CN116532979A - Sliding block oil scraping sheet assembling device and assembling method - Google Patents

Abstract

The invention discloses a sliding block oil scraping sheet assembling device and a sliding block oil scraping sheet assembling method. The device comprises a sliding block feeding mechanism, a first oil scraping plate screw mounting mechanism, an oil hole bolt mounting mechanism and a first detection mechanism which are arranged on a rack along the circumferential direction of a first rotating disc, wherein the second oil scraping plate feeding mechanism, the second oil scraping plate screw mounting mechanism, a glib mounting mechanism and a discharging mechanism which are arranged on the rack along the circumferential direction of a second rotating disc are arranged between the first rotating disc and the second rotating disc, and a rotary transfer mechanism used for transferring products in the first jig to the second jig is arranged between the first rotating disc and the second rotating disc. The advantages are that: adopt the structural design of two turntables, simple structure is compact, has practiced thrift the area of device, can effectually realize the both ends of slider and assemble the function such as scraping the oil sheet and lock screw to the oilhole, has improved work efficiency.

Description

Sliding block oil scraping sheet assembling device and assembling method

Technical Field

The invention relates to the field of slide block assembly equipment, in particular to a slide block oil scraping sheet assembly device and an assembly method.

Background

The sliding block is matched with the guide rail for use and is mainly applied to the sliding friction guide rail. The linear guide rail is also called a linear rail, a sliding rail, a linear guide rail and a linear sliding rail, is used for the occasion of linear reciprocating motion, can bear a certain torque, and can realize high-precision linear motion under the condition of high load. In order to reduce friction between the sliding block and the guide rail, the sliding block is provided with an oil scraping sheet and an oil nozzle, lubricating oil is applied to the guide rail by the oil nozzle in the sliding process of the sliding block, and redundant lubricating oil is scraped by the oil scraping sheet. The existing assembly mechanism of the sliding block, the oil scraping sheet and the oil nozzle adopts the design form of an assembly line, the design occupation area is large, the existing device is independently used for locking the oil nozzle or assembling the oil scraping sheet and the sliding block, and if the oil scraping sheet and the sliding block are assembled and simultaneously locked the oil hole, the operation is required to be carried out on two devices, and the working efficiency is low.

For example, chinese patent with publication number CN218193643U discloses an automatic kludge of slider oil scraping sheet, including the mount pad, be provided with the transfer chain on the mount pad, follow the transfer chain direction of delivery has set gradually the feeding mechanism that is used for providing the oil scraping sheet and is used for locking screw locking mechanism with scraping oil scraping sheet and slider, corresponds still be provided with on the transfer chain with feeding mechanism and screw locking mechanism one-to-one's climbing mechanism, still be provided with on the mount pad with screw locking mechanism corresponding counterpoint mechanism. The automatic assembly machine for the sliding block oil scraping sheet cannot lock the oil hole, and the whole automatic assembly machine is in line design and occupies a large area.

In view of the above, it is necessary to provide a slider wiper blade assembling device and an assembling method.

Disclosure of Invention

The invention provides a device and a method for assembling a sliding block oil scraping sheet, which effectively solve the problems of complex structure, large occupied area and low working efficiency of the traditional device.

The technical scheme adopted by the invention is as follows: the utility model provides a slider scraping oil piece assembly device, includes frame, first carousel and the second carousel of setting in the frame, a plurality of first jigs of circumference setting on first carousel respectively and a plurality of second jigs of setting on the second carousel. Still include slider feed mechanism, first oil scraping piece screw installation mechanism, oilhole bolt installation mechanism and the first detection mechanism of setting in the frame along first carousel circumference, follow second oil scraping piece feed mechanism, second oil scraping piece screw installation mechanism, glib talker installation mechanism and unloading mechanism in the frame of second carousel circumference, be provided with between first carousel and the second carousel and be used for shifting the rotation of the product in the first tool to move and carry the mechanism in the second tool.

Further is: the sliding block feeding mechanism comprises a sliding block feeding box arranged on a frame, a first support arranged on the frame, a first linear module horizontally arranged on the first support, a first cylinder fixedly arranged at the output end of the first linear module, two clamping arms symmetrically arranged and hinged with the output end of the first cylinder, a spring sleeved at the output end of the first cylinder, and a sleeve slidingly arranged on the output of the first cylinder, wherein the upper end of the spring is fixedly connected with the cylinder body of the first cylinder, the lower end of the spring is connected with the sleeve, and the two clamping arms are tightly pressed when the output end of the first cylinder contracts.

Further is: the first oil scraping sheet feeding mechanism and the second oil scraping sheet feeding mechanism are identical in structure, and the first oil scraping sheet feeding mechanism comprises an oil scraping sheet feeding box arranged on a frame, a second support arranged on the frame, a second linear module horizontally arranged on the second support, a third linear module vertically arranged at the output end of the second linear module and a sucking disc fixedly arranged at the output end of the third linear module.

Further is: the first oil scraping sheet screw mounting mechanism is identical to the second oil scraping sheet screw mounting mechanism in structure, the first oil scraping sheet screw mounting mechanism comprises a first screw feeding vibration disc arranged on a frame, a third support arranged on the frame, a fourth linear module horizontally arranged on the third support, a fifth linear module fixedly arranged at the output end of the fourth linear module, and a first screw locking machine fixedly arranged at the output end of the fifth linear module, wherein a screw driver of the first screw locking machine is a magnetic screw driver.

Further is: the oil hole bolt installation mechanism comprises a second screw feeding vibration disc arranged on the frame, a fourth support arranged on the frame, a sixth linear module horizontally arranged on the fourth support, a seventh linear module vertically and fixedly arranged at the output end of the sixth linear module, and a second screw locking machine fixedly arranged at the output end of the seventh linear module, wherein a screw driver of the second screw locking machine is a magnetic screw driver.

Further is: the rotary transfer mechanism comprises a rotary cylinder arranged on the frame, a rotating shaft fixedly arranged at the output end of the rotary cylinder and clamping jaws fixedly arranged on the rotating shaft.

Further is: the nozzle tip installation mechanism comprises a nozzle tip feeding vibration disc arranged on a frame, a seventh support arranged on the frame, an eight-number linear module horizontally arranged on the seventh support, a nine-number linear module vertically arranged at the output end of the eight-number linear module and a magnetic electric wrench fixedly arranged at the output end of the nine-number linear module.

Further is: the blanking mechanism comprises a detector arranged on the frame, a good product material box arranged on the frame, a bad material box arranged on the frame and a transfer assembly arranged on the frame.

An assembly method of a sliding block oil scraping sheet comprises the following steps:

s1, a sliding block feeding mechanism transfers a sliding block from a sliding block feeding box to a first jig.

S2, the first rotating disc rotates, so that the first jig stops after rotating to a position corresponding to the first oil scraping sheet feeding mechanism, and then the first oil scraping sheet feeding mechanism places the oil scraping sheet above the sliding block.

S3, then, the first rotating disc rotates, so that the first jig stops after rotating to a position corresponding to the first oil scraping plate screw mounting mechanism, and the first oil scraping plate screw mounting mechanism locks the sliding block and the oil scraping plate provided by the first oil scraping plate feeding mechanism.

And S4, subsequently, the first rotating disc rotates, so that the first jig rotates to be stopped after corresponding to the oil hole bolt mounting mechanism, and the screw thread is mounted in the oil hole of the sliding block by the oil hole bolt mounting mechanism.

S5, then the first rotating disc rotates, so that the first jig rotates to a position corresponding to the first detection mechanism, then the first detection mechanism detects the product, and after the product is detected to be qualified, the rotary transfer mechanism turns over the product 180 degrees from the first jig and then transfers the product to the second jig.

S6, then the second turntable rotates, so that the second jig rotates to a position corresponding to the second oil scraping sheet feeding mechanism, and then the second oil scraping sheet feeding mechanism places the oil scraping sheet above the sliding block.

And S7, subsequently, the second turntable rotates, so that the second jig rotates to a position corresponding to the second oil scraping plate screw mounting mechanism, and the second oil scraping plate screw mounting mechanism locks the oil scraping plate and the sliding block.

S8, then the second turntable rotates, so that the second jig rotates to the corresponding position of the oil nozzle mounting mechanism, and the oil nozzle mounting mechanism is used for mounting the oil nozzle thread in the oil hole of the sliding block.

S9, then the second rotary table rotates, the second jig corresponds to the blanking mechanism, and the blanking mechanism transfers products from the second jig.

The invention has the beneficial effects that: adopt the structural design of two turntables, simple structure is compact, has practiced thrift the area of device, can effectually realize the both ends of slider and assemble the function such as scraping the oil sheet and lock screw to the oilhole, has improved work efficiency.

Drawings

Fig. 1 is an overall schematic diagram of a slider wiper assembly device according to an embodiment of the present disclosure.

Fig. 2 is a schematic diagram of a slider feeding mechanism of a slider wiper blade assembly device according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a first wiper feeding mechanism of the slider wiper assembly device according to an embodiment of the present application.

Fig. 4 is a schematic view of a first wiper screw mounting mechanism of a slider wiper assembly device according to an embodiment of the present disclosure.

Fig. 5 is a schematic diagram of an oil hole bolt mounting mechanism of a slider wiper blade assembly device according to an embodiment of the present disclosure.

Fig. 6 is a schematic diagram of a rotation transfer mechanism of the slider wiper blade assembly device according to the embodiment of the present application.

Fig. 7 is a schematic view of a nozzle tip mounting mechanism of a slider wiper blade assembly device according to an embodiment of the present disclosure.

Fig. 8 is a schematic diagram of a blanking mechanism of the slider wiper blade assembly device according to the embodiment of the present application.

Marked in the figure as: 1. a frame; 2. a first turntable; 3. a second turntable; 4. a slide block feeding mechanism; 5. the first oil scraping sheet feeding mechanism; 6. the first oil scraping sheet screw mounting mechanism; 7. an oil hole bolt mounting mechanism; 8. a first detection mechanism; 9. the second oil scraping sheet feeding mechanism; 10. the second oil scraping sheet screw mounting mechanism; 11. a nozzle tip mounting mechanism; 13. a rotary transfer mechanism; 41. a slider feed box; 42. a first support; 43. a first straight line module; 44. a first air cylinder; 45. a spring; 46. a sleeve; 47. a clamp arm; 51. a wiper blade feed box; 52. a second support; 53. a second straight line module; 54. a third straight line module; 55. a suction cup; 61. a first screw feeding vibration disc; 62. a third support; 63. a fourth straight line module; 64. a fifth straight line module; 65. a first screw locking machine; 71. a second bolt feeding vibration disc; 72. a fourth support; 73. a sixth straight line module; 74. a seventh straight line module; 75. a second screw locking machine; 131. a rotary cylinder; 132. a rotating shaft; 133. a clamping jaw; 14. a blanking mechanism; 141. a detector; 142. a good product box; 143. a reject bin; 144. a transfer assembly; 111. a nozzle feeding vibration plate; 112. a seventh support; 113. a number eight linear module; 114. a ninth straight line module; 115. a magnetic electric wrench.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings.

As shown in fig. 1, the embodiment of the application provides a slider oil scraping plate assembling device, which structurally includes a frame 1, a first turntable 2 and a second turntable 3 arranged on the frame 1, a plurality of first jigs respectively circumferentially arranged on the first turntable 2, and a plurality of second jigs arranged on the second turntable 3. The device further comprises a sliding block feeding mechanism 4, a first oil scraping plate feeding mechanism 5, a first oil scraping plate screw mounting mechanism 6, an oil hole bolt mounting mechanism 7 and a first detection mechanism 8 which are arranged on the frame 1 along the circumferential direction of the first rotary table 2, a second oil scraping plate feeding mechanism 9, a second oil scraping plate screw mounting mechanism 10, a second oil hole screw mounting mechanism and a blanking mechanism 14 which are arranged on the frame 1 along the circumferential direction of the second rotary table 3, and a rotary transfer mechanism 13 for transferring products in the first jig to the second jig is arranged between the first rotary table 2 and the second rotary table 3.

During actual use, the sliding block is vertically placed in the first jig by the sliding block feeding mechanism 4, the sliding block is rotated to the corresponding position of the first oil scraping plate feeding mechanism 5 by the first rotary table 2, then the oil scraping plate is placed at the upper end of the sliding block by the first oil scraping plate feeding mechanism 5, after the sliding block is rotated to the corresponding position of the first oil scraping plate screw mounting mechanism 6, the oil scraping plate is locked with the sliding block by the first oil scraping plate screw mounting mechanism 6, after the sliding block is rotated to the corresponding position of the oil hole bolt mounting mechanism 7, the screw thread is mounted in the oil hole of the sliding block by the oil hole bolt mounting mechanism 7, then the first detecting mechanism 8 detects whether the processing of the sliding block and the oil scraping plate in the first rotary table 2 meets the requirement or not, namely, the sliding block is rotated 180 degrees in the vertical direction by the rotary transfer mechanism 13 and then is transferred to the second jig, and one end of the sliding block, on which the oil scraping plate is processed, is contacted with the second jig. The second turntable 3 rotates the slide block to the position aligned with the second oil scraping plate feeding mechanism 9, the second oil scraping plate feeding mechanism 9 places the oil scraping plate at the upper end of the slide block, the second oil scraping plate screw mounting mechanism 10 locks the oil scraping plate and the slide block after the slide block rotates to the position corresponding to the second oil scraping plate screw mounting mechanism 10, the second oil hole screw mounting mechanism 7 installs screw threads in an oil hole of the slide block after the slide block rotates to the position corresponding to the second oil hole screw mounting mechanism 7, and the blanking mechanism 14 transfers products out of the second jig.

In the design, the double-turntable type oil scraping plate has the advantages that the double-turntable type oil scraping plate is structurally designed, the structure is simple and compact, the occupied area of the device is saved, the functions of assembling the oil scraping plate at two ends of the sliding block, locking screws in the oil holes and the like can be effectively achieved, and the working efficiency is improved.

Specifically: as shown in fig. 2, the slider feeding mechanism 4 includes a slider feeding box 41 disposed on the frame 1, a first support 42 disposed on the frame 1, a first linear module 43 horizontally disposed on the first support 42, a first cylinder 44 fixedly disposed at an output end of the first linear module 43, two clamping arms 47 symmetrically disposed and hinged to the output end of the first cylinder 44, a spring 45 sleeved at the output end of the first cylinder 44, and a sleeve 46 slidably disposed on the output of the first cylinder 44, wherein an upper end of the spring 45 is fixedly connected with a cylinder body of the first cylinder 44, a lower end of the spring 45 is connected with the sleeve 46, and the sleeve 46 compresses the two clamping arms 47 when the output end of the first cylinder 44 contracts.

It should be noted that the first jig has the same structure as the second jig, and the first jig just accommodates the slider in the vertical state. The opposite sides of the two clamping arms 47 are connected by an elastic member, and the two clamping arms 47 are opened by the elastic force of the elastic member.

In actual use, when the slide block needs to be transferred from the slide block feed box 41 to the first jig, the first linear module 43 drives the first air cylinder 44 to move to the position right above the slide block, at this time, the two clamping arms 47 are respectively located at two sides of the slide block, then the output end of the first air cylinder 44 is contracted, so that the spring 45 is compressed, at this time, the two clamping arms 47 follow the output end of the first air cylinder 44 to move upwards through the sleeve 46, and due to the limit of the sleeve 46, the two clamping arms 47 move relatively around the hinge point, and at this time, the elastic piece is compressed under the relative action of the two clamping arms 47. Finally, the sliding block is clamped from two sides of the sliding block and moves upwards for a certain distance, then the first linear module 43 drives the first cylinder 44 to move to the upper part of the first jig, the output end of the first cylinder 44 extends out, the spring 45 is gradually reset, and finally the two clamping arms 47 are gradually opened under the action of the elastic force of the elastic piece, so that the sliding block falls into the first jig.

Among the above-mentioned design, the structural design of slider feed mechanism 4 can effectually snatch the slider and shift, guarantees that the slider is stable and easily place in first tool in the transfer process.

Specifically: as shown in fig. 3, the first wiper blade feeding mechanism 5 and the second wiper blade feeding mechanism 9 have the same structure, and the first wiper blade feeding mechanism 5 includes a wiper blade feeding box 51 disposed on the frame 1, a second support 52 disposed on the frame 1, a second straight line module 53 horizontally disposed on the second support 52, a third straight line module 54 vertically disposed at an output end of the second straight line module 53, and a suction cup 55 fixedly disposed at an output end of the third straight line module 54.

In actual use, the second linear module 53 drives the third linear module 54 to move above the oil scraping sheet feeding box 51, then the third linear module 54 drives the suction disc 55 to move downwards so that the suction disc 55 adsorbs the oil scraping sheet and then moves upwards, then the second linear module 53 drives the third linear module 54 so that the oil scraping sheet is located above the sliding block, and then the third linear module 54 drives the suction disc 55 to move downwards so that the oil scraping sheet is placed on the sliding block.

In the above design, the structural design of the first oil scraping sheet feeding mechanism 5 can effectively transfer the oil scraping sheet to the upper part of the sliding block.

Specifically: as shown in fig. 4, the first oil scraping screw mounting mechanism 6 has the same structure as the second oil scraping screw mounting mechanism 10, the first oil scraping screw mounting mechanism 6 includes a first screw feeding vibration disc 61 disposed on the frame 1, a third support 62 disposed on the frame 1, a fourth linear module 63 horizontally disposed on the third support 62, a fifth linear module 64 fixedly disposed at an output end of the fourth linear module 63, and a first screw locking machine 65 fixedly disposed at an output end of the fifth linear module 64, and a screwdriver of the first screw locking machine 65 is a magnetic screwdriver.

In actual use, when the oil scraping sheet and the sliding block are required to be locked, the fourth linear module 63 drives the fifth linear module 64 to move above the first screw feeding vibration disc 61, then the fifth linear module 64 drives the first screw locking machine 65 to move downwards, so that a screw is magnetically adsorbed by a screw driver of the first screw locking machine 65, then the fifth linear module 43 drives the fifth linear module 64 to move above the sliding block, the fifth linear module 64 drives the first screw locking machine 65 to move downwards, and the oil scraping sheet and the sliding block are locked by the screw.

In the above design, the structural design of the first oil scraping sheet screw mounting mechanism 6 is convenient for not only feeding of screws, but also locking of the sliding block and the oil scraping sheet.

Specifically: as shown in fig. 5, the oil hole bolt installation mechanism 7 includes a second screw feeding vibration disc disposed on the frame 1, a fourth support 72 disposed on the frame 1, a sixth linear module 73 horizontally disposed on the fourth support 72, a seventh linear module 74 vertically and fixedly disposed at an output end of the sixth linear module 73, and a second screw locking machine 75 fixedly disposed at an output end of the seventh linear module 74, wherein a screwdriver of the second screw locking machine 75 is a magnetic screwdriver.

In actual use, the sixth linear module 73 drives the seventh linear module 74 to move above the second screw feeding vibration disc, then the seventh linear module 74 drives the second screw locking machine 75 to move downwards, so that a screw is adsorbed by a screw driver of the second screw locking machine 75, then the sixth linear module 73 drives the seventh linear module 74 to move above the sliding block, the seventh linear module 74 drives the second screw locking machine 75 to move downwards, and the second screw locking machine 75 locks the screw in the oil hole.

In the above design, the structural design of the oil hole bolt mounting mechanism 7 facilitates locking the screw in the oil hole.

Specifically: as shown in fig. 6, the rotary transfer mechanism 13 includes a rotary cylinder 131 provided on the frame 1, a rotary shaft 132 fixedly provided at an output end of the rotary cylinder 131, and a clamping jaw 133 fixedly provided on the rotary shaft 132.

In actual use, the clamping jaw 133 clamps the sliding block in the first jig, and then the rotary cylinder 131 drives the rotary shaft 132 to rotate 180 degrees, and then the clamping jaw 133 places the sliding block turned 180 degrees in the second jig.

In the above design, the structural design of the rotary transfer mechanism 13 can effectively transfer the slide block from the first jig to the second jig.

Specifically: as shown in fig. 7, the nozzle tip mounting mechanism 11 includes a nozzle tip feeding vibration plate 111 provided on the frame 1, a seventh support 112 provided on the frame 1, a No. eight linear module 113 horizontally provided on the seventh support 112, a No. nine linear module 114 vertically provided at an output end of the No. eight linear module 113, and a magnetic electric wrench 115 fixedly provided at an output end of the No. nine linear module 114.

In actual use, the eighth linear module 113 drives the ninth linear module 114 to move above the nozzle feeding box, then the ninth linear module 114 drives the magnetic electric wrench 115 to adsorb the nozzle in the nozzle feeding vibration disk 111, and then the eighth linear module 113 and the ninth linear module 114 drive the nozzle adsorbed by the magnetic electric wrench 115 to be locked with the slide block.

In the design, the locking of the oil nozzle and the sliding block can be effectively realized.

Specifically: as shown in fig. 8, the discharging mechanism 14 includes a detector 141 disposed on the frame 1, a good product magazine 142 disposed on the frame 1, a bad product magazine 143 disposed on the frame 1, and a transfer unit 144 disposed on the frame 1.

In actual use, after the detector 141 detects that the finished product is qualified, the transfer component 144 transfers the qualified product into the qualified product box 142. When the detector 141 detects a reject of the finished product, the transfer assembly 144 transfers the reject of the finished product to the reject bin 143.

In the above design, the structural design of the blanking mechanism 14 can be embodied to facilitate the sorting and collecting of the finished products.

An assembly method of a sliding block oil scraping sheet comprises the following steps:

s1, the slide block feeding mechanism 4 transfers the slide block from the slide block feeding box 41 to the first jig.

S2, the first rotating disc 2 rotates, so that the first jig stops after rotating to a position corresponding to the first oil scraping sheet feeding mechanism 5, and then the first oil scraping sheet feeding mechanism 5 places the oil scraping sheet above the sliding block.

S3, subsequently, the first rotating disc 2 rotates, so that the first jig stops after rotating to a position corresponding to the first scraping plate screw mounting mechanism 6, and the first scraping plate screw mounting mechanism 6 locks the scraping plate provided by the sliding block and the first scraping plate feeding mechanism 5.

And S4, subsequently, the first rotating disc 2 rotates, so that the first jig rotates to correspond to the oil hole bolt mounting mechanism 7 and then stops, and the oil hole bolt mounting mechanism 7 is used for mounting screw threads in an oil hole of the sliding block.

S5, then the first rotating disc 2 rotates, so that the first jig rotates to the corresponding position of the first detection mechanism 8, then the first detection mechanism 8 detects products, and after the products are detected to be qualified, the rotary transfer mechanism 13 turns over the products 180 degrees from the first jig and then transfers the products to the second jig.

S6, then the second rotary table 3 rotates, so that the second jig rotates to a position corresponding to the second oil scraping sheet feeding mechanism 9, and then the second oil scraping sheet feeding mechanism 9 places the oil scraping sheet above the sliding block.

And S7, subsequently, the second turntable 3 rotates, so that the second jig rotates to a position corresponding to the second oil scraping sheet screw mounting mechanism 10, and the second oil scraping sheet screw mounting mechanism 10 locks the oil scraping sheet and the sliding block.

And S8, subsequently, the second rotary table 3 rotates, so that the second jig rotates to a position corresponding to the oil nozzle mounting mechanism 11, and the oil nozzle mounting mechanism 11 is used for mounting the oil nozzle thread in the oil hole of the sliding block.

S9, then the second rotary table 3 rotates, the second jig corresponds to the blanking mechanism 14, and the blanking mechanism 14 transfers products from the second jig.

It should be understood that the foregoing description is only illustrative of the present invention and is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (9)

1. The utility model provides a slider scraping oil piece assembly device, includes frame (1), first carousel (2) and second carousel (3) of setting on frame (1), a plurality of first jigs of circumference setting on first carousel (2) respectively and a plurality of second jigs of setting on second carousel (3), its characterized in that: still include slider feed mechanism (4), first oil scraping piece feed mechanism (5), first oil scraping piece screw installation mechanism (6), oilhole bolt installation mechanism (7) and first detection mechanism (8) of setting up on frame (1) along first carousel (2) circumference, follow second oil scraping piece feed mechanism (9), second oil scraping piece screw installation mechanism (10), glib installation mechanism (11) and unloading mechanism (14) of second carousel (3) circumference on frame (1), be provided with between first carousel (2) and second carousel (3) and be used for transferring the rotation transfer mechanism (13) in the second tool with the product in the first tool.

2. The slider wiper blade assembly as set forth in claim 1 wherein: the sliding block feeding mechanism (4) comprises a sliding block feeding box (41) arranged on a frame (1), a first support (42) arranged on the frame (1), a first linear module (43) horizontally arranged on the first support (42), a first cylinder (44) fixedly arranged at the output end of the first linear module (43), two clamping arms (47) symmetrically arranged and hinged with the output end of the first cylinder (44), a spring (45) sleeved at the output end of the first cylinder (44), and a sleeve (46) slidably arranged on the output of the first cylinder (44), wherein the upper end of the spring (45) is fixedly connected with a cylinder body of the first cylinder (44), the lower end of the spring (45) is connected with the sleeve (46), and the sleeve (46) compresses the two clamping arms (47) when the output end of the first cylinder (44) contracts.

3. The slider wiper blade assembly as set forth in claim 1 wherein: the first oil scraping sheet feeding mechanism (5) and the second oil scraping sheet feeding mechanism (9) are identical in structure, and the first oil scraping sheet feeding mechanism (5) comprises an oil scraping sheet feeding box (51) arranged on a frame (1), a second support (52) arranged on the frame (1), a second straight line module (53) horizontally arranged on the second support (52), a third straight line module (54) vertically arranged at the output end of the second straight line module (53) and a sucker (55) fixedly arranged at the output end of the third straight line module (54).

4. The slider wiper blade assembly as set forth in claim 1 wherein: the first oil scraping screw mounting mechanism (6) and the second oil scraping screw mounting mechanism (10) are identical in structure, the first oil scraping screw mounting mechanism (6) comprises a screw feeding vibration disc (61) arranged on the frame (1), a third support (62) arranged on the frame (1), a fourth linear module (63) horizontally arranged on the third support (62), a fifth linear module (64) fixedly arranged at the output end of the fourth linear module (63) and a first screw locking machine (65) fixedly arranged at the output end of the fifth linear module (64), and a screw driver of the first screw locking machine (65) is a magnetic screw driver.

5. The slider wiper blade assembly as set forth in claim 1 wherein: the oil hole bolt installation mechanism (7) comprises a second screw feeding vibration disc arranged on the frame (1), a fourth support (72) arranged on the frame (1), a sixth linear module (73) horizontally arranged on the fourth support (72), a seventh linear module (74) vertically and fixedly arranged at the output end of the sixth linear module (73), and a second screw locking machine (75) fixedly arranged at the output end of the seventh linear module (74), wherein a screw driver of the second screw locking machine (75) is a magnetic screw driver.

6. The slider wiper blade assembly as set forth in claim 1 wherein: the rotary transfer mechanism (13) comprises a rotary cylinder (131) arranged on the frame (1), a rotating shaft (132) fixedly arranged at the output end of the rotary cylinder (131), and clamping claws (133) fixedly arranged on the rotating shaft (132).

7. The slider wiper blade assembly as set forth in claim 1 wherein: the oil nozzle mounting mechanism (11) comprises an oil nozzle feeding vibration disc (111) arranged on the frame (1), a seventh support (112) arranged on the frame (1), an eighth linear module (113) horizontally arranged on the seventh support (112), a ninth linear module (114) vertically arranged at the output end of the eighth linear module (113) and a magnetic electric wrench (115) fixedly arranged at the output end of the ninth linear module (114).

8. The slider wiper blade assembly as set forth in claim 1 wherein: the blanking mechanism (14) comprises a detector (141) arranged on the frame (1), a good product material box (142) arranged on the frame (1), a bad material box (143) arranged on the frame (1) and a transfer assembly (144) arranged on the frame (1).

9. The assembly method of the sliding block oil scraping sheet is characterized by comprising the following steps of: the method comprises the following steps:

s1, a sliding block feeding mechanism (4) transfers a sliding block from a sliding block feeding box (41) to a first jig;

s2, rotating the first rotating disc (2) to enable the first jig to rotate to a position corresponding to the first oil scraping sheet feeding mechanism (5) and then stopping, and then placing the oil scraping sheet above the sliding block by the first oil scraping sheet feeding mechanism (5);

s3, subsequently, the first rotating disc (2) rotates, so that the first jig stops after rotating to a position corresponding to the first oil scraping plate screw mounting mechanism (6), and the first oil scraping plate screw mounting mechanism (6) locks the oil scraping plate provided by the sliding block and the first oil scraping plate feeding mechanism (5);

s4, subsequently, the first rotating disc (2) rotates, so that the first jig rotates to be stopped after corresponding to the oil hole bolt mounting mechanism (7), and the oil hole bolt mounting mechanism (7) is used for mounting screw threads in an oil hole of the sliding block;

s5, rotating the first rotating disc (2) to enable the first jig to rotate to a position corresponding to the first detection mechanism (8), detecting a product by the first detection mechanism (8), and transferring the product to the second jig after the product is turned 180 degrees from the first jig by the rotary transfer mechanism (13) after the product is detected to be qualified;

s6, then the second rotary table (3) rotates, so that the second jig rotates to a position corresponding to the second oil scraping sheet feeding mechanism (9), and then the second oil scraping sheet feeding mechanism (9) places the oil scraping sheet above the sliding block;

s7, subsequently, the second rotary table (3) rotates, so that the second jig rotates to a position corresponding to the second oil scraping plate screw mounting mechanism (10), and the second oil scraping plate screw mounting mechanism (10) locks the oil scraping plate and the sliding block;

s8, subsequently, the second rotary table (3) rotates, so that the second jig rotates to a position corresponding to the oil nozzle mounting mechanism (11), and the oil nozzle mounting mechanism (11) is used for mounting the oil nozzle thread in the oil hole of the sliding block;

s9, then the second rotary table (3) rotates, the second jig corresponds to the blanking mechanism (14), and the blanking mechanism (14) transfers products from the second jig.