment.

The way of placing the connecting rod plate in the embodiment can be manual placement or mechanical arm placement, and is not limited.

The bearing feeding group 2 is arranged on the bearing assembly group 3 and used for pushing bearings to the bearing pressing jig 6, the bearing feeding group 2 comprises a first fixing frame 21, a bearing bin 22, a first bin frame 23, a bearing pushing plate 24 and a bearing cylinder 25, the first fixing frame 21 is arranged on the bearing assembly group 3, the bearing bin 22 is arranged on the first fixing frame 21 through the first bin frame 23, and the bearing pushing plate 24 is pushed by the bearing cylinder 25 to push bearings falling from the bearing bin 22 to the first bin frame 23 to the bearing pressing jig 6.

The bearing feeding group 2 further comprises a push plate supporting seat 26 and a pressing plate 27, the push plate supporting seat 26 is provided with a push plate sliding groove for sliding installation of the bearing push plate 24, the pressing plate 27 is arranged on the push plate sliding groove through a bolt cover and is installed with the push plate supporting seat, the bearing cylinder 25 is installed at the bottom of the first fixing frame 21, the output part of the bearing cylinder is fixedly installed with one end of the bearing push plate 24 through a bolt, and the other end of the bearing push plate 24 is inserted into the first stock bin frame 23 and provided with a first pushing port with a bearing structure matched with that.

The first bin frame 23 comprises a bottom plate 231 and a fixed seat 232, the bottom plate 231 is arranged on the first fixing frame 21 and provided with a bearing discharging groove 233 which faces the bearing pressing jig 6 and is used for bearing discharging, the fixed seat 232 is arranged on the bottom plate 231 through bolts and is arranged above the bearing discharging groove 233, the fixed seat 232 is provided with a bin mounting opening which is communicated up and down, the bearing bin 22 is embedded in the bin mounting opening, a bearing in the bearing bin is arranged along the bearing discharging groove 233 which falls into the bin mounting opening, the fixed seat 232 is provided with a jack and is internally and movably provided with an inserting rod, and the bearing bin is fixedly arranged on the first bin frame 23 through a side hole on the side wall of the bearing bin 22.

The bearing feeding set 2 further comprises a box changing cylinder 28, an output part of the box changing cylinder 28 is mounted on the first fixing frame 21 through a fixing block 29 and bolts, a bottom plate 231 is mounted on the box changing cylinder 28 through bolts, at least two bearing discharging grooves 233 are formed in the bottom plate 231, at least two fixing seats 232 are mounted on the bottom plate 231, a bearing bin 22 is mounted on the two fixing seats 232 respectively, the first bin frame 23 is pushed to move on the first fixing frame 21 through the box changing cylinder 28, and the bearing bin 22 matched with the bearing cylinder 25 is replaced.

By switching the bearing bins 22, there is no need to frequently replace the bearing bins 22, and the number of the bearing bins 22 is not limited in this embodiment, so that a worker can obtain whether the bins are empty or not at regular time or according to the detection sensor.

The bearing assembly group 3 comprises a first assembly frame 31, a bearing assembly machine 32, a bearing push head 33 and a positioning cylinder 34, wherein a push head hole is formed in the top of the first assembly frame 31, a positioning hole is formed in the bottom of the first assembly frame, a first fixing frame 21 is installed on the first assembly frame 31 through bolts, the bearing assembly machine 32 is installed on the top of the first assembly frame 31, the output part of the bearing assembly machine is installed and pushed to assemble a bearing to an assembly port of a connecting rod plate through the push head hole and the bearing push head 33, the positioning cylinder 34 is installed at the bottom of the first assembly frame 31 and installed through the positioning hole and the bearing pressing jig 6, and the output part of the positioning cylinder is connected with a positioning core rod of the bearing pressing jig 6 and pushes the positioning core rod to move up and down for positioning the bearing on the assembly port of the connecting rod plate.

One end of the jump ring push plate 44 is arranged at the output part of the jump ring cylinder 45 through a bolt, and the other end is provided with a second push opening matched with the jump ring.

The bearing pressing jig 7 comprises a mounting plate 71, a mounting seat 72, a positioning block 73 and a positioning core rod 74, wherein the mounting plate 71 is fixedly arranged on the first mounting frame 31 through bolt mounting, the mounting seat 72 is arranged on the mounting plate 71 and is provided with a positioning groove which is communicated with the mounting plate 71 from top to bottom, the positioning block 73 is embedded in the positioning groove and is provided with a movable hole, and the positioning core rod 74 is movably arranged in the movable hole and pushes the positioning core rod 74 to move in the movable hole through a positioning cylinder 34 so as to be used for positioning a bearing.

The mounting manner of each member is preferably bolt mounting or welding, and the present embodiment is not limited.

The automatic feeding and automatic alignment of the bearings are realized through the bearing feeding group 2 and the bearing assembly group 3, the bearings are stored in the bearing bin of the bearing feeding group 2, the bearings are pushed onto the bearing pressing jig by utilizing the bearing cylinder to push the bearing pushing plate, the connecting rod plate and the bearings are positioned through the bearing pressing jig, and then the bearings are assembled through the bearing assembly group 3, so that the automatic feeding, alignment and assembly of the bearings are realized.

The jump ring material loading group 4 is installed and is used for pushing the jump ring to its clamp spring pressing jig 7 on jump ring assembly group 5, and jump ring material loading group 4 includes second mount 41, jump ring feed bin 42, second feed bin frame 43, jump ring push pedal 44 and jump ring cylinder 45, and second mount 41 is installed on jump ring assembly group 5, and jump ring feed bin 42 passes through second feed bin frame 43 and installs on second mount 41, promotes jump ring push pedal 44 through jump ring cylinder 45 and will fall into jump ring pushing jig 7 to the jump ring of second feed bin frame 43 from jump ring feed bin 42.

The second fixing frame 41 is provided with a left-right communicated clamp spring discharging groove 46, one end of the second fixing frame is provided with a guide block 47 for guiding the clamp spring pushing plate 44 through bolts, a pressing block 48 for pressing the clamp spring pushing plate 44 is arranged above the guide block through bolts, the second bin frame 43 is arranged on the second fixing frame 41 on two sides of the clamp spring discharging groove 46 through bolts, the clamp spring bin 42 is arranged on the second bin frame 43, and clamp springs in the second bin frame fall into the clamp spring discharging groove 46 along the clamp spring bin 42.

The second bin frame 43 is symmetrically formed by two clamping blocks, the two clamping blocks are provided with arc-shaped notches which are matched with the clamping spring bin and used for clamping the clamping spring bin 42 to limit the movement of the clamping spring bin, the clamping blocks are provided with a fixing hole and movably provided with fixing rods, and the clamping blocks are fixed between the two clamping blocks through the side holes of the clamping spring bin inserted by the fixing rods.

The clamp spring assembly group 5 comprises a second assembly frame 51, a clamp spring assembly machine 52, a clamp spring guide block 53 and a clamp spring pressing sleeve 54, wherein the second fixing frame 41 is installed on the second assembly frame 51 through bolts, the clamp spring assembly machine 52 is installed on the top of the second assembly frame 51 through bolts, the output part of the clamp spring assembly machine faces downwards towards the clamp spring pressing jig 7 and is installed with the clamp spring pressing sleeve 54, the clamp spring pressing sleeve 54 is provided with an installation cavity matched with the clamp spring guide block 53, the clamp spring pressing sleeve 54 is pushed by the clamp spring assembly machine 52 to move up and down to place or recycle the clamp spring guide block 53 on the clamp spring pressing jig 7, and the clamp spring falling into the clamp spring guide block 53 is assembled on the connecting rod plate through the clamp spring pressing sleeve 54.

The clamping spring pressing sleeve 54 is provided with a clamping hole communicated with the mounting cavity on the side wall of the clamping spring pressing sleeve and is provided with a clamping cylinder 55, the output part of the clamping cylinder 55 is provided with a clamping rod moving in the clamping hole, and the top of the clamping spring guide block 53 is provided with a locking hole matched with the clamping rod.

The clamping rod is driven to be inserted into or withdrawn from the lock hole through the clamping cylinder 55, so that the clamping spring guide block 53 is recovered or placed to meet the use requirement, the clamping spring guide block 53 is of a conical structure, and the clamping spring which falls into the clamping spring guide block 53 is pressed down by the clamping spring pressing sleeve 54, so that the clamping spring moves along the clamping spring guide block 53 and is assembled on the bearing of the connecting rod plate.

The automatic feeding and automatic alignment of the clamp springs are realized through the clamp spring feeding group 4 and the clamp spring assembling group 5, the clamp springs are stored in the clamp spring bin 42 of the clamp spring feeding group 4, the clamp springs are pushed to the clamp spring pressing jig 7 by the clamp spring pushing plate 44 through the clamp spring air cylinder 45, the connecting rod plate and the clamp springs are positioned through the clamp spring pressing jig 7, and then the clamp springs are assembled through the clamp spring assembling group 5, so that the automatic feeding, alignment and assembly of the clamp springs are realized.

The clamp spring pressing jig 7 of the embodiment is provided with a positioning block for positioning a connecting rod plate equipped with a bearing at the top thereof.

The bearing assembly machine and the jump ring assembly machine of this embodiment are all preferably cylinders, and each cylinder of this embodiment is driven by the backstage control end and is controlled corresponding cylinder, and the control mode is prior art, and this embodiment is not repeated.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a connecting rod board automatic assembly equipment which characterized in that: the device comprises a frame, a bearing feeding group, a bearing assembling group, a clamp spring feeding group and a clamp spring assembling group;

the bearing feeding group is arranged on the bearing assembly group and used for pushing a bearing to the bearing pressing jig, and comprises a first fixing frame, a bearing bin, a first bin frame, a bearing pushing plate and a bearing cylinder;

the clamping spring feeding set is arranged on the clamping spring assembly set and used for pushing the clamping springs to the clamping spring pressing jig, the clamping spring feeding set comprises a second fixing frame, a clamping spring bin, a second bin frame, a clamping spring pushing plate and a clamping spring cylinder, the second fixing frame is arranged on the clamping spring assembly set, the clamping spring bin is arranged on the second fixing frame through the second bin frame, and the clamping spring pushing plate is pushed to push the clamping springs falling into the second bin frame from the clamping spring bin to the clamping spring pressing jig through the clamping spring cylinder.

2. The automatic assembling apparatus for a connecting rod plate according to claim 1, wherein: the bearing feeding group further comprises a push plate supporting seat and a pressing plate, the push plate supporting seat is provided with a push plate sliding groove for sliding installation of the bearing push plate, the pressing plate is arranged on the push plate sliding groove through a bolt cover, the bearing cylinder is arranged at the bottom of the first fixing frame, the output part of the bearing cylinder is fixedly arranged at one end of the bearing push plate through a bolt, and the other end of the bearing push plate is inserted into the first bin frame and provided with a first push opening with a bearing structure matched with that of the first bin frame.

3. The automatic assembling apparatus for a connecting rod plate according to claim 2, wherein: the first bin frame comprises a bottom plate and a fixing seat, the bottom plate is arranged on the first fixing frame and provided with a bearing discharging groove which faces the bearing pressing jig and is used for discharging a bearing, the fixing seat is arranged on the bottom plate through bolts and is arranged above the bearing discharging groove, the fixing seat is provided with a bin mounting opening which is communicated with one another up and down, the bearing bin is embedded in the bin mounting opening, and the bearing inside the bearing bin falls into the bearing discharging groove along the bin mounting opening.

4. A connecting rod plate automatic assembly device as defined in claim 3, wherein: the bearing feeding group further comprises a box changing cylinder, the output part of the box changing cylinder is arranged on the first fixing frame through a fixing block and a bolt, the bottom plate is arranged on the box changing cylinder through the bolt, at least two bearing discharging grooves are formed in the bottom plate, at least two fixing seats are arranged on the bottom plate, a bearing bin is respectively arranged on the two fixing seats, the first bin frame is pushed to move on the first fixing frame through the box changing cylinder, and the bearing bin matched with the bearing cylinder is replaced.

5. An automatic assembling apparatus for a connecting rod plate according to any one of claims 1 to 4, wherein: the bearing assembly group comprises a first assembly frame, a bearing assembly machine, a bearing push head and a positioning cylinder, wherein a push head hole is formed in the top of the first assembly frame, a positioning hole is formed in the bottom of the first assembly frame, a first fixing frame is installed on the first assembly frame through bolts, the bearing assembly machine is installed at the top of the first assembly frame, an output part of the bearing assembly machine passes through the push head hole, is installed with the bearing push head and pushes the bearing push head to assemble a bearing to an assembly port of a connecting rod plate, and the positioning cylinder is installed at the bottom of the first assembly frame, passes through the positioning hole and is installed with a bearing pressing jig, and the output part of the positioning cylinder is connected with a positioning core rod of the bearing pressing jig and pushes the positioning core rod to move up and down so that the bearing is positioned on the assembly port of the connecting rod plate.

6. The automatic assembling apparatus for a connecting rod plate according to claim 5, wherein: the bearing pressing jig comprises a mounting plate, an assembly seat, a positioning block and a positioning core rod, wherein the mounting plate is fixedly arranged on a first assembly frame through a bolt, the assembly seat is arranged on the mounting plate and is provided with a positioning groove which is communicated with the mounting plate from top to bottom, the positioning block is embedded in the positioning groove and is provided with a movable hole, and the positioning core rod is movably arranged in the movable hole and pushes the positioning core rod to move in the movable hole through a positioning cylinder so as to be used for positioning a bearing.

7. The automatic assembling apparatus for a connecting rod plate according to claim 1, wherein: the second fixing frame is provided with a left-right communicated jump ring discharging groove, one end of the second fixing frame is provided with a guide block for guiding the jump ring push plate through a bolt, a pressing block for pressing the jump ring push plate is arranged above the guide block through a bolt, the second bin frame is arranged on the second fixing frame on two sides of the jump ring discharging groove through a bolt, the jump ring bin is arranged on the second bin frame, and the jump ring inside the jump ring bin falls into the jump ring discharging groove along the jump ring bin.

8. The automatic assembling apparatus for a connecting rod plate according to claim 7, wherein: the second feed bin frame comprises two clamp splice symmetries, two the clamp splice is equipped with the arc breach that clamping spring feed bin looks adaptation is used for pressing from both sides tight clamping spring feed bin to restrict its activity, the clamp splice is equipped with a fixed orifices and movable mounting have the dead lever, through the side opening of dead lever cartridge snap spring feed bin is fixed it between two clamp splice.

9. An automatic assembling apparatus for a connecting rod plate according to any one of claims 7 to 8, wherein: the clamp spring assembly group comprises a second assembly frame, a clamp spring assembly machine, a clamp spring guide block and a clamp spring pressing sleeve, wherein the second fixing frame is installed on the second assembly frame through bolts, the clamp spring assembly machine is installed at the top of the second assembly frame through bolts, the output part of the clamp spring assembly machine faces downwards to the clamp spring pressing jig and is installed with the clamp spring pressing sleeve, the clamp spring pressing sleeve is provided with an installation cavity matched with the clamp spring guide block, the clamp spring assembly machine is used for pushing the clamp spring pressing sleeve to move up and down to place or recover the clamp spring guide block on the clamp spring pressing jig, and the clamp spring falling into the clamp spring guide block is assembled on the connecting rod plate through the clamp spring pressing sleeve.

10. The automatic assembling apparatus for a connecting rod plate according to claim 9, wherein: the clamping spring pressing sleeve is provided with a clamping hole communicated with the mounting cavity on the side wall of the clamping spring pressing sleeve and is provided with a clamping air cylinder, the output part of the clamping air cylinder is provided with a clamping rod moving in the clamping hole, and the top of the clamping spring guide block is provided with a locking hole matched with the clamping rod.

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