Electric clipper lubricating oil filling production equipment

By designing an electric shear lubricating oil filling production equipment, the lubricating oil filling process has been fully automated, solving the problems of low efficiency and high cost of manual operation, improving filling efficiency and reducing labor costs.

CN224337225UActive Publication Date: 2026-06-09ZHONGPAI INTELLIGENT MANUFACTURING (FOSHAN) TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGPAI INTELLIGENT MANUFACTURING (FOSHAN) TECHNOLOGY CO LTD
Filing Date
2025-04-25
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing lubricating oil filling process relies on manual operation, which is inefficient and has high labor costs, making it difficult to meet the needs of automation.

Method used

Design an electric clipper lubricating oil filling production equipment, including a worktable, turntable, bottle body vibrating plate, filling unit, rubber stopper vibrating plate, stoppering unit, bottle cap vibrating plate, capping unit, screw capping unit and unloading conveyor belt to realize a fully automated filling process. Through the coordinated work of the filling unit, stoppering unit, capping unit and screw capping unit, the automated operation of filling the bottle body with oil, inserting rubber stopper and tightening bottle cap is completed.

Benefits of technology

It has achieved full automation of the lubricating oil filling process, improved work efficiency, reduced labor costs, and enhanced filling efficiency and the automation level of the production line.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224337225U_ABST
    Figure CN224337225U_ABST
Patent Text Reader

Abstract

The application relates to the technical field of lubricating oil filling, in particular to an electric clipper lubricating oil filling production equipment, which comprises a workbench, a rotating disc is installed on the workbench, a bottle body vibrating disc, a filling unit, a rubber plug vibrating disc, a plug inserting unit, a cap vibrating disc, a cap inserting unit, a cap screwing unit and a discharging conveying belt are sequentially arranged on the outer periphery of the rotating disc, the rotating disc is provided with uniformly-arranged bayonets on the circumferential surface, an annular guide rail is arranged on the outer periphery of the rotating disc, the annular guide rail extends from the bottle body vibrating disc to the discharging conveying belt, the inner side of the annular guide rail is an L-shaped stepped track, and the bottom of the L-shaped stepped track extends to the bottom of the rotating disc. The automatic working mode is adopted to realize automatic production in the electric clipper lubricating oil filling process, the filling work efficiency is greatly improved, and the labor cost can be further reduced.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to the field of lubricating oil filling technology, and in particular to an electric clipper lubricating oil filling production equipment. Background Technology

[0002] The blades of electric clippers move at high speeds during operation, resulting in significant friction between the blades. Without sufficient lubrication, this increased friction leads to accelerated blade wear and negatively impacts cutting performance. Lubrication reduces friction between the blades, ensuring a smooth cutting process.

[0003] Reference Figure 1 and Figure 2 , Figure 1 and Figure 2 This is an overall schematic diagram and exploded view of the lubricating oil bottle to be filled with lubricating oil in this application. It includes a bottle body 101, a rubber stopper 102, and a bottle cap 103, all of which are in the shape of a rotating body. After the lubricating oil is filled, the rubber stopper 102 is first sealed to the bottle mouth of the bottle body 101, and then the bottle cap 103 is tightened.

[0004] Currently, during the filling process, after filling with lubricating oil, the rubber stopper is usually inserted and the cap is tightened manually. This method is inefficient and has high labor costs. Therefore, further improvements are possible. Utility Model Content

[0005] In order to improve filling efficiency and further reduce labor costs, this application provides an electric clipper lubricating oil filling production equipment.

[0006] The electric clipper lubricating oil filling production equipment provided in this application adopts the following technical solution:

[0007] An electric clipper lubricating oil filling production equipment includes a workbench with a turntable mounted on it. The outer periphery of the turntable is sequentially equipped with a bottle vibrating plate, a filling unit, a stopper vibrating plate, a stopper attaching unit, a cap vibrating plate, a cap attaching unit, a cap screwing unit, and a feeding conveyor belt. The turntable has evenly arranged slots along its circumference. An annular guide rail is provided on the outer periphery of the turntable, extending from the bottle vibrating plate to the feeding conveyor belt. The inner side of the annular guide rail has an L-shaped stepped track opening, with the bottom of the L-shaped stepped track opening extending to the bottom of the turntable.

[0008] By adopting the above technical solution, during the operation, the bottle vibrating plate transports the bottle to the slot on the side of the turntable, and as the turntable rotates, it enters the annular guide rail and is transported along the annular guide rail. During this process, the filling unit injects lubricating oil into the bottle, the stopper unit inserts the stopper from the stopper vibrating plate into the bottle neck, the capping unit grabs the cap from the cap vibrating plate and places it onto the stopper, and then the capping unit tightens it. Finally, at the unloading conveyor belt, the cap detaches from the annular guide rail and falls onto the unloading conveyor belt for finished product output. This fully automated operation greatly improves filling efficiency and further reduces labor costs.

[0009] Optionally, the infusion unit includes an infusion base frame, an infusion seat mounted on the infusion base frame, and an infusion nozzle mounted on the infusion seat. The infusion seat is subject to lifting control, and the infusion nozzle is arranged above the slot in the turntable and faces downward.

[0010] By adopting the above technical solution, during the working process, after the bottle body is transported to the bottom of the filling nozzle, the filling nozzle moves down with the filling seat and penetrates into the bottle body, and then the lubricating oil in the external oil tank is poured into the bottle body through the pipeline.

[0011] Optionally, the number of the injection nozzles is two, and the two injection nozzles are respectively aligned with two adjacent bayonets.

[0012] By adopting the above technical solution, the number of filling nozzles is set to two, which can fill two bottles at the same time, improving the efficiency of a single filling and reducing the frequency of lifting and lowering of the filling seat.

[0013] Optionally, the injection nozzle is mounted on the injection seat via a cantilever rod. One end of the cantilever rod is fixedly mounted on the injection seat, and the other end extends to the turntable. The injection nozzle is mounted on the suspended end of the cantilever rod. The cantilever rod and the injection seat are connected by screws. The end of the cantilever rod is formed with a strip-shaped hole that extends along the length of the cantilever rod. The screw passes through the strip-shaped hole and is threaded to the injection seat.

[0014] By adopting the above technical solution, during the installation process, the injection nozzle can be adjusted by rotation and linear adjustment through the cooperation of the strip hole and the screw, so as to adjust the injection nozzle to the accurate position and reduce the installation difficulty of the injection nozzle.

[0015] Optionally, the upper stopper unit includes an upper stopper base frame, an upper stopper seat mounted on the upper stopper base frame, and a rubber stopper suction nozzle mounted on the upper stopper seat. The upper stopper seat can be moved back and forth between the output end of the rubber stopper vibrating plate and the turntable, and the rubber stopper suction nozzle can be raised and lowered relative to the upper stopper seat.

[0016] By adopting the above technical solution, during the working process, when the bottle body is transported to the position of the upper stopper unit, the rubber stopper suction nozzle moves with the upper stopper seat, sucks up the rubber stopper from the output end of the rubber stopper vibrating plate and transfers it to the top of the bottle body, and then presses the rubber stopper into the bottle mouth during the downward movement.

[0017] Optionally, the upper cover unit includes an upper cover base frame, an upper cover seat mounted on the upper cover base frame, and a bottle cap suction nozzle mounted on the upper cover seat. The upper cover seat can be moved back and forth between the output end of the bottle cap vibrating plate and the turntable, and the bottle cap suction nozzle can be raised and lowered relative to the upper cover seat.

[0018] By adopting the above technical solution, during the working process, when the bottle body is conveyed to the position of the cap unit, the cap suction nozzle moves with the cap seat, sucks the cap from the output end of the cap vibrating plate and transfers it above the bottle body, and then, during the downward movement, puts the cap on the rubber stopper.

[0019] Optionally, the capping unit includes a capping base, a capping seat mounted on the capping base, and a capping head mounted on the capping seat. The capping seat can be raised and lowered. The capping head faces downward and is aligned with the slot in the turntable, and is used to clamp the bottle cap and rotate it to complete the capping action.

[0020] By adopting the above technical solution, during the working process, when the bottle body is conveyed to the position below the capping head of the capping unit, the capping head moves down with the capping seat, and after moving down, the capping head clamps the bottle cap and tightens it.

[0021] In summary, this application includes at least one of the following beneficial technical effects:

[0022] 1. During operation, the bottle vibrating plate transports the bottle to the slot on the side of the turntable, and as the turntable rotates, it enters and is conveyed along the circular guide rail. During this process, the filling unit injects lubricating oil into the bottle, the stopper unit inserts the stopper from the vibrating plate into the bottle neck, the capping unit places the cap from the vibrating plate onto the stopper, and then the capping unit tightens it. Finally, at the unloading conveyor belt, the cap detaches from the circular guide rail and falls onto the unloading conveyor belt for finished product output. This fully automated operation greatly improves filling efficiency and further reduces labor costs.

[0023] 2. During operation, after the bottle body is conveyed to the bottom of the filling nozzle, the filling nozzle moves down with the filling seat and penetrates into the bottle body. Then, the lubricating oil in the external oil tank is poured into the bottle body through the pipeline.

[0024] 3. During installation, the nozzle can be adjusted by rotation and linear adjustment through the combination of the slot and screw, so as to adjust the nozzle to the accurate position and reduce the difficulty of installing the nozzle. Attached Figure Description

[0025] Figure 1 This is an overall schematic diagram of the lubricating oil bottle to be filled with lubricating oil as required in this application.

[0026] Figure 2 This is an exploded view of the lubricating oil bottle to be filled with lubricating oil as required in this application.

[0027] Figure 3 This is an overall schematic diagram of an electric clipper lubricating oil filling production equipment according to this application.

[0028] Figure 4 This is a schematic diagram of the infusion unit in this application.

[0029] Figure 5 This is a schematic diagram of the upper plug unit in this application.

[0030] Figure 6 This is a structural schematic diagram of the upper cover unit in this application.

[0031] Figure 7 This is a schematic diagram of the screw cap unit in this application.

[0032] Figure 8 This is a perspective view of the labeling facility in this application.

[0033] Figure 9 This is a top view of the labeling facility in this application.

[0034] Explanation of reference numerals in the attached figures:

[0035] 1. Workbench; 2. Turntable; 21. Bayonet; 22. Circular guide rail; 3. Bottle vibrating plate; 4. Filling unit; 41. Filling base; 42. Filling seat; 43. Filling nozzle; 44. Filling cylinder; 45. Cantilever rod; 46. Strip hole; 47. Screw; 5. Rubber stopper vibrating plate; 6. Upper stopper unit; 61. Upper stopper base; 62. Upper stopper seat; 63. Rubber stopper suction nozzle; 64. Upper stopper slide rail; 65. Upper stopper first cylinder; 66. Upper stopper second cylinder; 67. Upper stopper damping rod; 7. Bottle cap vibrating plate; 8. Upper cap unit; 81. Upper cap base; 82. Upper cap seat; 83. Bottle cap suction nozzle; 84. Upper cap slide rail; 85. Upper cap 86. First cylinder; 87. Second cylinder for top cover; 9. Damping rod for top cover; 10. Capping unit; 11. Capping base; 12. Capping seat; 13. Capping head; 14. Capping cylinder; 15. Feeding conveyor belt; 16. Labeling mechanism; 17. Labeling machine platform; 18. Fixed roller; 19. Moving roller; 10. Unwinding reel; 112. Rewinding reel; 113. Label peeling shovel; 114. First drive unit; 115. Second drive unit; 116. First tension roller group; 117. Second tension roller group; 118. Label roll; 119. Waste bottom roll; 12. Guide rail; 101. Bottle body; 102. Plug; 103. Bottle cap. Detailed Implementation

[0036] The following is in conjunction with the appendix Figure 1-9 This application will be described in further detail.

[0037] This application discloses an electric clipper lubricating oil filling production equipment.

[0038] Reference Figure 1 and Figure 2 , Figure 1 and Figure 2 These are an overall schematic diagram and an exploded view of the lubricating oil bottle to be filled with lubricating oil in this application. It includes a bottle body 101, a rubber stopper 102, and a bottle cap 103, all of which are in the shape of a rotating body. After the lubricating oil is filled, the rubber stopper 102 is first sealed to the bottle opening of the bottle body 101, and then the bottle cap 103 is tightened.

[0039] Reference Figure 3An electric clipper lubricating oil filling production equipment includes a workbench 1, on which a turntable 2 is mounted. The outer periphery of the turntable 2 is sequentially arranged with a bottle vibrating plate 3, a filling unit 4, a stopper vibrating plate 5, a stoppering unit 6, a capping vibrating plate 7, a capping unit 8, a capping unit 9, and a feeding conveyor belt 10. The filling unit 4, stoppering unit 6, capping unit 8, and capping unit 9 are all fixedly mounted on the top of the workbench 1. The turntable 2 has evenly arranged slots 21 along its circumference, which are adapted to fit the bottle body 101. An annular guide rail 22 is provided on the outer periphery of the turntable 2, extending from the bottle vibrating plate 3 to the feeding conveyor belt 10. The inner side of the annular guide rail 22 has an L-shaped stepped track opening, the bottom of which extends to the bottom of the turntable 2. The output end of the bottle vibrating plate 3 extends to the bottom of the turntable 2, close to the starting end of the annular guide rail 22. The output ends of both the stopper vibrating plate 5 and the bottle cap vibrating plate 7 extend to the outer side of the annular guide rail 22. The feeding conveyor belt 10 extends to the bottom of the turntable 2 and is close to the end of the annular guide rail 22.

[0040] During operation, the bottle vibrating plate 3 transports the bottle body 101 to the slot 21 on the side of the turntable 2, and as the turntable 2 rotates, it enters the annular guide rail 22 and is transported along the annular guide rail 22. During this process, the filling unit 4 fills the bottle body 101 with lubricating oil, the stopper unit 6 inserts the stopper 102 transported by the stopper vibrating plate 5 into the bottle mouth of the bottle body 101, the capping unit 8 grabs the cap 103 transported by the cap vibrating plate 7 and places it on the stopper 102, and then tightens it through the capping unit 9. Finally, at the unloading conveyor belt 10, it detaches from the annular guide rail 22 and falls into the unloading conveyor belt 10 for finished product output.

[0041] Reference Figure 4 Specifically, in this embodiment, the infusion unit 4 includes an infusion base 41, an infusion seat 42, and an infusion nozzle 43; wherein, the infusion seat 42 is mounted on the infusion base 41 and can be raised and lowered. The infusion nozzle 43 is mounted on the infusion seat 42 and is arranged above the bayonet 21 in the turntable 2, and is set downward.

[0042] A filling base 42 and a filling nozzle 43 are mounted on the filling base 41. The filling base 42 is adjustable in height, and the filling nozzle 43 is positioned above the bayonet 21 in the turntable 2 and faces downwards. During operation, when the bottle body 101 is conveyed to the area below the filling nozzle 43, the filling nozzle 43 moves downwards with the filling base 42 and penetrates into the bottle body 101, then the lubricating oil from the external oil tank is filled into the bottle body 101 through a pipe.

[0043] Specifically, in this embodiment, the injection seat 42 is slidably mounted vertically on the injection base frame 41, and an injection cylinder 44 is installed at the bottom of the injection seat 42. The injection cylinder 44 is arranged facing upward and fixedly mounted on the injection base frame 41, and the piston rod end of the injection cylinder 44 is connected to the bottom of the injection seat 42 to control the injection seat 42 to rise and fall.

[0044] In other embodiments, the injection seat 42 can be controlled to lift by means of a rotary motor and a lead screw, or directly by means of a linear motor module.

[0045] There are two injection nozzles 43, both of which are installed on the injection seat 42 via a cantilever rod 45, and the two injection nozzles 43 are respectively aligned with two adjacent bayonets 21.

[0046] The cantilever rod 45 is fixedly installed at one end to the filling base 42, and extends to the turntable 2 at the other end. The filling nozzle 43 is installed at the suspended end of the cantilever rod 45. The cantilever rod 45 and the filling base 42 are connected by screws 47. The end of the cantilever rod 45 is formed with a strip-shaped hole 46, which extends along the length of the cantilever rod 45. The screws 47 pass through the strip-shaped hole 46 and are threaded into the filling base 42. During installation, the strip-shaped hole 46 and the screws 47 can be used for rotational and linear adjustments to adjust the filling nozzle 43 to the accurate position, reducing the installation difficulty of the filling nozzle 43.

[0047] Reference Figure 5 Specifically, in this embodiment, the upper plug unit 6 includes an upper plug base frame 61, an upper plug seat 62, and a rubber plug 102 suction nozzle 63; wherein, the upper plug seat 62 is mounted on the upper plug base frame 61, and the upper plug seat 62 can be moved back and forth between the output end of the rubber plug vibrating disk 5 and the turntable 2. The rubber plug 102 suction nozzle 63 is mounted on the upper plug seat 62, and the rubber plug 102 suction nozzle 63 can be raised and lowered relative to the upper plug seat 62.

[0048] Specifically, in this embodiment, an upper stopper slide rail 64 is installed on the upper stopper base frame 61. The upper stopper slide rail 64 is horizontally and downwardly positioned, with one end extending to the output end of the rubber stopper vibrating plate 5 and the other end extending into the turntable 2. An upper stopper seat 62 is slidably installed on the upper stopper slide rail 64. An upper stopper first cylinder 65 is installed on the rear side of the upper stopper seat 62 and is fixedly installed on the upper stopper slide rail 64. The upper stopper first cylinder 65 is parallel to the upper stopper slide rail 64, and the piston rod end of the upper stopper first cylinder 65 is fixedly connected to the upper stopper seat 62 to control the reciprocating movement of the upper stopper seat 62 along the upper stopper slide rail 64. An upper stopper second cylinder 66 is fixedly installed at the bottom of the upper stopper seat 62 and is vertically downwardly positioned. The rubber stopper 102 suction nozzle 63 is fixedly installed on the piston rod end of the upper stopper second cylinder 66 to control the lifting and lowering of the rubber stopper 102 suction nozzle 63.

[0049] During operation, when the bottle body 101 is conveyed to the position of the upper stopper unit 6, the rubber stopper 102 suction nozzle 63 moves with the upper stopper seat 62, sucks the rubber stopper 102 from the output end of the rubber stopper vibrating plate 5 and transfers it above the bottle body 101, and then presses the rubber stopper 102 into the bottle mouth of the bottle body 101 during the downward movement.

[0050] In this embodiment, an upper stop damping rod 67 is also installed on the front side of the upper stop seat 62. The damping rod is fixedly installed on the upper stop slide rail 64. The upper stop damping rod 67 is arranged parallel to the upper stop slide rail 64, and the movable end of the upper stop damping rod 67 is aligned with the upper stop seat 62. In order to buffer the upper stop seat 62 during the controlled forward pushing process, the upper stop damping rod 67 can be used to improve the movement stability of the upper stop seat 62.

[0051] Similarly, in this embodiment, the control methods of the upper cover unit 8 and the upper plug unit 6 are the same.

[0052] Reference Figure 6 Specifically, in this embodiment, the upper cover unit 8 includes an upper cover base 81, an upper cover seat 82, and a bottle cap 103 nozzle 83; wherein, the upper cover seat 82 is mounted on the upper cover base 81, and the upper cover seat 82 can be moved back and forth between the output end of the bottle cap vibrating plate 7 and the turntable 2. The bottle cap 103 nozzle 83 is mounted on the upper cover seat 82, and the bottle cap 103 nozzle 83 can be raised and lowered relative to the upper cover seat 82.

[0053] Specifically, in this embodiment, an upper cover slide rail 84 is installed on the upper cover base frame 81. The upper cover slide rail 84 is horizontally and downwardly positioned, with one end extending to the output end of the bottle cap vibrating plate 7 and the other end extending into the turntable 2. An upper cover seat 82 is slidably installed on the upper cover slide rail 84. A first upper cover cylinder 85 is installed on the rear side of the upper cover seat 82 and is fixedly installed on the upper cover slide rail 84. The first upper cover cylinder 85 is parallel to the upper cover slide rail 84, and the piston rod end of the first upper cover cylinder 85 is fixedly connected to the upper cover seat 82 to control the reciprocating movement of the upper cover seat 82 along the upper cover slide rail 84. A second upper cover cylinder 86 is fixedly installed at the bottom of the upper cover seat 82 and is vertically downwardly positioned. The bottle cap 103 nozzle 83 is fixedly installed on the piston rod end of the second upper cover cylinder 86 to control the lifting and lowering of the bottle cap 103 nozzle 83.

[0054] During operation, when the bottle body 101 is conveyed to the position of the upper cover unit 8, the bottle cap 103 suction nozzle 83 moves with the upper cover seat 82, sucks the bottle cap 103 from the output end of the bottle cap vibrating plate 7 and transfers it above the bottle body 101, and then presses the bottle cap 103 into the bottle mouth of the bottle body 101 during the downward movement.

[0055] In this embodiment, an upper cover damping rod 87 is also installed on the front side of the upper cover seat 82. The upper cover damping rod 87 is fixedly installed on the upper cover slide rail 84. The upper cover damping rod 87 is arranged parallel to the upper cover slide rail 84, and the movable end of the upper cover damping rod 87 is aligned with the upper cover seat 82. In order to improve the movement stability of the upper cover seat 82, the upper cover damping rod 87 can perform buffering treatment during the controlled forward pushing of the upper cover seat 82.

[0056] Reference Figure 7 Specifically, in this embodiment, the capping unit 9 includes a capping base 91, a capping seat 92, and a capping head 93. The capping seat 92 is mounted on the capping base 91 and can be raised and lowered. The capping head 93 is mounted on the capping seat 92, with its downward-facing end aligned with the slot 21 in the turntable 2, and is used to clamp the bottle cap 103 and rotate it to complete the capping action. During operation, when the bottle body 101 is conveyed to a position below the capping head 93 of the capping unit 9, the capping head 93 moves downward with the capping seat 92, and after moving downward, the capping head 93 clamps the bottle cap 103 and tightens it.

[0057] Specifically, in this embodiment, the capping seat 92 is slidably mounted on the capping base 91 in a vertical direction. A capping cylinder 94 is mounted on the bottom of the capping seat 92. The capping cylinder 94 is arranged facing upward and fixedly mounted on the filling base 41. The piston rod end of the capping cylinder 94 is connected to the bottom of the capping seat 92 to control the capping seat 92 to lift and lower.

[0058] In other embodiments, the cap holder 92 can be controlled to lift by means of a rotary motor and a lead screw, or directly by means of a linear motor module.

[0059] Reference Figure 3 In this embodiment, a labeling mechanism 11 is also included. A guide rail 12 is provided on the feeding conveyor belt 10 for directional conveying of the filled lubricating oil bottles. The labeling mechanism 11 is installed at the output position of the guide rail 12 for labeling the filled lubricating oil bottles.

[0060] Reference Figure 8 and Figure 9 Specifically, the labeling mechanism 11 includes a labeling machine base 111, a fixed roller 112, a moving roller 113, an unwinding reel 114, a rewinding reel 115, and a label peeling blade 116. The fixed roller 112 and the moving roller 113 are arranged opposite each other and are installed at the output position of the guide rail 12. The fixed roller 112 is a single-axis pressure roller and is a rotating roller. The fixed roller 112 remains stationary, and its rotation is driven by a first driving member 117. The moving roller 113 is a double-axis pressure roller and is a rotating roller. The moving roller 113 is moved horizontally by a second driving member 118 to control its movement towards or away from the fixed roller 112.

[0061] Reference Figure 8 and Figure 9 The labeling machine platform 111 and the fixed roller 112 are arranged on the same side. The unwinding reel 114, the take-up reel 115, and the label peeling blade 116 are all installed on the labeling machine platform 111. The label peeling blade 116 is vertically arranged, with one end extending between the fixed roller 112 and the moving roller 113 and close to the fixed roller 112. The unwinding reel 114 is installed on the outer side, and the take-up reel 115 is installed on the inner side. A first tension roller group 119 is installed between the unwinding reel 114 and the label peeling blade 116, and a second tension roller group 1110 is installed between the take-up reel 115 and the label peeling blade 116.

[0062] During operation, the label roll 1111 is unwound from the unwinding reel 114, then guided by the first tension roller group 119 into the label peeling shovel 116, which peels off the label. The remaining waste bottom is then guided by the second tension roller group 1110 into the winding reel 115 for winding, forming a waste bottom roll 1112. After the lubricating oil bottle is filled, it is conveyed out along the guide track 12 on the unloading conveyor belt 10 and enters the position between the fixed roller 112 and the moving roller 113. At this time, the moving roller 113 moves towards the fixed roller 112 to clamp the lubricating oil bottle, while pressing the peeled label onto the bottle body 101. Then, as the shaft roller on the fixed roller 112 rotates, the label is rolled onto the bottle body 101. After labeling is completed, the moving roller 113 releases the lubricating oil bottle and continues to feed it out.

[0063] The operating principle is as follows: During operation, the bottle vibrating plate 3 transports the bottle body 101 to the slot 21 on the side of the turntable 2, and as the turntable 2 rotates, it enters the annular guide rail 22 and is transported along the annular guide rail 22. During this process, the filling unit 4 fills the bottle body 101 with lubricating oil, the stopper unit 6 inserts the stopper 102, which is transported from the stopper vibrating plate 5, into the bottle mouth of the bottle body 101, and the capping unit 8 grabs the cap 103, which is transported from the cap vibrating plate 7, and places it onto the stopper 102. Then, the capping unit 9 tightens the cap, and finally, at the unloading conveyor belt 10, the bottle body detaches from the annular guide rail 22 and falls onto the unloading conveyor belt 10 for finished product output. After the lubricating oil bottle on the unloading conveyor belt 10 is guided out along the guide rail 12, it is labeled by the labeling mechanism 11.

[0064] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. An electric clipper lubricating oil filling production equipment, characterized in that: The device includes a workbench (1), on which a turntable (2) is installed. The outer periphery of the turntable (2) is provided with a bottle vibrating plate (3), a filling unit (4), a rubber stopper vibrating plate (5), a stopper unit (6), a cap vibrating plate (7), a capping unit (8), a capping unit (9), and a feeding conveyor belt (10). The turntable (2) has evenly arranged slots (21) along its periphery. The outer periphery of the turntable (2) is provided with an annular guide rail (22). The annular guide rail (22) extends from the bottle vibrating plate (3) to the feeding conveyor belt (10). The inner side of the annular guide rail (22) is an L-shaped stepped track opening, and the bottom of the L-shaped stepped track opening extends to the bottom of the turntable (2).

2. The lubricating oil filling production equipment for the electric clipper according to claim 1, characterized in that: The infusion unit (4) includes an infusion base frame (41), an infusion seat (42) mounted on the infusion base frame (41), and an infusion nozzle (43) mounted on the infusion seat (42). The infusion seat (42) can be raised and lowered. The infusion nozzle (43) is arranged above the slot (21) in the turntable (2) and is set downwards.

3. The lubricating oil filling production equipment for the electric clipper according to claim 2, characterized in that: The number of the filling nozzles (43) is two, and the two filling nozzles (43) are respectively aligned with two adjacent bayonets (21).

4. The lubricating oil filling production equipment for the electric clipper according to claim 3, characterized in that: The injection nozzle (43) is installed on the injection seat (42) via a cantilever rod (45). One end of the cantilever rod (45) is fixedly installed on the injection seat (42), and the other end extends to the turntable (2). The injection nozzle (43) is installed on the suspended end of the cantilever rod (45). The cantilever rod (45) and the injection seat (42) are connected by screws (47). The end of the cantilever rod (45) is formed with a strip hole (46). The strip hole (46) extends along the length of the cantilever rod (45). The screw (47) passes through the strip hole (46) and is threaded to the injection seat (42).

5. The lubricating oil filling production equipment for the electric clipper according to claim 1, characterized in that: The upper plug unit (6) includes an upper plug base frame (61), an upper plug seat (62) mounted on the upper plug base frame (61), and a rubber plug suction nozzle (63) mounted on the upper plug seat (62). The upper plug seat (62) can be moved back and forth between the output end of the rubber plug vibrating plate (5) and the turntable (2). The rubber plug suction nozzle (63) can be raised and lowered relative to the upper plug seat (62).

6. The lubricating oil filling production equipment for the electric clipper according to claim 1, characterized in that: The upper cover unit (8) includes an upper cover base frame (81), an upper cover seat (82) mounted on the upper cover base frame (81), and a bottle cap suction nozzle (83) mounted on the upper cover seat (82). The upper cover seat (82) can be moved back and forth between the output end of the bottle cap vibrating plate (7) and the turntable (2). The bottle cap suction nozzle (83) can be raised and lowered relative to the upper cover seat (82).

7. The lubricating oil filling production equipment for electric clippers according to claim 1, characterized in that: The capping unit (9) includes a capping base (91), a capping seat (92) mounted on the capping base (91), and a capping head (93) mounted on the capping seat (92). The capping seat (92) can be raised and lowered. The capping head (93) is aligned downwards with the slot (21) in the turntable (2) and is used to clamp the bottle cap (103) and rotate it to complete the capping action.

8. The lubricating oil filling production equipment for the electric clipper according to claim 1, characterized in that: The lubricating oil filling device further comprises a labeling mechanism (11), and a guide track (12) is arranged on the feeding conveyor (10) to guide and direct the filled lubricating oil bottles; the labeling mechanism (11) is installed at the output position of the guide track (12) to label the filled lubricating oil bottles.