CN117139056B - Automatic oiling station of stopper slider - Google Patents

Abstract

The invention discloses an automatic oiling device for a slider of a limiter, which belongs to the technical field of automobile part processing and comprises a workbench, a vibration feeding assembly arranged on the workbench, a conveying assembly used for conveying the slider, a first support frame arranged on the workbench, a rotary fixing tool arranged on the first support frame, an oiling assembly arranged on the first support frame and used for oiling the slider, a material shifting assembly arranged on the first support frame, a traversing module arranged on the workbench, a temporary storage plate arranged at the output end of the traversing module, a second support frame arranged on the workbench, a pushing assembly arranged on the second support frame, a transition support arranged on the workbench, a transition plate arranged on the transition support, a lifting assembly arranged on the workbench and a material storage assembly arranged on the lifting assembly. The oiling device disclosed by the invention is high in oiling efficiency, good in oiling stability, time-saving and labor-saving.

Description

Automatic oiling station of stopper slider

Technical Field

The invention relates to the technical field of automobile part machining, in particular to an automatic oiling device for a slider of a limiter.

Background

At present, with the development of technology, the living standard of people is improved, and the performance requirement on automobiles is higher and higher, so that the processing requirement of automobile manufacturing enterprises on automobile parts is also improved. The door check is one of the important parts of an automobile. The performance on the door limiter mainly depends on the sliding block, the sliding block is a relatively precise automobile part, and oil needs to be coated on the surface of the sliding block in actual production so as to achieve the purpose of lubrication, thereby improving the service performance of the sliding block and prolonging the service life of the sliding block. .

The prior art vehicle door limiter still adopts a manual oiling method in the assembly process, an automatic device is not used, an operator needs to perform frequent manual operation because of no timing, quantitative setting and the like in the oiling process, the oil smearing quantity is controlled unstably, the operation is time-consuming and labor-consuming, meanwhile, the sliding block moves on a limiting main arm to generate friction due to the fact that granular dust on the hands or clothes of the operator is mixed into the oil, abnormal sound is easy to occur, and the operation hand feeling and the sound quality effect of opening and closing of the vehicle door are affected. The manual oiling of operating personnel to the slider, stability hardly is controlled, and the slider drops from the hand easily during operation, improves the loss rate, can cause the incident even. Therefore, a new solution is needed to solve at least one of the above technical problems.

Disclosure of Invention

The invention aims to provide an automatic oiling device for a limiter sliding block, which solves the technical problems of low oiling efficiency, low oiling stability, time consumption and labor consumption.

In order to achieve the technical purpose and meet the technical requirements, the invention adopts the technical scheme that: the utility model provides a stopper slider automatic oiling station, is in including workstation, setting vibration pay-off subassembly on the workstation, set up be used for conveying the transport subassembly of slider, set up first support frame on the workstation, set up rotatory fixed frock on the first support frame, set up on the first support frame to the oiling subassembly of slider oiling, set up stirring subassembly on the first support frame, set up sideslip module on the workstation, set up the temporary storage board of sideslip module output, set up second support frame on the workstation, set up push away the material subassembly on the second support frame, set up transition support on the workstation, set up transition support is in transition support is last, set up lifting unit on the workstation, set up stock subassembly on the lifting unit, vibration pay-off subassembly will the slider is sent into transport subassembly, transport subassembly will the slider is sent into in the rotatory fixed frock, stirring subassembly will the slider on the rotatory fixed frock is gone into on the temporary storage board, push away the material subassembly and is gone into to the transition support, the transition is in the transition is passed through.

As the preferable technical scheme, the vibration feeding component comprises a material tray, a direct vibration track obliquely arranged at the material outlet of the material tray and a vibrator arranged on the bottom surface of the direct vibration track.

As the preferable technical scheme, the conveying assembly comprises a conveying support, a conveying rail arranged on the conveying support, a conveying motor arranged on the conveying rail and a conveying belt arranged along the conveying rail, wherein the conveying belt is in transmission connection with an output shaft of the conveying motor.

As the preferential technical scheme, rotatory fixed frock is in including setting up rotating electrical machines, cavity revolving platform, connecting plate, a plurality of setting on the first support frame be in fixed block, a plurality of setting that are used for of slider are in on the connecting plate locating piece, a plurality of setting on the connecting plate are in raise post, 2 setting on the first support frame are in raise the stopper on the post, be provided with on the fixed block and be used for holding the fixed slot of slider, fixed slot one end opening sets up, the stopper is located adjacent 2 between the fixed block, a plurality of the periphery side of stopper links to each other with a plurality of the periphery side of locating piece and forms the arc surface, 2 the stopper symmetry interval sets up, 2 be provided with fixed feed seat and fixed discharge seat between the stopper, be provided with the feed chute on the fixed discharge seat, the rotating electrical machines output shaft with cavity revolving platform input is connected, cavity revolving platform output with the connecting plate.

As the preferable technical scheme, the oiling component comprises a high-pressure grease barrel arranged on the workbench, a pneumatic grease pump arranged on the high-pressure grease barrel, a first support arranged on the first support, and an oiler with a quantitative valve arranged on the first support, wherein the pneumatic grease pump is communicated with the high-pressure grease barrel through a pipeline, and the pneumatic grease pump is communicated with the quantitative valve through a pipeline.

As the preferable technical scheme, the stirring assembly comprises a second support arranged on the first support frame, a mounting plate arranged on the second support frame, a mounting rod slidably arranged on the mounting plate, a stirring motor arranged on the mounting plate, a swinging arm and a stirring arm rotatably arranged on the mounting rod, wherein an output shaft of the stirring motor is connected with the swinging arm, and one end of the stirring arm is rotatably connected with the swinging arm.

As the preferable technical scheme, the pushing assembly comprises a pushing cylinder arranged on the second support frame, a guide rail flat plate slidably arranged on the second support frame, a connecting frame arranged at one end of the guide rail flat plate, an L-shaped plate rotatably arranged on the connecting frame, a lifting sliding table arranged on the L-shaped plate, and a push rod arranged at the output end of the lifting sliding table, wherein the output end of the pushing cylinder is connected with the guide rail flat plate.

As the preferable technical scheme, the lifting assembly comprises a lifting support frame arranged on the workbench, a lifting module vertically arranged on the lifting support frame, a stock frame arranged at the output end of the lifting module, and a plurality of stock plates arranged on the stock frame at intervals in parallel.

As the preferable technical scheme, the transition support includes 2 sets up support curb plate on the workstation, sets up 2 the transition support between the support curb plate, rotatable setting is in transition connecting seat on the transition support, set up locating plate on the transition connecting seat, set up extension board on the transition support, insert establish location axle, extension spring on the extension board, extension spring's one end with the locating plate is connected, its other end with the location axle is connected, the transition board sets up on the transition connecting seat.

As the preferable technical scheme, the lifting support frame upper end is provided with the bracing piece of T shape, the horizontal both ends of bracing piece are rotatable respectively and are provided with first pulley and second pulley.

The beneficial effects of the invention are as follows:

fully consider operating personnel's work efficiency, security guarantee, can save the fat liquoring time, effectively reduce manual operation's work load, use through the combination of each subassembly and adjust the takt, realize pay-off, fat liquoring, pile up and deposit and start the automation mechanized operation who stops, effectively control the fat coating volume, improve the convenience of piling up and depositing, improve production safety.

Drawings

FIG. 1 is a block diagram of an oiling station of one embodiment provided by the present invention;

FIG. 2 is a block diagram of a transport assembly according to one embodiment of the present invention;

FIG. 3 is a block diagram of a rotationally fixed tooling according to one embodiment of the present invention; the method comprises the steps of carrying out a first treatment on the surface of the

FIG. 4 is a partial block diagram of a rotationally fixed tooling according to one embodiment of the present invention;

FIG. 5 is a block diagram of an oiling assembly according to one embodiment of the present invention; the method comprises the steps of carrying out a first treatment on the surface of the

FIG. 6 is a block diagram of a toggle assembly according to one embodiment of the present invention;

FIG. 7 is a block diagram of a transition support according to one embodiment of the present invention;

FIG. 8 is a block diagram of a pusher assembly according to one embodiment of the present invention;

fig. 9 is a block diagram of a lifting assembly and a stock assembly according to one embodiment of the present invention.

In fig. 1 to 9, 1, a workbench; 2. a vibratory feed assembly; 201. a material tray; 202. a direct vibration track; 203. a vibrator; 3. a transfer assembly; 301. a conveying support; 302. a transfer rail; 303. a conveying motor; 304. a conveyor belt; 4. a first support frame; 5. rotating and fixing the tool; 501. a rotating electric machine; 502. a hollow rotating platform; 503. a connecting plate; 504. a fixed block; 505. a positioning block; 506. lifting the column; 507. a limiting block; 508. fixing a feeding seat; 5081. a feed chute; 509. fixing a discharging seat; 5091. a discharge chute; 6. an oiling assembly; 601. a high pressure grease tank; 602. a first bracket; 603. an oiler; 7. a stirring assembly; 701. a second bracket; 702. a mounting plate; 703. a mounting rod; 704. a stirring motor; 705. swing arms; 706. a pulling arm; 8. a traversing module; 9. a temporary storage plate; 901. a temporary storage groove; 10. a second support frame; 11. a pushing component; 1101. a pushing cylinder; 1102. a guide rail flat plate; 1103. a connecting frame; 1104. an L-shaped plate; 1105. lifting the sliding table; 1106. a push rod; 1107. a first rotating shaft; 12. a transition support; 1201. supporting the side plates; 1202. a transition support; 1203. a transition connecting seat; 1204. a positioning plate; 1205. a lengthening plate; 1206. a tension spring; 1207. positioning a shaft; 1208. a second rotating shaft; 13. a transition plate; 14. a lifting assembly; 1401. lifting the supporting frame; 1402. a lifting module; 1403. a support rod; 1404. a first pulley; 1405. a second pulley; 15. a stock component; 1501. a material storage frame; 1502. a stock plate; 15021. a storage groove; 16. an automatic control system; A. a sliding block.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

The same or similar reference numbers in the drawings of embodiments of the invention correspond to the same or similar components; in the description of the present invention, it should be understood that, if the terms "head", "tail", "top", "bottom", "left", "right", "front", "rear", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, they are merely for convenience in describing the present invention, and do not indicate or imply that the devices or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, so that the terms describing the positional relationships in the drawings are merely for exemplary illustration, and are not to be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those of ordinary skill in the art according to specific circumstances.

Referring to fig. 1-9, an embodiment of the present invention provides an automatic oiling device for a slider of a stopper, comprising a workbench 1, a vibration feeding assembly 2 disposed on the workbench 1, a conveying assembly 3 disposed on the workbench 1 for conveying the slider a, a first support frame 4 disposed on the workbench 1, a rotation fixing tool 5 disposed on the first support frame 4, an oiling assembly 6 disposed on the first support frame 4 for oiling the slider a, a kick-out assembly 7 disposed on the first support frame 4, a traverse module 8 disposed on the workbench 1, a temporary storage plate 9 disposed at an output end of the traverse module 8, a second support frame 10 disposed on the workbench 1, a pushing assembly 11 disposed on the second support frame 10, a transition support frame 12 disposed on the workbench 1, a transition plate 13 disposed on the transition support frame 12, a lifting assembly 14 disposed on the workbench 1, a stock assembly 15 disposed on the lifting assembly 14, the vibration feeding component 2 sends the sliding block A into the conveying component 3, the conveying component 3 sends the sliding block A into the rotary fixing tool 5, the material stirring component 7 stirs the sliding block A on the rotary fixing tool 5 into the temporary storage plate 9, the material pushing component 11 pushes the sliding block A on the temporary storage plate 9 to pass through the transition plate 13 and enter the material storage component 15, the workbench 1 is provided with an automatic control system 16 with a touch screen, all the components are controlled by the automatic control system 16, the workbench 1 is provided with an operation screen, the work efficiency and the safety guarantee of operators are fully considered, the oiling time can be saved, the automatic oil coating device has the advantages that the workload of manual operation is effectively reduced, the production takt is adjusted through the combined use of all components, the automatic operation of feeding, oiling, stacking storage and starting and stopping is realized, the oil coating amount is effectively controlled, the stacking storage convenience is improved, and the production safety is improved.

As shown in fig. 1 to 9, in some embodiments, the vibration feeding assembly 2 includes a tray 201, a straight vibration rail 202 obliquely disposed at a discharge port of the tray 201, and a vibrator 203 disposed on a bottom surface of the straight vibration rail 202.

As shown in fig. 1-9, in some embodiments, the conveying assembly 3 includes a conveying support 301, a conveying rail 302 disposed on the conveying support 301, a conveying motor 303 disposed on the conveying rail 302, and a conveying belt 304 disposed along the conveying rail 302, where the conveying belt 304 is in driving connection with an output shaft of the conveying motor 303, the slide a is spirally fed from the tray 201 to the direct vibrating rail 202, the direct vibrating rail 202 sends the slide a onto the conveying rail 302, and the conveying motor 303 rotates to drive the conveying belt 304 to move, so as to convey the slide a to a next station.

As shown in fig. 1-9, in some embodiments, the rotary fixing tool 5 includes a rotary motor 501 disposed on the first support frame 4, a hollow rotary platform 502, a connecting plate 503, a plurality of fixing blocks 504 disposed on the connecting plate 503 and used for fixing the sliding block a, a plurality of positioning blocks 505 disposed on the connecting plate 503, a plurality of lifting columns 506 disposed on the first support frame 4, and 2 limiting blocks 507 disposed on the lifting columns 506, where the number of the fixing blocks 504 and the positioning blocks 505 is 4, 5 or 6 according to specific working requirements, a fixing slot for accommodating the sliding block a is disposed on the fixing blocks 504, one end of the fixing slot is disposed in an opening, the limiting blocks 507 are located between 2 adjacent fixing blocks 504, the outer circumferential sides of the limiting blocks 507 are connected with the outer circumferential sides of the positioning blocks 505 to form a circular arc surface, the limiting blocks 507 are arc-shaped, 2 limiting blocks 507 are symmetrically arranged at intervals, a fixed feeding seat 508 and a fixed discharging seat 509 are arranged between 2 limiting blocks 507, a feeding groove 5081 is arranged on the fixed feeding seat 508, a discharging groove 5091 is arranged on the fixed discharging seat 509, an output shaft of the rotating motor 501 is connected with an input end of the hollow rotating platform 502, an output end of the hollow rotating platform 502 is connected with the connecting plate 503, a feeding seat is arranged in the fixed feeding hole, a discharging seat is arranged in the fixed discharging hole, the rotating motor 501 rotates, the output end of the hollow rotating platform 502 rotates, thereby driving the connecting plate 503 to rotate, the connecting plate 503 drives the fixed blocks 504 to rotate, 1 fixed block 504 is in butt joint with the feeding groove 5081, one end of the conveying track 302 is in butt joint with the feeding groove 5081, the conveyer 304 sends 1 slider A into feed chute 5081, the conveying motor 303 continues to rotate, follow-up slider A pushes up slider A into the fixed slot on fixed block 504, then rotating electrical machines 501 rotate, next fixed block 504 is docked with feed chute 5081, last fixed block 504 that is equipped with slider A rotates the below of oiling subassembly 6 and carries out the oiling, rotatory fixed block 504 is docked with blown down tank 5091 after the oiling is accomplished, stir the subassembly and dial slider A into temporary storage plate 9, hollow rotary platform 502 rotates steadily, pneumatic and stop noise is little, the impact force is little.

As shown in fig. 1-9, in some embodiments, the oiling assembly 6 includes a high-pressure grease tank 601 disposed on the workbench 1, a pneumatic grease pump disposed on the high-pressure grease tank 601, a first bracket 602 disposed on the first bracket 4, and an oiler 603 with a dosing valve disposed on the first bracket 602, where the pneumatic grease pump is communicated with the high-pressure grease tank 601 through a pipeline, the pneumatic grease pump is communicated with the dosing valve through a pipeline, a 40L pneumatic grease pump is used, the principle of the pneumatic grease pump is that a pneumatic motor is driven by compressed air to drive a piston to reciprocate, a high-pressure fluid output is obtained by using an area difference between upper and lower ends of the piston, butter is driven into the high-pressure grease tank 601, an electric contact pressure gauge is disposed on the upper portion of the high-pressure grease tank 601, when the pressure in the high-pressure grease tank 601 reaches a pressure value, the pneumatic grease pump is controlled to regulate the pressure, meanwhile, the high-pressure grease tank 601 plays a role of stabilizing pressure and butter enters the dosing valve 603, then the oiling valve is automatically driven by a solenoid valve, and the solenoid valve is not controlled to be opened.

As shown in fig. 1 to 9, in some embodiments, the material stirring assembly 7 includes a second bracket 701 disposed on the first support frame 4, a mounting plate 702 disposed on the second bracket 701, a mounting rod 703 slidably disposed on the mounting plate 702, a material stirring motor 704 disposed on the mounting plate 702, a swing arm 705, and a stirring arm 706 rotatably disposed on the mounting rod 703, an output shaft of the material stirring motor 704 is connected with the swing arm 705, one end of the stirring arm 706 is rotatably connected with the swing arm 705, the stirring arm 706 is in a bent shape, a bending part of the stirring arm 706 is rotatably connected with the mounting rod 703, the stirring motor 704 rotates to drive the swing arm 705 to rotate, so that the stirring arm 706 is driven to rotate, the stirring arm 706 rotates to drive the mounting rod 703 to slide, the linkage efficiency is high, and the stirring position is accurate.

As shown in fig. 1-9, in some embodiments, the pushing assembly 11 includes a pushing cylinder 1101 disposed on the second support frame 10, a guide rail flat plate 1102 slidably disposed on the second support frame 10, a connecting frame 1103 disposed at one end of the guide rail flat plate 1102, an L-shaped plate 1104 rotatably disposed on the connecting frame 1103, a lifting sliding table 1105 disposed on the L-shaped plate 1104, and a pushing rod 1106 disposed at an output end of the lifting sliding table 1105, where the output end of the pushing cylinder 1101 is connected to the guide rail flat plate 1102, the pushing cylinder 1101 drives the guide rail flat plate 1102 to slide, and the guide rail flat plate 1102 drives the connecting frame 1103 to move, thereby driving the pushing rod 1106 to move, and the pushing rod 1106 pushes the slider a on the temporary storage plate 9 into the stock assembly 15 via the transition plate 13.

In order to better store a plurality of sliding blocks A, a plurality of temporary storage grooves 901 are formed in the temporary storage seat, a plurality of sliding blocks A can be stored in each temporary storage groove 901, a plurality of transition grooves are correspondingly formed in the transition plate 13, the sliding module 8 moves to enable the sliding blocks A to enter each temporary storage groove 901, after the temporary storage plate 9 is fully filled with the sliding blocks A, the sliding module 8 drives the temporary storage plate 9 to return to be in butt joint with the transition plate 13, so that the temporary storage grooves 901 are communicated with the transition grooves, and the length of the push rod 1106 is larger than the width of the temporary storage plate 9, so that the push rod 1106 can push all the sliding blocks A into the transition grooves and the material storage assembly 15.

As shown in fig. 1-9, in some embodiments, the lifting assembly 14 includes a lifting support frame 1401 disposed on the workbench 1, a lifting module 1402 vertically disposed on the lifting support frame 1401, a stock frame 1501 disposed at an output end of the lifting module 1402, a plurality of stock plates 1502 disposed on the stock frame 1501 in parallel at intervals, a plurality of stock grooves 15021 are disposed on the stock plates 1502, the stock grooves 15021 are disposed corresponding to the transition grooves, when one of the stock plates 1502 is full of the sliding blocks a, the lifting module 1402 ascends to drive the stock frame 1501 to ascend, the next empty stock plate 1502 is in butt joint with the transition plate 13, and so on.

As shown in fig. 1-9, in some embodiments, the transition support 12 includes 2 support side plates 1201 disposed on the table 1, a transition support 1202 disposed between the 2 support side plates 1201, a transition connection seat 1203 rotatably disposed on the transition support 1202, a positioning plate 1204 disposed on the transition connection seat 1203, an extension plate 1205 disposed on the transition support 1202, a positioning shaft 1207 inserted on the extension plate 1205, and a tension spring 1206, one end of the tension spring 1206 is connected to the positioning plate 1204, the other end is connected to the positioning shaft 1207, the transition plate 13 is disposed on the transition connection seat 1203, a first rotation shaft 1107 is inserted on the L-shaped plate 1104, and a second rotation shaft 1208 is inserted on the transition connection seat 1203.

Because grease is arranged on the sliding block A, after the working time is long, when the sliding block A is forgotten to clean greasy dirt on the transition plate 13, and the push rod 1106 pushes the sliding block A, the sliding block A is possibly blocked between the storage plate 1502 and the transition plate 13, if the sliding block A is not timely perceived, the lifting module 1402 drives the storage frame 1501 to descend or ascend, the transition plate 13 is possibly pulled, the transition plate 13 is seriously damaged, the stretching spring 1206 is in a stretching state, when the transition plate 13 is pulled, the transition connecting seat 1203 rotates, a buffer effect is achieved, when the sliding block A is separated from the transition plate 13, the stretching spring 1206 pulls the transition plate 13 to reset, the transition plate 13 is prevented from being damaged due to tension, and likewise, the L-shaped plate 1104 is rotationally connected with the connecting frame 1103, so that the connection is more flexible, the buffer effect is achieved, in order to be able to timely find out a problem, a sensor is arranged below the transition plate 13 to sense whether the transition plate 13 rotates, if the transition plate 13 rotates, the signal automatic control system 16 is automatically controlled, the lifting module 1402 is closed, and an operator is timely processed.

As shown in fig. 1-9, in some embodiments, a T-shaped support rod 1403 is provided at the upper end of the lifting support frame 1401, a first pulley 1404 and a second pulley 1405 are rotatably provided at two lateral ends of the support rod 1403, a wire rope is threaded on the first pulley 1404 and the second pulley 1405, one end of the wire rope is connected with the stock frame 1501, the other end of the wire rope is connected with a counterweight, a weight sensor is provided on the stock frame 1501, after the stock trays 201 on the stock frame 1501 are stacked with the sliders a, the weight sensor identifies and sends a signal to the automatic control system 16, the automatic control system 16 controls the lifting module 1402 to rise, so that the next empty stock plate 1502 rises, the position balance of the stock frame 1501 after rising is realized through the counterweight, the pulleys and the wire rope, and the empty stock plate 1502 is confirmed to be stably docked with the transition plate 13 for subsequent work, thereby realizing the automatic layer searching function.

Specifically, each stock plate 1502 has 10 stock grooves 15021, and is provided with a full alarm, and when the whole stock frame 1501 is full, an alarm is given to remind an operator to take materials in time and replace the stock plate 1502.

As shown in fig. 1-9, in some embodiments, the material stirring motor 704 and the conveying motor 303 are stepper motors, so that the response speed is high, the stability is high, the durability is good, and the lifting module 1402 adopts screw drive, so that the lifting module has higher bearing capacity and more accurate driving.

The above examples are provided for the purpose of clearly illustrating the invention and are not to be construed as limiting the invention, and other variants and modifications of the various forms may be made by those skilled in the art based on the description, which are not intended to be exhaustive of all embodiments, and obvious variants or modifications of the invention may be found within the scope of the invention.

Claims (9)

1. The automatic oiling device for the stopper sliding block is characterized by comprising a workbench (1), a vibration feeding component (2) arranged on the workbench (1), a conveying component (3) arranged on the workbench (1) and used for conveying sliding blocks (A), a first supporting frame (4) arranged on the workbench (1), a rotary fixing tool (5) arranged on the first supporting frame (4), an oiling component (6) arranged on the first supporting frame (4) and used for oiling the sliding blocks (A), a stirring component (7) arranged on the first supporting frame (4), a traversing module (8) arranged on the workbench (1), a temporary storage plate (9) arranged at the output end of the traversing module (8), a second supporting frame (10) arranged on the workbench (1), a pushing component (11) arranged on the second supporting frame (10), a transition bracket (12) arranged on the workbench (1), a transition plate (13) arranged on the transition bracket (12), a lifting component (14) arranged on the workbench (1) and conveying component (3), the conveying assembly (3) conveys the sliding blocks (A) into the rotary fixing tool (5), the material stirring assembly (7) stirs the sliding blocks (A) on the rotary fixing tool (5) onto the temporary storage plate (9), and the material pushing assembly (11) pushes the sliding blocks (A) on the temporary storage plate (9) to pass through the transition plate (13) and enter the material storage assembly (15);

the transition support (12) comprises 2 support side plates (1201) arranged on the workbench (1), 2 transition supports (1202) arranged between the support side plates (1201), a transition connecting seat (1203) rotatably arranged on the transition supports (1202), a positioning plate (1204) arranged on the transition connecting seat (1203), an extension plate (1205) arranged on the transition supports (1202), a positioning shaft (1207) inserted on the extension plate (1205) and a tension spring (1206), one end of the tension spring (1206) is connected with the positioning plate (1204), the other end of the tension spring is connected with the positioning shaft (1207), and the transition plate (13) is arranged on the transition connecting seat (1203).

2. The automatic oiling device for the limiter sliding block according to claim 1, wherein the vibration feeding assembly (2) comprises a material tray (201), a straight vibration rail (202) obliquely arranged at a material outlet of the material tray (201), and a vibrator (203) arranged on the bottom surface of the straight vibration rail (202).

3. The automatic oiling device for a limiter sliding block according to claim 1, wherein the conveying assembly (3) comprises a conveying bracket (301), a conveying rail (302) arranged on the conveying bracket (301), a conveying motor (303) arranged on the conveying rail (302), and a conveying belt (304) arranged along the conveying rail (302), and the conveying belt (304) is in transmission connection with an output shaft of the conveying motor (303).

4. The automatic oiling device for the slider of the limiter according to claim 1, wherein the rotary fixing tool (5) comprises a rotary motor (501), a hollow rotary platform (502), a connecting plate (503), a plurality of fixing blocks (504) arranged on the connecting plate (503) and used for fixing the slider (A), a plurality of positioning blocks (505) arranged on the connecting plate (503), a plurality of lifting columns (506) arranged on the first supporting frame (4), 2 limiting blocks (507) arranged on the lifting columns (506), a fixing groove used for accommodating the slider (A) is arranged on the fixing block (504), one end of the fixing groove is opened, the limiting blocks (507) are arranged between 2 adjacent fixing blocks (504), the outer circumference sides of the limiting blocks (507) are connected with the outer circumference sides of the limiting blocks (505) to form an arc-shaped positioning block, the limiting blocks (507) are in the shape of an arc, 2 limiting blocks (507) are arranged at intervals, the limiting blocks (507) are symmetrically arranged at intervals, the limiting blocks (509) are arranged between the two limiting blocks (508) and the feeding seat (509) are arranged on the feeding seat (50) and the discharging seat (81) is fixedly arranged on the discharging seat (50), the output shaft of the rotating motor (501) is connected with the input end of the hollow rotating platform (502), and the output end of the hollow rotating platform (502) is connected with the connecting plate (503).

5. The automatic oiling device for the limiter sliding block according to claim 1, wherein the oiling component (6) comprises a high-pressure grease barrel (601) arranged on the workbench (1), a pneumatic grease pump arranged on the high-pressure grease barrel (601), a first support (602) arranged on the first support (4), and an oiling device (603) provided with a quantitative valve and arranged on the first support (602), wherein the pneumatic grease pump is communicated with the high-pressure grease barrel (601) through a pipeline, and the pneumatic grease pump is communicated with the quantitative valve through a pipeline.

6. The automatic oiling device for the limiter sliding block according to claim 1, wherein the stirring assembly (7) comprises a second bracket (701) arranged on the first supporting frame (4), a mounting plate (702) arranged on the second bracket (701), a mounting rod (703) slidably arranged on the mounting plate (702), a stirring motor (704) arranged on the mounting plate (702), a swinging arm (705) and a stirring arm (706) rotatably arranged on the mounting rod (703), an output shaft of the stirring motor (704) is connected with the swinging arm (705), and one end of the stirring arm (706) is rotatably connected with the swinging arm (705).

7. The automatic oiling device for the limiter sliding block according to claim 1, wherein the pushing assembly (11) comprises a pushing cylinder (1101) arranged on the second supporting frame (10), a guide rail flat plate (1102) slidably arranged on the second supporting frame (10), a connecting frame (1103) arranged at one end of the guide rail flat plate (1102), an L-shaped plate (1104) rotatably arranged on the connecting frame (1103), a lifting sliding table (1105) arranged on the L-shaped plate (1104) and a push rod (1106) arranged at the output end of the lifting sliding table (1105), and the output end of the pushing cylinder (1101) is connected with the guide rail flat plate (1102).

8. The automatic oiling device for the limiter sliding block according to claim 1, wherein the lifting assembly (14) comprises a lifting support frame (1401) arranged on the workbench (1), a lifting module (1402) vertically arranged on the lifting support frame (1401), a stock frame (1501) arranged at the output end of the lifting module (1402), and a plurality of stock plates (1502) arranged on the stock frame (1501) at intervals in parallel.

9. The automatic oiling device for the stopper sliding block according to claim 8, wherein a T-shaped supporting rod (1403) is arranged at the upper end of the lifting supporting frame (1401), and a first pulley (1404) and a second pulley (1405) are rotatably arranged at the two transverse ends of the supporting rod (1403) respectively.