CN115445847A

CN115445847A - Oiling mechanism and disc tube film production equipment

Info

Publication number: CN115445847A
Application number: CN202211332414.5A
Authority: CN
Inventors: 孙璐珂; 谭畅; 李宝翔; 刘超; 张秀峰
Original assignee: Gree Electric Appliances Inc of Zhuhai; Zhuhai Gree Intelligent Equipment Co Ltd
Current assignee: Gree Electric Appliances Inc of Zhuhai; Zhuhai Gree Intelligent Equipment Co Ltd
Priority date: 2022-10-28
Filing date: 2022-10-28
Publication date: 2022-12-09

Abstract

The invention provides an oil coating mechanism which comprises a supporting structure, an oil coating structure and an oil spraying structure, wherein the oil coating structure is fixedly connected with the supporting structure, the oil spraying structure is arranged on one side of the oil coating structure, a positioning structure is arranged on the supporting structure and is connected with a driving structure, a workpiece to be coated with oil is arranged on the positioning structure, the oil spraying structure sprays oil to the oil coating structure, the oil coating structure moves to one side of the workpiece to be coated with oil, and the driving structure drives the positioning structure to rotate so that the oil coating structure coats the surface of the workpiece to be coated with oil. Still provide a dish pipe membrane production facility simultaneously. According to the oiling mechanism and the disc tube membrane production equipment, the double brush heads are arranged on the supporting structure to realize simultaneous oiling of the surface center and the side wall of the workpiece to be oiled, so that simultaneous oiling at different positions is met, and the labor production efficiency is improved; automatic equipment is adopted to replace manual oiling, labor assembly efficiency is improved, and product quality is improved.

Description

Oiling mechanism and disc tube film production equipment

Technical Field

The invention belongs to the technical field of production of a disc tube film, and particularly relates to an oiling mechanism and disc tube film production equipment.

Background

The disc tube membrane is a type membrane technology, and is specially developed for filtering and separating high-concentration liquid materials. The disk tube membrane mainly comprises a filter disc, a flow guide disc, a central pull rod, a shell, flanges at two ends, various sealing pieces, connecting bolts and the like. The filter membrane and the flow guide disc are stacked together, fixed by a central pull rod and an end cover flange, and then placed in a pressure-resistant shell to form a disc-tube type membrane component.

In the actual production of the disc tube membrane, a seal ring Y-shaped ring is assembled on the flange, so that the membrane shell and the flange are in interference fit to realize a sealing effect. Because of interference fit, it is difficult in actual assembly, and the Y-shaped ring of the sealing ring is easy to turn up. Therefore, before assembly, the Y-shaped ring part on the side face of the flange and the central hole position are coated with oil, so that the assembly strength is reduced, and the Y-shaped ring of the sealing ring is prevented from flanging.

The existing flange and the Y-shaped ring of the sealing ring are assembled, the oiling process is manually operated, manpower is wasted, and coating is uneven.

Disclosure of Invention

The invention mainly aims to provide an oiling mechanism and a disc tube film production device, which are used for solving the problems of low production efficiency and uneven oiling of manual oiling.

In order to achieve the purpose, the specific technical scheme of the oiling mechanism and the disc tube film production equipment is as follows:

the invention provides an oil coating mechanism which comprises a supporting structure, an oil coating structure and a fuel spraying structure, wherein the oil coating structure is fixedly connected with the supporting structure, the fuel spraying structure is arranged on one side of the oil coating structure, a positioning structure is arranged on the supporting structure, the positioning structure is connected with a driving structure, a workpiece to be coated with oil is arranged on the positioning structure, the fuel spraying structure sprays fuel to the oil coating structure, the oil coating structure moves to one side of the workpiece to be coated with oil, and the driving structure drives the positioning structure to rotate so that the oil coating structure coats the surface of the workpiece to be coated with oil.

As a preferred embodiment provided by the present invention, the oil coating structure includes a first oil coating assembly and a second oil coating assembly, the first oil coating assembly moves to the center of the workpiece to be coated with oil for coating, and the second oil coating assembly moves to the side wall of the workpiece to be coated with oil for coating.

As a preferred embodiment provided by the present invention, the first oiling assembly includes a first driving assembly, and the first driving assembly is connected to the first brush, so that the first driving assembly drives the first brush to move and/or rotate.

As a preferred embodiment provided by the invention, the first driving assembly comprises a third air cylinder and a fourth air cylinder, the third air cylinder is connected with the fourth air cylinder, the third air cylinder drives the first brush to move close to or far away from a workpiece to be oiled, and the fourth air cylinder drives the first brush to rotate.

As a preferred embodiment provided by the present invention, the first oiling assembly includes a second mounting bracket, the second mounting bracket is connected to the support structure, a third cylinder is disposed on the second mounting bracket, one side of the third cylinder is connected to the first mounting bracket, the other side of the third cylinder is connected to the second connecting plate, a fourth cylinder is disposed on the second connecting plate, the fourth cylinder is connected to the third connecting plate, and the first brush is disposed on the third connecting plate.

As a preferred embodiment provided by the invention, the second oiling component comprises a second driving component, the second driving component comprises a first air cylinder, the first air cylinder is mounted on the first mounting frame and connected with the second mounting plate, a fifth air cylinder is arranged on the second mounting plate and connected with a third mounting plate, a second brush is arranged on the third mounting plate, the fifth air cylinder drives the second brush to rotate, and the first air cylinder drives the second brush to move close to or far away from a workpiece to be oiled.

According to the preferred embodiment of the invention, the oil injection structure comprises a fourth connecting plate, the fourth connecting plate is fixedly connected with the supporting structure, the fourth connecting plate is provided with an oil injection cylinder, and the oil injection cylinder is respectively connected with the first oil injection nozzle and the second oil injection nozzle, so that the oil injection cylinder drives the first oil injection nozzle and/or the second oil injection nozzle to inject oil.

As a preferred embodiment provided by the invention, the supporting structure comprises a frame, a supporting plate is arranged on the frame, an oil receiving disc is arranged on the supporting plate, and the positioning structure is arranged in the oil receiving disc.

As a preferred embodiment provided by the invention, the driving structure comprises a driving gear, the driving gear is connected with a motor, the driving gear is meshed with a driven gear, and the driven gear is connected with the positioning structure through a crossed roller bearing.

The embodiment of the invention also provides a production device of the coiled pipe film, which comprises the oiling mechanism.

The oiling mechanism and the disc tube film production equipment provided by the invention have the following advantages:

according to the oiling mechanism and the disc tube membrane production equipment, the double brush heads are arranged on the supporting structure to realize simultaneous oiling of the surface center and the side wall of the workpiece to be oiled, so that simultaneous oiling at different positions is met, and the labor production efficiency is improved; automatic equipment is adopted to replace manual oiling, labor assembly efficiency is improved, and product quality is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of an oiling mechanism provided by the present invention;

fig. 2 is a schematic diagram of the overall structure of the oiling structure provided by the present invention;

FIG. 3 is a schematic view of the overall structure of the fuel injection structure provided by the present invention;

FIG. 4 is a schematic view of the overall structure of the rack provided by the present invention;

FIG. 5 is a top view of a frame provided by the present invention;

FIG. 6 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 5 in accordance with the present invention;

FIG. 7 is a first schematic view of a positioning structure of the support structure provided by the present invention;

FIG. 8 is a first schematic structural diagram of a driving structure provided in the present invention;

FIG. 9 is a second schematic structural diagram of a driving structure provided in the present invention;

fig. 10 is a schematic structural view of a flange assembly provided by the present invention.

The notation in the figure is:

1. an oiling structure; 101. a first mounting bracket; 102. a first cylinder; 103. a second mounting bracket; 104. a second cylinder; 105. a first mounting plate; 106. a third cylinder; 107. a second connecting plate; 108. a fourth cylinder; 109. a third connecting plate; 110. a first brush; 111. a second mounting plate; 112. a fifth cylinder; 113. a third mounting plate; 114. a second brush;

2. an oil injection structure; 201. a fourth connecting plate; 202. an oil injection cylinder; 203. a nozzle connecting plate; 204. a first fuel injection nozzle; 205. a second fuel injection nozzle;

3. a support structure; 301. an oil receiving pan; 302. a positioning structure; 303. a crossed roller bearing; 304. a driven gear; 305. a driving gear; 306. a fourth mounting plate; 307. a servo motor; 308. oil receiving barrels; 309. a first oil guiding structure; 310. a second oil guide structure; 311. a frame;

4. a flange assembly; 41. a central bore; 42. a side wall; 43. and (7) positioning the plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The disc-tube type membrane component technology is an efficient membrane separation technology, and with the continuous breakthrough of the technology, the product occupies a small position in the domestic waste water treatment range, and is widely applied to other industrial water treatments such as waste filtrate treatment, municipal wastewater advanced treatment, fresh water recycling, power plant desulfurization wastewater zero discharge, high-salt water treatment, seawater desalination and the like. The market demands more and more membrane modules with the pressure grade of 120bar/160bar, and the performance requirements of the membrane modules are higher and higher, particularly in the aspect of high pressure resistance.

The invention provides a disc tube membrane, which is a type membrane technology and is developed specially for the filtration and separation of high-concentration liquid materials. The disk tube membrane mainly comprises a filter disc, a flow guide disc, a central pull rod, a shell, flanges at two ends, various sealing pieces, connecting bolts and the like. The filter membrane and the flow guide disc are stacked together, fixed by a central pull rod and an end cover flange, and then placed in a pressure-resistant shell to form a disc-tube type membrane component.

The oiling mechanism provided by the embodiment of the invention is specially used for oiling the flange in the disc tube membrane, and the sealing ring Y-shaped ring is assembled on the flange in the actual production of the disc tube membrane, so that the membrane shell and the flange are assembled in an interference manner to realize the sealing effect. Because of interference fit, it is difficult in actual assembly, and the Y-shaped ring of the sealing ring is easy to turn up. Therefore, before assembly, the Y-shaped ring part on the side surface of the flange and the position of the central hole 41 are oiled, so that the assembly strength is reduced, and the Y-shaped ring of the sealing ring is prevented from flanging.

As shown in fig. 1, the oiling mechanism provided by the embodiment of the invention comprises a supporting structure 3, an oiling structure 1 and an oil spraying structure 2. Place on the bearing structure 3 and treat the fat liquoring work piece, oil spout structure 2 carries out the oil spout to fat liquoring structure 1 to make fat liquoring structure 1 coat and have the grease, after oil spout structure 2 accomplished the oil spout, fat liquoring structure 1 treats the fat liquoring work piece and carries out the fat liquoring, so that fat liquoring mechanism treats the fat liquoring work piece and realizes automatic fat liquoring, improves work production efficiency.

Further,

fat liquoring structure

1 and 3 fixed connection of bearing structure, oil spout structure 2 sets up in one side of fat liquoring structure 1, is provided with location structure 302 on the bearing structure 3, and location structure 302 and drive structure link to each other, set up on the location structure 302 and treat the fat liquoring work piece, and oil spout structure 2 is to fat liquoring structure 1 oil spout, and fat liquoring structure 1 removes to treating fat liquoring work piece one side, and drive structure drive location structure 302 is rotatory to make fat liquoring structure 1 treat the surface fat liquoring of fat liquoring work piece. Adopt automation equipment to replace artifical fat liquoring, improve assembly efficiency, improve the quality of product, reduce the human cost to a certain extent.

As shown in fig. 10, the workpiece to be oiled provided by the embodiment of the present invention may be specifically configured as the flange assembly 4, but it is understood that the oiling structure 1 may be applied in the technical field where the workpiece needs to be oiled, as a preferred embodiment provided by the present invention, the workpiece to be oiled is the flange assembly 4, and is mainly applied in the technical field of a pipe coil membrane, the flange assembly 4 is specifically described below, and other embodiments of the workpiece to be oiled are also within the protection scope of the present invention.

Specifically, flange subassembly 4 includes the body, and the center department of body is provided with centre bore 41, is provided with lateral wall 42 on the body, and the body setting is provided with the locating hole on locating plate 43 on the locating plate 43. In the embodiment provided by the invention, the central hole 41 and the side wall 42 of the flange assembly 4 are mainly coated with oil, so that the assembly strength is reduced, and the flanging of the Y-shaped ring of the sealing ring arranged on the flange assembly 4 is also prevented.

As an alternative embodiment, the flange assemblies 4 may be set to different models, and the positioning plate 43 may satisfy the requirement of positioning the flange assemblies 4 of different models, so as to ensure the accuracy of oil coating and avoid excessive grease waste.

As shown in fig. 2, fig. 2 shows a specific structural schematic diagram of the oiling structure 1, the oiling structure 1 includes a first mounting frame 101 and a second mounting frame 103, the first mounting frame 101 and the second mounting frame 103 are arranged in a staggered manner, that is, the first mounting frame 101 and the second mounting frame 103 are different in height from the supporting structure 3, so as to realize simultaneous oiling of the surface of the flange assembly 4 and the side wall 42. The height of the first and

second mounts

101, 103 from the support bracket is designed primarily based on the difference in height between the top surface of the flange assembly 4 and the side wall 42.

Further, be provided with first fat liquoring subassembly on the first mounting bracket 101, be provided with the second fat liquoring subassembly on the second mounting bracket 103, the first fat liquoring subassembly removes the center department of waiting to fat liquoring work piece and carries out the fat liquoring, and the second fat liquoring subassembly removes the lateral wall 42 department of waiting to fat liquoring work piece and carries out the fat liquoring.

Specifically, the first oiling assembly includes a first driving assembly connected to the first brush 110 such that the first driving assembly drives the first brush 110 to move and/or rotate. The first driving assembly comprises a third air cylinder 106 and a fourth air cylinder 108, the third air cylinder 106 is connected with the fourth air cylinder 108, the third air cylinder 106 drives the first brush 110 to move close to or far away from a workpiece to be oiled, and the fourth air cylinder 108 drives the first brush 110 to rotate. The first brush 110 is driven by the third cylinder 106 and the fourth cylinder 108 to effect rotation and/or movement of the first brush 110. When the oil spraying structure 2 sprays oil to the first brush 110, the first brush 110 rotates, and when the first oil coating assembly coats the central hole 41 of the flange assembly 4, the first brush 110 moves to the center of the upper surface of the flange assembly 4, so that the first brush 110 coats the central hole 41 of the surface of the flange assembly 4.

Further, the first oiling component comprises a second mounting frame 103, the second mounting frame 103 is connected with the supporting structure 3, a third air cylinder 106 is arranged on the second mounting frame 103, one side of the third air cylinder 106 is connected with a first mounting plate 105, the other side of the third air cylinder 106 is connected with a second connecting plate 107, a fourth air cylinder 108 is arranged on the second connecting plate 107, the fourth air cylinder 108 is connected with a third connecting plate 109, and a first brush 110 is arranged on the third connecting plate 109. The second mounting block 103 is provided with a second air cylinder 104, and the second air cylinder 104 drives the first brush 110 to move close to a workpiece to be oiled.

Further, the second oiling component comprises a second driving component, the second driving component comprises a first air cylinder 102, the first air cylinder 102 is installed on the first installation frame 101, the first air cylinder 102 is connected with the second installation plate 111, a fifth air cylinder 112 is arranged on the second installation plate 111, the fifth air cylinder 112 is connected with a third installation plate 113, a second hairbrush 114 is arranged on the third installation plate 113, the fifth air cylinder 112 drives the second hairbrush 114 to rotate, and the first air cylinder 102 drives the second hairbrush 114 to move close to or far away from a workpiece to be oiled.

As a preferred embodiment, the distance between the first brush 110 and the supporting structure 3 is greater than the distance between the second brush 114 and the supporting structure 3, because the first brush 110 coats the central hole 41 of the flange assembly 4 with oil, the second brush 114 coats the side wall 42 of the flange assembly 4 with oil, and the surface and the side wall 42 of the flange assembly 4 are provided with height differences, brushes with different heights are arranged, so that the central hole 41 and the side wall 42 of the flange assembly 4 can be coated with oil respectively, and the labor production efficiency is improved.

As shown in fig. 3, the oil injection structure 2 includes a fourth connecting plate 201, an oil injection cylinder 202 is disposed on the fourth connecting plate 201, the oil injection cylinder 202 is connected to a first oil injection nozzle 204, one side of the first oil injection nozzle 204 is connected to a nozzle connecting plate 203, and the nozzle connecting plate 203 is connected to a second oil injection nozzle 205. The injection cylinder 202 may drive the injection of the first and

second injectors

204, 205 simultaneously or separately to achieve injection of the first and/or

second brushes

110, 114.

As a preferred embodiment, the first oil nozzle 204 and the second oil nozzle 205 may be arranged in parallel, so that a certain distance is provided between the ends of the first oil nozzle 204 and the second oil nozzle 205, and the distance between the ends of the first oil nozzle 204 and the second oil nozzle 205 is set according to the positional relationship between the first oil nozzle 110 and the second oil nozzle 114, so that when the oil injection structure 2 moves to the oil injection structure 1, the first oil nozzle 204 is just aligned with the first oil brush 110, and the second oil nozzle 205 is just aligned with the second oil brush 114, so that the first oil nozzle 204 injects oil into the first oil brush 110, and the second oil nozzle 205 injects oil into the second oil brush 114, so that the first oil nozzle 204 and the second oil nozzle 205 inject oil into the first oil brush 110 and the second oil brush 114 at the same time, and the efficiency of the oil injection structure 2 is improved.

As shown in fig. 4 to 9, the support structure 3 includes a frame 311, a support plate is provided on the frame 311, an oil receiving pan 301 is provided on the support plate, and a positioning structure 302 is provided in the oil receiving pan 301.

Further, frame 311 includes many longerons and crossbeam, and longeron and the crisscross setting of crossbeam form frame 311, and the backup pad setting is on frame 311 to make fixed fat liquoring structure 1 and the oil spout structure 2 that sets up in the backup pad. General backup pad and frame 311's fixed knot constructs for the operation panel, place flange subassembly 4 in the backup pad, because flange subassembly 4 needs to rotate at the fat liquoring in-process, consequently, be provided with the drive structure on the location structure 302, drive structure drive location structure 302 is rotatory, and then drive flange subassembly 4's rotation, so that first brush 110 and second brush 114 contact respectively with the centre bore 41 and the lateral wall 42 of the upper surface of flange subassembly 4, thereby realize the automatic fat liquoring to flange subassembly 4, realize even fat liquoring, avoid the inhomogeneous nature of artifical fat liquoring.

Further, be provided with in the backup pad and connect food tray 301, the area that connects food tray 301 is less than the area of backup pad to make fat liquoring structure 1 and oil spout structure 2 set up in the one side that connects food tray 301, thereby realize fat liquoring structure 1 and oil spout structure 2 and can carry out fat liquoring operation to flange subassembly 4 closely, avoid using the manipulator arm to carry out fat liquoring work to flange subassembly 4, save labour cost and improve labor efficiency simultaneously.

Further, location structure 302 sets up in connecing food tray 301, connects food tray 301 to have a recess to make the recess can accept surplus grease after the fat liquoring, be convenient for collect surplus grease, can recycle, save the resource simultaneously.

Further, the center of oil receiving disc 301 is lower than the periphery of oil receiving disc 301, so that redundant grease can flow into the center of oil receiving disc 301 quickly, recycling is facilitated, and the recovery rate of the redundant grease is improved.

In a preferred embodiment, the positioning structure 302 includes a fixing plate, two sides of the fixing plate are provided with lugs, the lugs of the fixing plate are aligned with the positioning holes of the positioning plate 43, and the fixing plate and the positioning plate 43 are fixedly connected by a fastener, so that the driving structure drives the fixing plate to rotate, thereby realizing the rotation of the flange assembly 4.

Furthermore, an oil passing hole is formed in the fixing plate, an oil passing hole is formed in the driving structure, and the fixing plate is communicated with the oil passing hole of the driving structure, so that redundant grease is recycled through the oil passing hole, the energy utilization rate is improved, and resources are saved.

Further, the fixed plate is arranged on the upper surface of the supporting plate, and the driving structure is arranged on the lower surface of the supporting plate, so that the driving structure is hidden inside the frame 311, and the attractiveness of the product is improved.

Specifically, the driving structure comprises a motor, the motor is arranged on the fourth mounting plate 306, as a preferred embodiment, the motor is a servo motor 307, and the servo motor 307 is used as power, so that the flange can be guaranteed to rotate at a constant speed and be evenly coated with oil.

Further, the motor links to each other with the driving gear 305, driving gear 305 and driven gear 304 mesh mutually, driven gear 304 and bearing link to each other, so that servo motor 307 drive driving gear 305 rotates, driving gear 305 drive driven gear 304 is rotatory, driven gear 304 passes through the bearing and the fixed plate links to each other, and then the drive fixed plate is rotatory, because set up flange unit 4 on the fixed plate, therefore, the motor can indirectly drive flange unit 4's rotation, efficiency according to the fat liquoring is different, can adjust flange unit 4's rotation speed, and then realize the omnidirectional fat liquoring to flange unit 4.

In a preferred embodiment, the bearings are cross roller bearings 303. The cross roller bearing 303 is a special type bearing in which an inner ring is divided and an outer ring is rotated. Since the divided inner ring or outer ring is fixed to the cross roller collar after the rollers and the space holders are fitted therein to prevent separation from each other, the operation of installing the cross roller collar is simple. Because the rollers are arranged in a crossed manner, the load in all directions can be borne by only 1 set of crossed roller collars, and compared with the traditional model, the rigidity is improved by 3 to 4 times. Meanwhile, since the inner ring or the outer ring of the cross roller bearing 303 is of a two-part structure, the bearing clearance can be adjusted, and even if a preload is applied, a high-precision rotational motion can be obtained. Also, due to its special structure, it is commonly used as a joint bearing in industrial robots.

Further, the oil hole of the driving structure is connected to the first oil guiding structure 309, and the first oil guiding structure 309 is connected to the oil receiving barrel 308, so that the excessive grease in the oil receiving pan 301 flows into the oil receiving barrel 308 through the first oil guiding structure 309.

As a preferred embodiment, the first oil guiding structure 309 comprises a funnel structure, and the funnel structure is connected to the first connecting pipeline, so that the excessive grease flows into the first connecting pipeline through the funnel structure and is guided to the oil receiving barrel 308.

Further, an oil receiving disc 301 is provided with a through hole, the through hole is communicated with a second oil guiding structure 310, the second oil guiding structure 310 is provided with an extension pipeline, and the extension pipeline is communicated with the oil receiving barrel 308 through the arrangement of the extension pipeline. The extension pipeline is communicated with the second connecting pipeline, and the outer diameter of the extension pipeline is larger than that of the second connecting pipeline, so that excessive grease can flow into the extension pipeline quickly, and the flow rate of the excessive grease is reduced through the second connecting pipeline.

The specific working process of the oiling mechanism provided by the invention is as follows: firstly, a robot clamps a flange component 4 and places the flange component on a positioning structure 302, and positioning is carried out through assembling of pins on the positioning structure 302 and positioning holes on the flange component 4; meanwhile, the oil injection cylinder 202 drives the first oil injection nozzle 204 and the second oil injection nozzle 205 to move to the first hairbrush 110 and the second hairbrush 114 through the nozzle connecting plate 203, the first oil injection nozzle 204 and the second oil injection nozzle 205 respectively inject oil to the first hairbrush 110 and the second hairbrush 114, and the fourth cylinder 108 and the fifth cylinder 112 drive the first hairbrush 110 and the second hairbrush 114 to rotate so as to ensure that the oil injection on the surfaces of the first hairbrush 110 and the second hairbrush 114 is uniform; after the first and

second brushes

110 and 114 spray oil, the first and

second oil nozzles

204 and 205 stop spraying oil, the oil-sprayed cylinder 202 returns to the original position, and the fourth and

fifth cylinders

108 and 112 stop rotating. The servo motor 307 drives the driven gear 304 to perform a rotational motion through the driving gear 305, the driven gear 304 is connected to the positioning structure 302, and at this time, the positioning structure 302 synchronously rotates and drives the flange assembly 4 to perform a rotational motion; meanwhile, the first air cylinder 102 drives the first brush 110 and the second brush 114 sprayed with oil to move to and contact with the flange side wall 42; the third cylinder 106 drives the central oiling component to move above the central hole 41 of the flange, and the third cylinder 106 drives the first brush 110 to move in the central hole 41 of the flange; in order to ensure the uniformity of oil coating, the fourth air cylinder 108 and the fifth air cylinder 112 drive the first brush 110 to rotate after the first brush 110 is in place; under the rotation of the first brush 110 and the uniform rotation of the flange assembly 4, oil can be uniformly coated on the Y-ring of the flange side wall 42 and the central hole 41. After the oiling is finished, the oiling mechanism returns, the motor stops moving, and the robot drives the clamp to grab the next station.

According to the oiling mechanism and the disc tube film production equipment, the double brush heads are arranged on the supporting structure 3 to realize simultaneous oiling of the surface center and the side wall 42 of the workpiece to be oiled, so that simultaneous oiling at different positions is met, and the labor production efficiency is improved; and automatic equipment is adopted to replace manual oiling, so that the labor assembly efficiency is improved, and the product quality is improved.

Those skilled in the art will appreciate that while some embodiments herein include some features included in other embodiments, rather than others, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an oiling mechanism, a serial communication port, including bearing structure, fat liquoring structure and oil spout structure, fat liquoring structure and bearing structure fixed connection, the oil spout structure sets up in one side of fat liquoring structure, is provided with location structure on the bearing structure, location structure and drive structure link to each other, the last setting of location structure treats the fat liquoring work piece, the oil spout structure is to the oil spout of fat liquoring structure, the fat liquoring structure removes to treating fat liquoring work piece one side, drive structure drive location structure is rotatory to make the fat liquoring structure treat the surface fat liquoring work piece fat liquoring.

2. The oiling mechanism as recited in claim 1, wherein the oiling structure comprises a first oiling component and a second oiling component, the first oiling component moves to the center of the workpiece to be oiled for oiling, and the second oiling component moves to the side wall of the workpiece to be oiled for oiling.

3. An oiling mechanism as defined in claim 2, wherein the first oiling assembly comprises a first drive assembly connected to the first brush such that the first drive assembly drives the first brush to move and/or rotate.

4. The oiling mechanism as defined in claim 3, wherein the first drive assembly comprises a third cylinder and a fourth cylinder, the third cylinder and the fourth cylinder being connected, the third cylinder driving the first brush to move closer to or away from the workpiece to be oiled, and the fourth cylinder driving the first brush to rotate.

5. The oiling mechanism as recited in claim 4, wherein the first oiling assembly comprises a second mounting bracket, the second mounting bracket is connected with the support structure, a third cylinder is arranged on the second mounting bracket, one side of the third cylinder is connected with the first mounting plate, the other side of the third cylinder is connected with a second connecting plate, a fourth cylinder is arranged on the second connecting plate, the fourth cylinder is connected with the third connecting plate, and the first brush is arranged on the third connecting plate.

6. The oiling mechanism as recited in claim 2, wherein the second oiling assembly comprises a second driving assembly, the second driving assembly comprises a first air cylinder, the first air cylinder is mounted on the first mounting frame and connected with the second mounting plate, a fifth air cylinder is arranged on the second mounting plate and connected with the third mounting plate, a second brush is arranged on the third mounting plate, the fifth air cylinder drives the second brush to rotate, and the first air cylinder drives the second brush to move close to or far away from the workpiece to be oiled.

7. The oiling mechanism of claim 1, wherein the oil injection structure comprises a fourth connecting plate, the fourth connecting plate is fixedly connected with the supporting structure, and an oil injection cylinder is arranged on the fourth connecting plate and is respectively connected with the first oil injection nozzle and the second oil injection nozzle, so that the oil injection cylinder drives the first oil injection nozzle and/or the second oil injection nozzle to inject oil.

8. The oiling mechanism as recited in claim 1 wherein the support structure comprises a frame, a support plate is disposed on the frame, an oil receiving pan is disposed on the support plate, and the positioning structure is disposed within the oil receiving pan.

9. The oiling mechanism of claim 1 wherein the drive mechanism comprises a drive gear coupled to a motor, the drive gear being in mesh with a driven gear, the driven gear being coupled to the positioning mechanism by a crossed roller bearing.

10. A coiled film production apparatus comprising an oiling mechanism as defined in any one of claims 1 to 9.