CN214109523U

CN214109523U - Automatic production equipment for engine piston connecting rod

Info

Publication number: CN214109523U
Application number: CN202022398892.9U
Authority: CN
Inventors: 李颖琼; 梁聪; 黎海媚
Original assignee: Qingdao Qingchai Power Technology Co ltd
Current assignee: Qingdao Qingchai Power Technology Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-09-03
Anticipated expiration: 2030-10-26

Abstract

The invention discloses automatic production equipment of an engine piston connecting rod, which comprises a chassis, wherein a material storage frame is arranged at the left upper part of the chassis, a material placing plate is arranged above the spring, a first mechanical arm is arranged on the right side of the sucker, a full gear is arranged above the half gear, the surface of the conveying belt is provided with a clamp, the left end of the second mechanical arm is provided with a micro motor, a circular saw is arranged above the positioner, a positioning instrument is arranged below the micro motor, a third mechanical arm is arranged at the right side of the second mechanical arm, a detector is arranged below the drilling machine, a main motor is arranged on the right of the half gear, a finished product bin is arranged on the right of the driving wheel, compared with the existing common piston connecting rod production equipment, the automatic production equipment for the engine piston connecting rod simplifies the processing flow, improves the processing efficiency and simultaneously ensures the product quality.

Description

Automatic production equipment for engine piston connecting rod

Technical Field

The invention relates to the technical field of production of engine piston connecting rods, in particular to automatic production equipment of an engine piston connecting rod.

Background

With the development of the times, automobiles as common vehicles enter thousands of households, the engine plays a very important role like the heart of people in the components of the automobiles, a plurality of parts are arranged in the engine, the piston connecting rod is an important component for connecting the piston and the camshaft, and once the piston connecting rod has a problem, the operation of the engine can have a great fault.

Most of the existing piston connecting rod processing production needs to be carried out through a plurality of steps, the steps are complicated, the clamp needs to be replaced for a plurality of times midway to clamp materials, the production time is greatly increased, and the excessive production step liquid easily causes processing errors, so that the automatic production equipment for the engine piston connecting rod is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides automatic production equipment of an engine piston connecting rod, which solves the problem that the general use requirement of people cannot be well met in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic production device of an engine piston connecting rod comprises a chassis, wherein a material storage frame is arranged above the left of the chassis, a spring is arranged at the bottom of the material storage frame, a material placing plate is arranged above the spring, a sucker is arranged above the material placing plate, a first mechanical arm is arranged at the right of the sucker, a half gear is arranged at the right of the first mechanical arm, a full gear is arranged above the half gear, a conveying belt is arranged above the full gear, a clamp is arranged on the surface of the conveying belt, a second mechanical arm is arranged behind the conveying belt, a micro motor is arranged at the left end of the second mechanical arm, a positioner is arranged at the left of the micro motor, a circular saw is arranged above the positioner, a positioning instrument is arranged below the micro motor, a grinding wheel is arranged at the right side of the positioning instrument, a third mechanical arm is arranged at the right of the second mechanical arm, and a drilling machine is arranged at the right end of the third mechanical arm, the drilling machine is characterized in that a detector is arranged below the drilling machine, a main motor is arranged on the right side of the half gear, a driving wheel is arranged on the right side of the main motor, and a finished product bin is arranged on the right side of the driving wheel.

Preferably, the spring lower extreme is fixed in storage frame bottom, and the spring constitutes integrated configuration with putting the flitch, it constitutes elevation structure through spring and storage frame to put the flitch.

Preferably, first arm, second arm and third arm all can carry out self to a certain extent and go up and down, stretch out and draw back and rotate, and micro motor drives the operation of annular saw and emery wheel simultaneously.

Preferably, the clamps are fixed on the outer surface of the conveyor belt, the clamps are distributed on the outer surface of the conveyor belt at equal intervals, and the middle part of the outer surface of the conveyor belt is free of the crawler belt.

Preferably, the conveyer belt passes through the belt and is connected with the full gear, and full gear meshes with the half gear mutually, the half gear is connected with main motor through the belt, and main motor is connected with the driving wheel through the belt, the driving wheel can mesh with the fluted disc mutually.

Preferably, a bottom frame is arranged below the clamp, a bottom plate is arranged above the bottom frame, a first base plate is arranged above the left of the bottom plate, a first push rod is arranged above the first base plate, a flat plate is arranged above the first push rod, a first fixed wing is arranged on the left side of the flat plate, a first pressing plate is arranged on the left side of the first fixed wing, a first groove rod is arranged below the first pressing plate, a first chute is arranged below the first groove rod, a first roller is arranged in the first chute, a first connecting rod is arranged on the right of the first roller, a first rocker is arranged below the first groove rod, a first fixed pin is arranged below the first rocker, a rotating wheel is arranged on the right of the first base plate, a lifting rod is arranged in the rotating wheel, a sliding block is arranged above the lifting rod, a connecting rod is arranged above the sliding block, and a clamping block is arranged above the connecting rod, the inside gag lever post that is provided with of clamp splice, the runner top is provided with the carousel, and the carousel surface is provided with the slide rail, the runner below is provided with the fluted disc, the right-hand second backing plate that is provided with of runner, and second backing plate top is provided with the second push rod, the right-hand second connecting rod that is provided with of second push rod, and the right-hand second roller that is provided with of second connecting rod, the second roller periphery is provided with the second spout, and the second spout periphery is provided with the second grooved bar, second grooved bar top is provided with the second clamp plate, and the second clamp plate left is provided with the fixed wing of second, second grooved bar below is provided with the second rocker, and is provided with the second fixed pin below the second rocker.

Preferably, first clamp plate is provided with U type appearance characteristic, and first clamp plate passes through the bolt and constitutes rotatable structure with first stationary vane, first rocker constitutes integral structure with first roller, and first roller constitutes integral structure with first connecting rod, first connecting rod constitutes integral structure with first push rod, and first roller passes through first push rod and first spout and first grooved bar constitution slidable structure, first rocker passes through the bolt and constitutes rotatable structure with first fixed pin, first clamp plate passes through first grooved bar and first stationary vane and dull and stereotyped rotatable structure.

Preferably, the lower left end of the second pressing plate is provided with a notch, the second pressing plate and the second fixing wing form a rotatable structure through a bolt, the second rocker and the second roller form an integrated structure, the second roller and the second connecting rod form a two-body structure, the second connecting rod and the second push rod form an integrated structure, the second roller and the second groove rod form a slidable structure through a second push rod and a second chute, the second rocker and the second fixing pin form a rotatable structure through a bolt, and the second pressing plate and the flat plate form a rotatable structure through a second groove rod and a second fixing wing.

Preferably, the connecting rod passes through the bolt and constitutes rotatable structure with the slider, and the slider constitutes integral structure with the lifting and contracting pole, the connecting rod passes through the bolt and constitutes rotatable structure with the clamp splice, and the clamp splice passes through connecting rod, gag lever post and slide rail and constitutes slidable structure with the carousel, the gag lever post constitutes integral structure with the carousel, the slider passes through the lifting and contracting pole and constitutes liftable structure with the carousel, and carousel and runner constitute integral structure, the runner passes through the fluted disc and constitutes rotatable structure with the bottom plate.

The invention provides automatic production equipment for an engine piston connecting rod, which has the following beneficial effects:

1. this automated production equipment of engine piston connecting rod, through the setting of half-gear, main motor can drive the conveyer belt and carry out intermittent type formula function to drive anchor clamps and carry out intermittent type formula removal, make anchor clamps can carry the material and stop at each processing point, and guarantee that anchor clamps can not carry the material removal when processing, reserve sufficient time for processing, and can not lead to processing to make mistakes because of adding the material removal in man-hour, promoted machining efficiency and promoted product quality.

2. This automatic production equipment of engine piston connecting rod, through micro motor's setting for thereby the second arm can cut and polish the process through driving micro motor function to the material, has retrencied the procedure, has saved process time, has improved machining efficiency, and locator and locater can carry out the accurate positioning to the processing position simultaneously, have improved the processing precision, have promoted product quality.

3. This automated production equipment of engine piston connecting rod, through the setting of first clamp plate, can carry out the centre gripping fixedly to the left side of material after the material is placed on the flat board, and because the appearance structure of first clamp plate can not form the hindrance to the processing of material for the processing of material can normally go on, can not add man-hour because the atress leads to the material to remove and has improved the machining precision, has promoted product quality.

4. This automated production equipment of engine piston connecting rod, through the setting of second clamp plate for its right side can be held fixedly by the second clamp plate after first processing for the material, and because the recess that the second clamp plate left side below set up can make the material by the recess lock, thereby makes the processing of material can normally go on, can not add man-hour because the atress leads to the material to remove and has improved the machining precision, has promoted product quality.

5. This automated production equipment of engine piston connecting rod through the setting of runner for the material can be by the clamp splice centre gripping after appearance processing is accomplished, and follows the carousel and rotate together, makes the material process of punching more easily, has avoided having improved the precision of processing because of the processing error that manual adjustment processing position caused, has promoted product quality.

Drawings

FIG. 1 is a schematic structural view of the present invention after being turned 90 degrees;

FIG. 2 is an enlarged view of the area of FIG. 1A;

FIG. 3 is an enlarged view of the area of FIG. 1B;

FIG. 4 is a cross-sectional front view of the clamp of the present invention;

FIG. 5 is a schematic bottom view of the clamp of the present invention;

FIG. 6 is a schematic top view of the clamp of the present invention;

FIG. 7 is a schematic diagram of the right side view of the telescopic rod of the present invention;

fig. 8 is a schematic view of a piston rod structure.

In the figure: 1. a chassis; 2. a material storage frame; 3. a spring; 4. placing a material plate; 5. a suction cup; 6. a first robot arm; 7. a half gear; 8. all-gear; 9. a conveyor belt; 10. a clamp; 1001. a bottom frame; 1002. a base plate; 1003. a first backing plate; 1004. a first push rod; 1005. a flat plate; 1006. a first fixed wing; 1007. a first platen; 1008. a first slot bar; 1009. a first chute; 1010. a first roller; 1011. a first link; 1012. a first rocker; 1013. a first fixing pin; 1014. a rotating wheel; 1015. lifting and shrinking the rod; 1016. a slider; 1017. a connecting rod; 1018. a clamping block; 1019. a limiting rod; 1020. a turntable; 1021. a slide rail; 1022. a fluted disc; 1023. a second backing plate; 1024. a second push rod; 1025. a second link; 1026. a second roller; 1027. a second chute; 1028. a second slot bar; 1029. a second platen; 1030. a second stationary wing; 1031. a second rocker; 1032. a second fixing pin; 11. a second mechanical arm; 12. a micro motor; 13. a positioner; 14. a circular saw; 15. a positioning instrument; 16. a grinding wheel; 17. a third mechanical arm; 18. a drilling machine; 19. a detector; 20. a main motor; 21. driving the wheel; 22. and (6) a finished product bin.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1 to 8, the present invention provides a technical solution: an automatic production device of an engine piston connecting rod comprises a chassis 1, a material storage frame 2 is arranged above the left side of the chassis 1, a spring 3 is arranged at the bottom of the material storage frame 2, a material placing plate 4 is arranged above the spring 3, a sucker 5 is arranged above the material placing plate 4, the lower end of the spring 3 is fixed at the bottom of the material storage frame 2, the spring 3 and the material placing plate 4 form an integrated structure, the material placing plate 4 and the material storage frame 2 form a lifting structure through the spring 3, after a material is placed in the material storage frame 2, the material placing plate 4 can continuously lift the material along with the reduction of the material under the elastic force provided by the spring 3, so that the sucker 5 can more easily adsorb the material, a first mechanical arm 6 is arranged on the right side of the sucker 5, a half gear 7 is arranged on the right side of the first mechanical arm 6, a full gear 8 is arranged above the half gear 7, a conveying belt 9 is arranged above the full gear 8, a clamp 10 is arranged on the surface of the conveying belt 9, a second mechanical arm 11 is arranged at the rear part of the conveyor belt 9, a bottom frame 1001 is arranged below the clamp 10, a bottom plate 1002 is arranged above the bottom frame 1001, a first base plate 1003 is arranged above the left side of the bottom plate 1002, a first push rod 1004 is arranged above the first base plate 1003, a flat plate 1005 is arranged above the first push rod 1004, a first fixed wing 1006 is arranged on the left side of the flat plate 1005, a first pressing plate 1007 is arranged on the left side of the first fixed wing 1006, a first groove rod 1008 is arranged below the first pressing plate 1007, a first sliding groove 1009 is arranged below the first groove rod 1008, a first roller 1010 is arranged in the first sliding groove 1009, a first connecting rod 1010 is arranged on the right side of the first roller 1010, a first rocker 1012 is arranged below the first groove rod 1008, a first fixing pin 1013 is arranged below the first rocker 1012, the first pressing plate 1007 is provided with a U-shaped appearance characteristic, and the first pressing plate 1007 and the first fixed wing 1006 form a rotatable structure through bolts, the first rocker 1012 and the first roller 1010 form an integrated structure, the first roller 1010 and the first link 1011 form an integrated structure, the first link 1011 and the first push rod 1004 form an integrated structure, the first roller 1010 and the first slot 1008 form a slidable structure through the first push rod 1004 and the first chute 1009, the first rocker 1012 and the first fixing pin 1013 form a rotatable structure through bolts, the first pressing plate 1007 and the flat plate 1005 form a rotatable structure through the first slot 1008 and the first fixing wing 1006, so that the first push rod 1004 can drive the first pressing plate 1007 to clamp the material, the material is ensured not to move during processing, through the arrangement of the first pressing plate 1007, the left side of the material can be clamped and fixed after the material is placed on the flat plate 1005, and because the appearance structure of the first pressing plate 1007 does not obstruct the processing of the material, the processing of the material can be normally performed, the material movement can not be caused by stress during processing, the processing precision is improved, the product quality is improved, a rotating wheel 1014 is arranged on the right side of the first base plate 1003, a lifting and contracting rod 1015 is arranged inside the rotating wheel 1014, a sliding block 1016 is arranged above the lifting and contracting rod 1015, a connecting rod 1017 is arranged above the sliding block 1016, a clamping block 1018 is arranged above the connecting rod 1017, a limiting rod 1019 is arranged inside the clamping block 1018, a rotating disc 1020 is arranged above the rotating wheel 1014, a sliding rail 1021 is arranged on the surface of the rotating disc 1020, a fluted disc 1022 is arranged below the rotating wheel 1014, the connecting rod 1017 and the sliding block 1016 form a rotatable structure through bolts, the sliding block 1016 and the lifting and contracting rod 1015 form an integrated structure, the connecting rod 1017 and the clamping block 1018 form a rotatable structure through bolts, the limiting rod 1019 and the sliding rail 1021 form a slidable structure with the rotating disc 1020, the limiting rod 1019 and the rotating disc 1020 form an integrated structure, the sliding block 1016 and the rotating disc 1015 form a liftable structure through the lifting and contracting rod 1020, the rotary table 1020 and the rotary wheel 1014 form an integrated structure, the rotary wheel 1014 forms a rotatable structure with the bottom plate 1002 through the fluted disc 1022, so that the lifting and contracting rod 1015 can drive the clamping block 1018 to clamp the material, and the material can rotate along with the rotary wheel 1014 to adjust the processing position, after the appearance processing of the material is finished, the material can be clamped by the clamping block 1018 and rotate along with the rotary table 1020, so that the material is easier to punch, the processing error caused by manual adjustment of the processing position is avoided, the processing precision is improved, the product quality is improved, the second cushion plate 1023 is arranged on the right side of the rotary wheel 1014, the second push rod 1024 is arranged above the second cushion plate 1023, the second connecting rod 1025 is arranged on the right side of the second push rod 1024, the second roller 1026 is arranged on the right side of the second connecting rod 1025, the second chute 1027 is arranged on the periphery of the second roller 1026, and the second chute 1028 is arranged on the periphery of the second chute 1027, a second pressure plate 1029 is arranged above the second slot bar 1028, a second fixing wing 1030 is arranged on the left side of the second pressure plate 1029, a second rocking bar 1031 is arranged below the second slot bar 1028, a second fixing pin 1032 is arranged below the second rocking bar 1031, a notch is arranged at the left lower end of the second pressure plate 1029, the second pressure plate 1029 and the second fixing wing 1030 form a rotatable structure through bolts, the second rocking bar 1031 and a second roller 1026 form an integrated structure, the second roller 1026 and the second connecting rod 1025 form a binary structure, the second connecting rod 1025 and a second pushing bar 1024 form an integrated structure, the second roller 1026 and the second slot bar 1028 form a slidable structure through the second pushing bar 1024 and a second sliding groove 1027, the second rocking bar 1031 and the second fixing pin 1032 form a rotatable structure through bolts, the second pressure plate 1029 and the flat plate 1005 form a rotatable structure through the second slot bar 1028 and the second fixing wing 1030, so that the second pushing bar 1024 can clamp the material through the second pressure plate 1029, the materials are ensured not to move in the processing process, the right side of the materials can be held and fixed by the second pressing plate 1029 after the materials are processed for the first time through the arrangement of the second pressing plate 1029, the materials can be buckled by the grooves due to the grooves arranged at the left lower part of the second pressing plate 1029, the processing of the materials can be normally carried out, the movement of the materials due to stress in the processing process is avoided, the processing precision is improved, the product quality is improved, the clamp 10 can clamp the materials from three sides and drive the materials to rotate, the clamp 10 is fixed on the outer surface of the conveying belt 9, the clamp 10 is distributed on the outer surface of the conveying belt 9 at equal intervals, no crawler belt is arranged at the middle part of the outer surface of the conveying belt 9, the fluted disc 1022 can be in contact with the driving wheel 21, the main motor 20 drives the rotating wheel 1014 to rotate, the micro motor 12 is arranged at the left end of the second mechanical arm 11, and the positioner 13 is arranged at the left side of the micro motor 12, a circular saw 14 is arranged above the positioner 13, a positioning instrument 15 is arranged below the micro motor 12, a grinding wheel 16 is arranged on the right side of the positioning instrument 15, a third mechanical arm 17 is arranged on the right side of the second mechanical arm 11, a drilling machine 18 is arranged on the right end of the third mechanical arm 17, the first mechanical arm 6, the second mechanical arm 11 and the third mechanical arm 17 can perform self-lifting, stretching and rotating to a certain extent, and the micro motor 12 drives the circular saw 14 and the grinding wheel 16 to operate simultaneously, so that the second mechanical arm 11 can cut and polish materials, the processing procedure is simplified, the processing time is saved, the processing efficiency is improved, and meanwhile, the positioning instrument 13 and the positioning instrument 15 can perform accurate positioning on the processing position, the machining precision is improved, the product quality is improved, the detector 19 is arranged below the drilling machine 18, the main motor 20 is arranged on the right of the half gear 7, the driving wheel 21 is arranged on the right of the main motor 20, the conveying belt 9 is connected with the full gear 8 through a belt, the full gear 8 is meshed with the half gear 7, the half gear 7 is connected with the main motor 20 through a belt, the main motor 20 is connected with the driving wheel 21 through a belt, the driving wheel 21 can be meshed with the fluted disc 1022, so that the main motor 20 can simultaneously drive the conveying belt 9 and the driving wheel 21 to operate, the machining efficiency is improved, through the arrangement of the half gear 7, the main motor 20 can drive the conveying belt 9 to perform intermittent operation, the clamp 10 is driven to perform intermittent movement, the clamp 10 can carry materials to stay at each machining point, the clamp 10 can not carry the materials to move during machining, and enough time is reserved for machining, and processing errors caused by movement of materials during processing can be avoided, the processing efficiency is improved, the product quality is improved, and the finished product bin 22 is arranged on the right of the driving wheel 21.

The working principle is as follows: when the automatic production equipment using the engine piston connecting rod is used, firstly, a material plate is placed in a material storage frame 2, a spring 3 drives a material placing plate 4 to descend under the action of pressure, a first mechanical arm 6 drives a suction cup 5 to adsorb the material, the material is moved and placed on a flat plate 1005, then a first push rod 1004 drives a first connecting rod 1011 to move leftwards, so as to drive a first roller 1010 to move upwards on a first groove rod 1008 along a first sliding groove 1009, so as to drive the first pressing plate 1007 to rotate by taking the contact point of the first pressing plate 1007 and a first fixed wing 1006 as the center of a rotating circle, so as to clamp the left end of the material, a main motor 20 is started, a conveying belt 9 is driven to operate intermittently by a half gear 7 and a full gear 8, so as to drive a clamp 10 to move intermittently, when the clamp 10 moves to the front of a second mechanical arm 11, the clamp 10 stops moving, the second mechanical arm 11 drives a micro motor 12 to operate, the second mechanical arm 11 drives the circular saw 14 to cut the unclamped part of the material under the indication of the positioner 13, the second mechanical arm 11 drives the grinding wheel 16 to finely grind the material according to the indication of the positioning instrument 15 after the rough shape cutting is finished, after the grinding is finished, the first pressing plate 1007 is loosened to clamp the material under the drive of the first push rod 1004, meanwhile, the second push rod 1024 drives the second connecting rod 1025 to move leftwards, so as to drive the second roller 1026 to move upwards on the second groove rod 1028 along the second chute 1027, so as to drive the second pressing plate 1029 to rotate by taking the contact point of the second pressing plate 1029 and the second fixed wing 1030 as the rotation circle center, so as to clamp the right end of the material, the second mechanical arm 11 drives the circular saw 14 to cut the left end of the material under the indication of the positioner 13, and after the rough shape cutting is finished, the second mechanical arm 11 drives the grinding wheel 16 to finely grind the material according to the indication of the positioning instrument 15, after polishing, the lifting and contracting rod 1015 drives the slide block 1016 to rise, the connecting rod 1017 drives the clamping block 1018 to move oppositely on the rotary table 1020 along the slide rail 1021 under the action of the limiting rod 1019, so as to clamp the middle of the material, meanwhile, the second push rod 1024 drives the second pressing plate 1029 to release clamping of the material, then the clamp 10 is driven by the conveyor belt 9 to move continuously to the right, the clamp 10 stops moving after moving right above the driving wheel 21, the driving wheel 21 rotates under the drive of the main motor 20, the fluted disc 1022 rotates along with the driving wheel 21 after the driving wheel 21 contacts with the fluted disc 1022, so as to drive the material to rotate by driving the rotary wheel 1014, after the rotary wheel 1014 rotates by 90 degrees, the driving wheel 21 is separated from the fluted disc 1022, then the clamp 10 continues to move rightwards, after the clamp 10 moves to the front of the third mechanical arm 17, the third mechanical arm 17 drives the drilling machine 18 to drill the front and back ends of the material under the indication of the detector 19, after drilling is finished, the clamp 10 continues to move rightwards, after the clamp 10 moves to the position above a finished product bin 22, the lifting and contracting rod 1015 drives the clamping block 1018 to loosen clamping of materials, the materials fall into the finished product bin 22, then the clamp 10 continues to move, when the clamp 10 moves to the position below the driving wheel 21 and stops, the lower rotating wheel 1014 is driven by the driving wheel 21 to rotate for 90 degrees and then returns to the original state, then the clamp 10 continues to move, and the processes are repeated, so that the working principle of the automatic production equipment of the engine piston connecting rod is realized.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an automated production equipment of engine piston connecting rod, includes chassis (1), its characterized in that: the automatic feeding device is characterized in that a material storage frame (2) is arranged on the upper left of the chassis (1), a spring (3) is arranged at the bottom of the material storage frame (2), a material placing plate (4) is arranged above the spring (3), a sucker (5) is arranged above the material placing plate (4), a first mechanical arm (6) is arranged on the right of the sucker (5), a half gear (7) is arranged on the right of the first mechanical arm (6), a full gear (8) is arranged above the half gear (7), a conveying belt (9) is arranged above the full gear (8), a clamp (10) is arranged on the surface of the conveying belt (9), a second mechanical arm (11) is arranged behind the conveying belt (9), a micro motor (12) is arranged at the left end of the second mechanical arm (11), a positioner (13) is arranged on the left of the micro motor (12), a circular saw (14) is arranged above the positioner (13), micro motor (12) below is provided with locater (15), and locater (15) right side is provided with emery wheel (16), the right-hand third arm (17) that is provided with of second arm (11), and third arm (17) right-hand member is provided with rig (18), rig (18) below is provided with detector (19), the right-hand main motor (20) that is provided with of half gear (7), and the right-hand driving wheel (21) that is provided with of main motor (20), the right-hand finished product storehouse (22) that is provided with of driving wheel (21).

2. The automated production equipment of an engine piston connecting rod according to claim 1, characterized in that: the lower end of the spring (3) is fixed at the bottom of the storage frame (2), the spring (3) and the material placing plate (4) form an integrated structure, and the material placing plate (4) and the storage frame (2) form a lifting structure through the spring (3).

3. The automated production equipment of an engine piston connecting rod according to claim 1, characterized in that: the first mechanical arm (6), the second mechanical arm (11) and the third mechanical arm (17) can lift, stretch and rotate to a certain degree, and the micro motor (12) drives the circular saw (14) and the grinding wheel (16) to operate simultaneously.

4. The automated production equipment of an engine piston connecting rod according to claim 1, characterized in that: anchor clamps (10) are fixed on conveyer belt (9) surface, and anchor clamps (10) are the equidistance and distribute on conveyer belt (9) surface, conveyer belt (9) surface middle part does not have the track.

5. The automated production equipment of an engine piston connecting rod according to claim 1, characterized in that: conveyer belt (9) are connected with full gear (8) through the belt, and full gear (8) mesh mutually with half gear (7), half gear (7) are connected with main motor (20) through the belt, and main motor (20) are connected with driving wheel (21) through the belt, driving wheel (21) can mesh mutually with fluted disc (1022).

6. The automated production equipment of an engine piston connecting rod according to claim 1, characterized in that: the clamp is characterized in that a bottom frame (1001) is arranged below the clamp (10), a bottom plate (1002) is arranged above the bottom frame (1001), a first base plate (1003) is arranged above the left of the bottom plate (1002), a first push rod (1004) is arranged above the first base plate (1003), a flat plate (1005) is arranged above the first push rod (1004), a first fixing wing (1006) is arranged on the left side of the flat plate (1005), a first pressing plate (1007) is arranged on the left side of the first fixing wing (1006), a first groove rod (1008) is arranged below the first pressing plate (1007), a first sliding groove (1009) is arranged below the first groove rod (1008), a first roller (1010) is arranged in the first sliding groove (1009), a first connecting rod (1011) is arranged on the right side of the first roller (1010), a first rocker (1012) is arranged below the first groove rod (1008), a first fixing pin (1013) is arranged below the first rocker (1012), a rotating wheel (1014) is arranged on the right of the first cushion plate (1003), a lifting rod (1015) is arranged inside the rotating wheel (1014), a sliding block (1016) is arranged above the lifting rod (1015), a connecting rod (1017) is arranged above the sliding block (1016), a clamping block (1018) is arranged above the connecting rod (1017), a limiting rod (1019) is arranged inside the clamping block (1018), a rotating disc (1020) is arranged above the rotating wheel (1014), a sliding rail (1021) is arranged on the surface of the rotating disc (1020), a fluted disc (1022) is arranged below the rotating wheel (1014), a second cushion plate (1026) is arranged on the right of the rotating wheel (1014), a second push rod (1024) is arranged above the second cushion plate (1023), a second connecting rod (1025) is arranged on the right of the second push rod (1024), a second roller (1026) is arranged on the right of the second connecting rod (1025), a second sliding groove (1027) is arranged on the periphery of the second roller (1026), and a second groove rod (1028) is arranged on the periphery of the second sliding groove (1027), a second pressing plate (1029) is arranged above the second groove rod (1028), a second fixing wing (1030) is arranged on the left of the second pressing plate (1029), a second rocking bar (1031) is arranged below the second groove rod (1028), and a second fixing pin (1032) is arranged below the second rocking bar (1031).

7. The automated production equipment of an engine piston connecting rod according to claim 6, characterized in that: first clamp plate (1007) is provided with U type appearance characteristic, and first clamp plate (1007) passes through the bolt and constitutes rotatable structure with first stationary vane (1006), first rocker (1012) constitutes integrated structure with first roller (1010), and first roller (1010) constitutes integrated structure with first connecting rod (1011), first connecting rod (1011) constitutes integrated structure with first push rod (1004), and first roller (1010) passes through first push rod (1004) and first spout (1009) and constitutes slidable structure with first grooved bar (1008), first rocker (1012) passes through the bolt and constitutes rotatable structure with first fixed pin (1013), first clamp plate (1007) passes through first grooved bar (1008) and first stationary vane (1006) and constitutes rotatable structure with dull and stereotyped (1005).

8. The automated production equipment of an engine piston connecting rod according to claim 6, characterized in that: the left lower end of the second pressure plate (1029) is provided with a notch, the second pressure plate (1029) and a second fixing wing (1030) form a rotatable structure through a bolt, the second rocker (1031) and a second roller (1026) form an integrated structure, the second roller (1026) and a second connecting rod (1025) form a binary structure, the second connecting rod (1025) and a second push rod (1024) form an integrated structure, the second roller (1026) and a second groove rod (1028) form a slidable structure through the second push rod (1024) and a second sliding groove (1027), the second rocker (1031) and a second fixing pin (1032) form a rotatable structure through a bolt, and the second pressure plate (1029) and the flat plate (1005) form a rotatable structure through the second groove rod (1028) and the second fixing wing (1030).

9. The automated production equipment of an engine piston connecting rod according to claim 6, characterized in that: the connecting rod (1017) and the sliding block (1016) form a rotatable structure through a bolt, the sliding block (1016) and the lifting and contracting rod (1015) form an integrated structure, the connecting rod (1017) and the clamping block (1018) form a rotatable structure through a bolt, the clamping block (1018) and the rotating disc (1020) form a slidable structure through the connecting rod (1017), the limiting rod (1019) and the rotating disc (1020) form an integrated structure, the sliding block (1016) and the rotating disc (1020) form a liftable structure through the lifting and contracting rod (1015), the rotating disc (1020) and the rotating wheel (1014) form an integrated structure, and the rotating wheel (1014) and the bottom plate (1002) form a rotatable structure through the fluted disc (1022).