CN115555338A - Coating supporting clamp transferring assembly and cleaning system - Google Patents

Abstract

The invention discloses a coating support clamp cleaning system which comprises a bottom plate and a conveying disc, wherein the conveying disc is rotationally connected to the upper side of the bottom plate and is driven to rotate by a motor; the conveying disc is provided with a plurality of limiting grooves, the limiting grooves are vertically communicated, are matched with the supporting clamp and are used for accommodating the supporting clamp, the limiting grooves are distributed around the circumference of the rotating shaft of the conveying disc, and the length direction of the limiting grooves is consistent with the radial direction of the conveying disc; the bottom plate is used for supporting the supporting clamp in the limiting groove; one side of the conveying disc is an input position, the other side of the conveying disc is an output position, and the conveying disc rotates to realize the transfer of the supporting clamp. The invention adopts full-automatic intelligent control, reduces labor cost to the maximum extent, reduces the contact of personnel and strong alkali solution, and is safer. Can remove two to three products with different specifications at the same time, and is efficient, practical and convenient.

Description

Coating supporting clamp transferring assembly and cleaning system

Technical Field

The invention relates to a cleaning device for a coating tool, in particular to a transfer assembly for a coating support clamp and a cleaning system for the coating support clamp.

Background

In the coating process, a workpiece with coating is usually supported by a support clamp, the support clamp is mounted on a carrier of the coating equipment, and the workpiece with coating is stably supported. The paint sprayed by the spraying equipment can be attached to the supporting clamp, so that a layer of paint film pollution can be formed on the surface of the supporting clamp. In the repeated production process, the paint film on the surface of the supporting clamp is more and more, and the use of the supporting clamp can be influenced.

For example, the coating clamp for the cosmetic bottle cap is generally cylindrical, and when the coating clamp is used, the cosmetic bottle cap needs to be sleeved on the upper end of the supporting clamp, the diameter of the upper end of the supporting clamp is increased along with the adhesion of a paint film, and the cosmetic bottle cap is sleeved on the supporting clamp in a non-disturbed and smooth manner, so that the supporting clamp cannot be used normally.

At present, a cleaning mode of a paint film on the surface of a coating clamp is to clean the paint film by adopting an alkali washing mode, firstly, the paint film is soaked by alkali liquor to be peeled off, then, the paint film is cleaned by clear water, and the cleaned supporting clamp is obtained after cleaning.

However, since the field and market for cleaning the coating jig are small, only some coating support jigs having a specific shape need to be cleaned; at present, cleaning equipment for coating clamps on the market is few, a manual cleaning mode is mostly adopted in the cleaning process, and the danger of contacting alkali liquor and the pressure of labor cost exist. Moreover, the supporting clamp is removed from the alkali liquor, and when the cleaning solution is put into the cleaning water, more alkali liquor can be remained on the surface of the supporting clamp, so that the subsequent cleaning process is influenced, the cleaning solution is quickly polluted, frequent replacement is needed, and the cleaning treatment is not facilitated.

Therefore, a new solution is needed to solve this problem.

Disclosure of Invention

The invention aims to solve the problems and provides a transfer assembly of a coating support clamp cleaning system, which is suitable for cleaning a rolling body-shaped support clamp, reduces alkali liquor residue on the surface of the support clamp in the transfer process and maintains the stable operation of the cleaning system.

The technical purpose of the invention is realized by the following technical scheme: a transfer assembly of a coating support clamp cleaning system is arranged between an immersion cleaning pool and a cleaning pool of the cleaning system and comprises a bottom plate and a conveying disc, wherein the conveying disc is rotatably connected to the upper side of the bottom plate and is driven to rotate by a motor; the conveying disc is provided with a plurality of limiting grooves, the limiting grooves are vertically communicated, are matched with the supporting clamp and are used for accommodating the supporting clamp, the limiting grooves are distributed around the circumference of a rotating shaft of the conveying disc, and the length direction of the limiting grooves is consistent with the radial direction of the conveying disc; the bottom plate is used for supporting the supporting clamp in the limiting groove; one side of transfer dish is the input position, and the opposite side is the output position, can realize supporting fixture through the transfer dish rotation and transport, and the transfer dish drives and rolls on supporting fixture at supporting fixture.

The invention is further arranged in that notches are respectively arranged at two sides of the limiting groove, guide wheels are rotatably connected in the notches, the axis of each guide wheel is consistent with the radial direction of the conveying disc, and the guide wheels are used for abutting against the supporting clamps in the limiting groove and pushing the supporting clamps to roll.

The invention is further arranged that the pressing position of the guide wheel and the supporting clamp is positioned at the lower half part of the axis of the supporting clamp.

The invention is further provided that one side of the bottom plate facing the leaching tank is inclined downwards, and the conveying disc and the bottom plate are parallel to each other;

the bottom plate is of an upper-lower double-layer structure and comprises an upper plate and a lower plate, the upper plate is provided with a plurality of vertically through water leakage holes, a water leakage gap is formed between the upper plate and the lower plate, and one side of the water leakage gap is communicated towards the direction of the immersion cleaning pool.

The invention is further arranged in such a way that the output position of the bottom plate is provided with a through groove which is communicated up and down, and the outline of the through groove is matched with the supporting clamp and is used for allowing the supporting clamp which rolls to the output position to leak downwards.

The invention is further arranged in such a way that a first material guide mechanism is arranged on the upper side of the input position of the conveying disc, a first material guide channel which is communicated up and down is formed on the first material guide mechanism, the lower end of the first material guide channel is opposite to the position of the limiting groove, and the upper end of the first material guide channel is a gradually enlarged first flared opening; the position of lower extreme one side of flaring one rotates and is connected with initiative deflector roll to it is rotatory through motor drive, and the position of the lower extreme opposite side of flaring one sets up the transmission deflector roll, and the transmission deflector roll passes through the flexible regulation of telescopic link, can realize the distance between initiative deflector roll and the transmission deflector roll and adjust.

The invention is further arranged in that a second material guide mechanism is arranged on the lower side of the output position of the bottom plate, a second material guide channel which is communicated up and down is arranged on the second material guide mechanism, and the upper end of the second material guide channel is a second gradually enlarged flaring and is opposite to the through groove on the bottom plate.

The invention is further provided that an arc-shaped transfer path is formed between the input position and the output position of the conveying disc; a fan is arranged on the upper side of the transfer path and used for blowing air to the supporting clamp on the conveying disc; the air outlet direction of the fan inclines towards one side of the immersion cleaning pool.

The invention further provides that the supporting clamp comprises a connecting section and a supporting section which are coaxially connected, wherein the connecting section is positioned at the lower part of the supporting section and is used for being connected with a carrier of the equipment; the upper end of the supporting section is used for sleeving a workpiece to be coated; the diameter of the supporting section is larger than that of the connecting section, and the supporting clamp moves circularly on the bottom plate in the rolling process.

The invention also provides a coating support fixture cleaning system, which comprises an immersion cleaning pool, a dryer and the transfer assembly, wherein the immersion cleaning pool is used for immersion cleaning of the support fixture to remove a paint film, the cleaning pool is used for cleaning the support fixture after immersion cleaning, and the transfer assembly is arranged between the immersion cleaning pool and the cleaning pool and is used for realizing transfer of the support fixture; a first transmission belt is arranged in the immersion cleaning pool, and the output end of the first transmission belt extends upwards and is connected with the transfer assembly; set up conveyer belt two in the washing pond, the input of conveyer belt two is two to be connected with the transportation subassembly, and output two upwards extends and stretches the washing pond, the drying-machine is installed in output two departments of conveyer belt two and is used for the support anchor clamps after the dry cleaning.

The invention is further arranged in that an aeration device and a heating device are arranged in the immersion tank, a filtering device for filtering the immersion liquid is arranged outside the immersion tank, a water outlet pipe and a water inlet pipe are connected between the filtering device and the immersion tank, and the circulating pumping of the immersion liquid is realized through a liquid pump.

In conclusion, the invention has the following beneficial effects:

carry through the conveyer belt to the clear application support fixture of area, can reduce clear manual work to avoid the condition of artifical direct contact alkali lye, reduce the cost of labor, and safer.

In the immersion cleaning process, the aeration device is used for aeration, and the heating device is used for heating, so that the cleaning efficiency of a paint film on the surface of the tool can be improved, and the paint film is more efficiently cleaned; through adopting filter equipment, can carry out loop filter to the lacquer sediment in the middle of the dipping pond, reduce the lacquer sediment in the middle of the dipping pond, avoid the material surface of output to adhere to too much lacquer sediment, guarantee that the film is high-efficient to be handled.

Through adopting the subassembly of transporting to transport the material between soaking pond and the washing pond, can drive the alkali lye on material surface and remain at the transportation in-process, and then reduce the pollution that alkali lye produced to follow-up washing pond, maintain the cleanness of washing liquid, guarantee the clean degree after the material washs. Meanwhile, the replacement frequency of the cleaning water can be reduced, and the effect of saving water is achieved.

Drawings

FIG. 1 is a schematic view of a paint support fixture cleaning system of the present invention;

FIG. 2 is a schematic view of the construction of the immersion tank of a paint support fixture cleaning system of the present invention;

FIG. 3 is a first schematic structural view of a limiting groove of the conveying disc according to the present invention;

FIG. 4 is a second schematic structural view of a limiting groove of the conveying disc according to the present invention;

FIG. 5 is a schematic structural view of a transfer tray and a base plate according to the present invention;

FIG. 6 is a first schematic diagram of a top view of the transfer module of the present invention;

FIG. 7 is a schematic top view of the second transfer module of the present invention;

FIG. 8 is a schematic structural view of a first material guiding mechanism according to the present invention;

FIG. 9 is a schematic structural view of a second material guiding mechanism according to the present invention;

FIG. 10 is a schematic view of a support fixture according to the present invention;

fig. 11 is a schematic view of a structure in which a supporting jig according to the present invention is horizontally disposed.

Reference numerals: 1. an immersion cleaning pool; 2. a cleaning pool; 3. a dryer; 4. a first conveyor belt; 401. an output end I; 5. a second conveyor belt; 501. an output end II; 6. a transfer assembly; 61. inputting a position; 62. an output position; 601. a base plate; 602. a delivery tray; 603. a limiting groove; 604. a notch; 605. a guide wheel; 606. an upper plate; 607. a lower layer plate; 608. a water leakage hole; 609. a water leakage gap; 610. a fan; 611. a through groove; 7. an aeration device; 8. a heating device; 9. a filtration device; 901. a water outlet pipe; 902. a water inlet pipe; 903. a liquid pump; 10. supporting the clamp; 101. a connecting section; 102. a support section; 103. a first conical surface; 104. a second conical surface; 11. a first material guide mechanism; 111. a material guide channel I; 112. flaring I; 113. a driving guide roller; 114. a transmission guide roller; 115. a telescopic rod; 116. a telescopic end; 12. a second material guide mechanism; 121. a second material guide channel; 122. flaring II; 20. cosmetic bottle lid.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment discloses a coating support fixture cleaning system, and this cleaning system plays the effect to support fixture 10 surface cleaning, soaks the washing through alkali lye to support fixture 10, gets rid of the attached paint film in support fixture 10 surface, reaches clear effect.

The supporting clamp 10 is generally a columnar structure, and includes a lower connecting section 101 and an upper supporting section 102, the connecting section 101 is connected and fixed on a carrier of a coating apparatus, and a workpiece to be coated, such as a bottle cap of a cosmetic bottle, is sleeved on the top of the supporting section 102 to support the workpiece. In the process of coating the workpiece, the coating is also attached to the surface of the supporting clamp 10 to form a paint film. With the long-term use of the supporting clamp 10, the thickness of the paint film on the surface of the supporting clamp 10 becomes thicker continuously, and after the thickness reaches a certain value, the workpiece cannot be sleeved on the top of the supporting clamp 10, so that the normal coating production process of the workpiece is affected. By the cleaning system, the function of cleaning the paint film on the surface of the supporting clamp 10 can be achieved.

Specifically, as shown in fig. 1, the cleaning system for the coating supporting clamp comprises an immersion cleaning tank 1, a cleaning tank 2, a dryer 3 and a transfer assembly 6, wherein alkali liquor is input into the immersion cleaning tank 1, the alkali liquor adopts 10% of sodium hydroxide solution by mass concentration and can react with a paint film on the surface of the supporting clamp 10, so that the paint film on the surface of the supporting clamp 10 can be separated; the cleaning tank 2 is filled with clear water which is mainly used for cleaning the supporting clamp 10 after being soaked and cleaned, and clearly supporting alkali liquor and paint slag adhered on the surface of the supporting clamp 10.

A first transmission belt is arranged in the immersion cleaning pool 1, the first transmission belt 4 is used for conveying the supporting clamp 10 and is cleaned, and in order to keep conveying stability, a partition plate can be arranged on the first transmission belt 4, so that the limiting effect on the supporting clamp 10 is achieved. The first output end 401 of the first conveyor belt 4 extends upwards and is connected with the transfer component 6; the support jig 10 output from the first output end 401 falls into the transfer module 6, and the support jig 10 is transferred by the transfer module 6.

Set up conveyer belt two 5 in wasing pond 2, the input second of conveyer belt two 5 is connected with transporting subassembly 6, transports support anchor clamps 10 that subassembly 6 transported and can fall to conveyer belt two 5 on, through the transport of conveyer belt two 5, cleans support anchor clamps 10 through wasing pond 2. The second output end 501 of the second conveying belt 5 extends upwards to extend out of the cleaning pool 2, the supporting clamp 10 which is cleaned can be sent out, the dryer 3 is installed at the second output end 501 of the second conveying belt 5, hot air can be blown to the surface of the supporting clamp 10 through the dryer 3, the surface of the supporting clamp 10 is dried, and supporting and cleaning are completed.

In order to improve the effect in the immersion cleaning process, an aeration device 7 and a heating device 8 can be installed in the immersion cleaning tank 1, bubbles can be sprayed out at the bottom position of the immersion cleaning tank 1 through the aeration device 7, the flow of liquid in the immersion cleaning tank 1 can be increased through the bubbles, in the aeration process, the supporting clamp 10 immersed in water can be driven to generate certain vibration, the friction between the supporting clamps 10 is increased, and then the surface paint film falling of the supporting clamp 10 can be accelerated. The heating device 8 adopts an electric heating mode, so that the temperature of liquid in the leaching tank 1 can be increased, and the reaction treatment efficiency of a paint film is further accelerated.

Set up filter equipment 9 in the outside of soaking pond 1, filter equipment 9 can play the effect of filtering the edulcoration to the soaking liquid, plays the effect of collecting the lacquer sediment. A water outlet pipe 901 and a water inlet pipe 902 are connected between the filtering device 9 and the immersion pool 1, a liquid pump 903 is installed on the water inlet pipe 902, and the immersion liquid is pumped by the liquid pump 903 to realize the circulating pumping of the immersion liquid. Through circulating pumping, the dropped paint residues can be taken away by matching with the filtering of the filtering device 9, and the alkali liquor in the leaching tank 1 is kept relatively clean.

After the supporting clamp 10 comes out from the immersion cleaning tank 1, the surface can carry a part of residual alkali liquor, and after the surface enters the cleaning tank 2, the residual alkali liquor on the surface can pollute the cleaning tank 2, so that the pH value of the cleaning solution in the cleaning tank 2 is rapidly increased. Can set up pH value check out test set in the middle of wasing pond 2, monitor pH value, when pH value was too high, can open the valve, with the water discharge, add clean water again, and then guarantee that the material is clean, accord with the operation requirement.

Between soaking pond 1 and washing pond 2, realize the transmission by the cooperation of conveyer belt 4, conveyer belt two 5, have between two conveyer belts to transport subassembly 6 and transport. In the transportation process, through blowing, can blow off the drying with the remaining alkali lye of support fixture 10 surface, reduce and remain the alkali lye and enter into in the middle of wasing pond 2, can keep wasing the pH value in the middle of the pond 2 relatively stable.

The embodiment discloses a transportation subassembly of application support anchor clamps cleaning system is applicable to and uses among the above-mentioned embodiment, installs between cleaning system's immersion cleaning pond 1 and washs pond 2, plays the effect that realizes support anchor clamps 10 material transportation between two conveyer belts. On the basis of the above-described embodiment, and with reference again to fig. 2-9, the transfer assembly 6 will be described in detail, and the cleaning system described above will be additionally optimized.

The transfer assembly 6 comprises a bottom plate 601 and a conveying disc 602, wherein the bottom plate 601 is installed on the immersion cleaning pool 1 and the cleaning pool 2, one side of the bottom plate 601 is connected with the upper edge of the immersion cleaning pool 1 and is obliquely and downwards arranged towards one side of the immersion cleaning pool 1, and the residual alkali liquor can flow back to the immersion cleaning pool 1 along the bottom plate 601 in an oblique state, so that the alkali liquor entering the cleaning pool is reduced.

As shown in fig. 5-7, the conveying tray 602 is a disc-shaped structure, is rotatably connected to the upper side of the bottom plate 601, and is driven to rotate by a motor; the conveying disc 602 is provided with a plurality of limiting grooves 603, and the limiting grooves 603 are vertically through and adapted to the supporting jig 10 and slightly larger than the profile of the supporting jig 10, so that the supporting jig 10 can be accommodated in the limiting grooves 603. The limiting grooves 603 are circumferentially distributed around the rotating shaft of the conveying disc 602, and the length direction of the limiting grooves 603 is consistent with the radial direction of the conveying disc 602, so as to form a spoke-like structure. The bottom of the supporting jig 10 inserted into the limiting groove 603 is supported by the bottom plate 601, and the supporting jig 10 can roll on the bottom plate 601 due to the cylindrical structure of the supporting jig 10.

In the rotation process of the conveying disc 602, the side edge of the limiting groove 603 will push against the supporting clamp 10, so that the supporting clamp 10 can move on the bottom plate 601, mainly roll, and have a certain slippage. As shown in fig. 6, on one side of the conveyance tray 602 is an input position 61 from which the support jig 10 is input; on the other side there is also an output point 62, from which output point 62 the transferred material is output backwards. Under the action of the feed tray 602, the support jig 10 can be fed in a rolling manner between the input position 61 and the output position 62.

An arc-shaped transfer path is formed between the input position 61 and the output position 62, and the angle between the input position 61 and the output position 62 of the transfer tray 602 can be generally 180 ° or more, so as to increase the length of the transfer process, so that the residual lye can be sufficiently separated, and the lye residue can be reduced as much as possible. A fan 610 is installed at an upper side position of the transfer path, and the fan 610 is used for blowing air to the support jigs 10 on the transfer tray 602; the air outlet direction of the fan 610 is inclined toward one side of the leaching tank 1. In addition, in the process of conveying the supporting clamp 10 on the arc-shaped path, the position of the supporting clamp 10 in the length direction is changed, so that the end face position of the supporting clamp 10 is blown by the fan 610 at certain angles in the transferring process, and the supporting clamp 10 can be fully cleaned as far as possible in the residue removing process.

In the conveying process, the blower 610 blows and sweeps above the conveying disc 602, so that residual alkali liquor on the surface of the supporting clamp 10 can fall off and be dried, the residual amount of the alkali liquor is reduced, and pollution to a subsequent cleaning tank is reduced. In addition, in the conveying process of the conveying disc 602, the supporting fixture 10 can roll and rotate, so that all positions on the periphery of the supporting fixture 10 can be correspondingly purged, and the effect of removing residues can be achieved at all positions on the peripheral surface, so that the effect of efficiently removing residues is achieved.

In order to keep the support jig 10 in the position of the limit groove 603 smoothly rolling, guide wheels 605 may be provided at both sides of the limit groove 603, thereby reducing frictional resistance between the support jig 10 and the conveying tray 602. As shown in fig. 3, notches 604 are formed on both sides of the limit groove 603, a guide wheel 605 is rotatably connected to the notches 604, and the guide wheel 605 protrudes toward the inner side of the limit groove 603 and can abut against the support jig 10 in the limit groove 603. During the rotation of the conveying tray 602, the outer peripheral surface of the guide wheel 605 generates a pushing action on the outer peripheral surface of the supporting fixture 10, so that the supporting fixture 10 can roll, and the friction resistance on the supporting fixture 10 is reduced. And the axis of the guide wheel 605 is consistent with the radial direction of the conveying disc 602, so that the guide wheel 605 can be pressed against and rolled with the supporting clamp 10 during the pushing process, and the conveying stability of the supporting clamp 10 can be maintained.

In order to maintain the position stability of the supporting clamp 10 in the limiting groove 603, the height of the upper end surface of the conveying disc 602 can be adjusted to be more than the radius of the supporting clamp 10, only a small part of the upper part of the supporting clamp 10 protrudes out of the limiting groove 603, so that the supporting clamp 10 in the limiting groove 603 is kept to obtain a stable limiting effect, and the supporting clamp 10 is kept to roll smoothly.

Further, the pressing position of the guide wheel 605 with the support jig 10 is also located at the lower half of the axis of the support jig 10, as shown in fig. 3. When the guide wheel 605 is pressed against the periphery of the supporting clamp 10, the pressing direction has an upward inclination angle, and the pressing acting force forms an upward wind separation, so that the gravity of the supporting clamp 10 can be resisted, the friction between the guide wheel 605 and the bottom plate 601 can be reduced, and the supporting clamp 10 can roll more smoothly; especially, in the sliding and deflecting process of the supporting clamp 10, the supporting clamp is pressed upwards in an inclined mode, so that stable conveying of the supporting clamp 10 is facilitated, the friction resistance is reduced, and the conveying stability is improved.

In order to realize the output transmission of the supporting clamp 10, a through groove 611 penetrating up and down can be opened at the output position 62 of the bottom plate 601, the outline of the through groove 611 is matched with the supporting clamp 10, and the supporting clamp 10 rolling to the output position 62 can be leaked downwards through the through groove 611. When the conveying tray 602 rotates, the supporting jigs 10 are transmitted in a rolling manner along with the movement of the conveying tray 602, and when the supporting jigs 10 move to the output position 62 of the bottom plate 601, the corresponding limiting grooves 603 of the conveying tray 602 are opposite to the through grooves 611 up and down, and the supporting jigs 10 in the limiting grooves 603 directly fall from the through grooves 611, so that the supporting jigs 10 can be discharged.

In order to realize smooth transmission of the support jig 10 discharged from the through groove 611 of the bottom plate 601 to the second conveyor belt 5, a second material guiding mechanism 12 may be disposed below the discharge position 62 of the bottom plate 601. As shown in fig. 9, the second material guiding mechanism 12 is provided with a second material guiding channel 121 which is vertically through, the upper end of the second material guiding channel 121 is a gradually enlarged flared end 122, and is opposite to the through groove 611 on the bottom plate 601, and the lower end of the second material guiding channel 121 is opposite to the upper part of the second conveyor belt 5. In the conveying process, the supporting clamp 10 output by the transferring assembly 6 falls into the second material guiding mechanism 12, and can be conveyed to the second conveying belt 5 through the transmission of the material guiding mechanism, so that the transferring and conveying of the supporting clamp 10 are realized, and the supporting clamp is subsequently input to the cleaning pool 2 through the second conveying belt 5 for cleaning.

As shown in fig. 8, a first material guiding mechanism 11 is disposed at an upper side of the input position 61 of the feeding tray 602, the first material guiding mechanism 11 is of a funnel-like structure, a first material guiding channel 111 penetrating up and down is provided in the first material guiding mechanism 11, and the width and length of the first material guiding channel 111 are slightly larger than the support jig 10, so that a support jig 10 can be maintained to smoothly fall. The lower end of the first material guiding channel 111 is located at the input position 61 and can be opposite to the position of the limiting groove 603 of the input position 61, the supporting fixture 10 falling from the first material guiding channel 111 just falls into the limiting groove 603, and as the conveying disc 602 rotates, the supporting fixture 10 can sequentially fall into different limiting grooves 603, so that the supporting fixture 10 in the conveying disc 602 can be distributed.

The upper end of the first material guiding channel 111 is a gradually enlarged flaring 112, a driving guide roller 113 and a transmission guide roller 114 are arranged at the lower end of the flaring 112, and the supporting clamp 10 is supported by the driving guide roller 113 and the transmission guide roller 114 together, so that the supporting clamp 10 is in a horizontal state.

As shown in fig. 8, the driving guide roller 113 is located at one side of the flared opening and is driven to rotate by a motor, and the driving guide roller 113 can realize driving rotation; and a transmission guide roller 114 is arranged at the other side of the flaring I112, the transmission guide roller 114 is supported by a telescopic rod 115 and is arranged on a telescopic end 116 of the telescopic rod 115, horizontal adjustment can be realized by driving the telescopic rod 115, namely, the distance between the driving guide roller 113 and the transmission guide roller 114 can be adjusted, and the two guide rollers are always in a horizontal state in the adjustment process.

When the telescopic rod 115 extends out, the distance between the transmission guide roller 114 and the driving guide roller 113 is smaller, the supporting clamp 10 can pass between the transmission guide roller and the driving guide roller, and all the supporting rollers are overlapped in the flaring; at this time, the driving guide roller 113 rotates to drive each support roller to rotate through friction, and the support rollers are driven to move through the rotation, so that the support clamp 10 in the flaring can be tidied. When the telescopic rod 115 is retracted, the distance between the driving guide roller 114 and the driving guide roller 113 is enlarged, so that one supporting clamp 10 just passes through the distance, and after the distance passes, the telescopic rod 115 immediately extends out, so that the supporting clamp 10 is kept to fall down singly, and the conveying stability of the supporting clamp 10 can be further kept.

In order to improve the sufficient falling of the alkali liquor in the transfer assembly 6, the bottom plate 601 can be set to be a vertical double-layer structure, and comprises an upper plate 606 and a lower plate 607, wherein the upper plate 606 and the lower plate 607 are arranged in parallel in a stacked manner, and a plurality of vertically through water leakage holes 608 are formed in the upper plate 606. A water leakage gap 609 is formed between the upper plate 606 and the lower plate 607, and one side of the water leakage gap 609 is communicated towards the direction of the leaching tank 1.

The alkali liquor dropping from the supporting clamp 10 can flow down to the lower plate 607 from the water leakage hole 608, and continuously flows back to the immersion tank 1 at a smoothly inclined angle in the water leakage gap 609 between the upper plate 606 and the lower plate 607, so as to form a smooth alkali liquor backflow channel; and the alkali liquor and the supporting clamp 10 are blocked by the upper plate 606, so that the alkali liquor is prevented from contacting other parts in the backflow process, secondary adhesion can be avoided, the alkali liquor removing effect on the surface of the supporting clamp 10 in the transfer process is improved, and the pollution to the subsequent cleaning pool 2 can be reduced.

In addition, on the basis of the above embodiments, the structure of the supporting fixture 10 can be further optimally designed, as shown in fig. 10 and 11.

Generally, the supporting fixture 10 is a cylindrical structure, and has a lower end provided with threads for being mounted on a carrier for coating, and an upper end for receiving the bottle cap 20 for supporting the bottle cap 20 to be coated. As shown in fig. 10, in the present embodiment, the supporting jig 10 includes a connecting section 101 and a supporting section 102 which are coaxially connected, the connecting section 101 and the supporting section 102 are cylindrical with different diameters, and the connecting section 101 is located at a lower portion of the supporting section 102 for connecting with the equipment carrier; the upper end of the supporting section 102 is used for sleeving a cosmetic bottle cap 20 to be coated; the diameter of the upper supporting section 102 is larger than that of the lower connecting section 101, so that the supporting clamp 10 is in an inclined state when placed on the bottom plate 601, and only part of the supporting clamp contacts with the bottom plate 601, thereby reducing the contact between the supporting clamp 10 and the bottom plate 601 and reducing the secondary pollution adhesion of residual alkali liquor.

The structures with different diameters are connected, so that the support roller forms circular arc-shaped movement in the rolling process. In the middle of the spacing groove 603, the slightly larger support section 102 of diameter is located the peripheral direction of rotary disk, and the motion route of supporting fixture 10 is unanimous with the motion route of spacing groove 603, and the adjustment of sliding between reduction supporting fixture 10 and the bottom plate 601 mutually adapts to, and then can make the roll process of supporting fixture 10 more smooth and easy, improves the transportation stability of supporting fixture 10.

Further, a first tapered surface 103 may be disposed on an outer periphery of a side of the supporting section 102 facing the connecting section 101, a second tapered surface 104 may be disposed on a side of the connecting section 101 away from the supporting section 102, and the first tapered surface 103 and the second tapered surface 104 are adapted to each other. When the supporting clamp 10 is woven on the base plate 601, the first conical surface 103 and the second conical surface 104 are supported on the base plate 601 together, so that stable support for the supporting clamp 10 can be maintained, the supporting stability of the supporting clamp 10 can be maintained, and a sufficient supporting length is formed between the supporting clamp 10 and the base plate 601 to maintain smooth rotation of the supporting clamp 10.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. The transfer assembly of the coating support clamp cleaning system is characterized by being arranged between a soaking pool (1) and a cleaning pool (2) of the cleaning system, and comprising a bottom plate (601) and a conveying disc (602), wherein the conveying disc (602) is rotatably connected to the upper side of the bottom plate (601) and is driven to rotate by a motor; the conveying disc (602) is provided with a plurality of limiting grooves (603), the limiting grooves (603) are vertically communicated, are matched with the supporting clamp (10) and are used for accommodating the supporting clamp (10), the limiting grooves (603) are distributed around the circumference of a rotating shaft of the conveying disc (602), and the length direction of the limiting grooves (603) is consistent with the radial direction of the conveying disc (602); the bottom plate (601) is used for supporting the supporting clamp (10) in the limiting groove (603); one side of the conveying disc (602) is an input position (61), the other side of the conveying disc is an output position (62), the conveying disc (602) rotates to realize the transfer of the supporting clamp (10), and the conveying disc (602) drives the supporting clamp (10) to roll on the supporting clamp (10).

2. The transfer assembly of a coating support clamp cleaning system according to claim 1, wherein notches (604) are formed in two sides of the limiting groove (603), a guide wheel (605) is rotatably connected in each notch (604), the axis of each guide wheel (605) is consistent with the radial direction of the conveying disc (602), and each guide wheel (605) is used for abutting against the support clamp (10) in the limiting groove (603) to push the support clamp (10) to roll.

3. The transfer assembly of a coating support jig cleaning system according to claim 2, wherein the pressing position of the guide wheel (605) against the support jig (10) is located at a lower half of the axis of the support jig (10).

4. The transfer assembly of a paint support fixture cleaning system according to claim 1, wherein the floor (601) is arranged to be inclined downward toward a side of the immersion basin (1), and the conveyor pan (602) and the floor (601) are parallel to each other; the bottom plate (601) is of an upper-lower double-layer structure and comprises an upper plate (606) and a lower plate (607), the upper plate (606) is provided with a plurality of water leakage holes (608) which are communicated up and down, a water leakage gap (609) is formed between the upper plate (606) and the lower plate (607), and one side of the water leakage gap (609) is communicated towards the direction of the immersion cleaning pool (1).

5. The transfer assembly of a coating support clamp cleaning system according to claim 1, wherein the output position (62) of the bottom plate (601) is provided with a through groove (611) which penetrates up and down, and the through groove (611) is matched with the support clamp (10) in contour and used for allowing the support clamp (10) which rolls to the output position (62) to leak downwards.

6. The transfer assembly of a coating support clamp cleaning system according to claim 1, wherein a first material guide mechanism (11) is arranged on the upper side of the input position (61) of the conveying disc (602), the first material guide mechanism (11) is provided with a first material guide channel (111) which penetrates upwards and downwards, the lower end of the first material guide channel (111) is opposite to the position of the limiting groove (603), and the upper end of the first material guide channel is a gradually enlarged flaring one (112); the position of lower extreme one side of flaring (112) is rotated and is connected with initiative deflector roll (113) to it is rotatory through motor drive, and the position of the lower extreme opposite side of flaring (112) sets up transmission deflector roll (114), and transmission deflector roll (114) are through telescopic link (115) flexible regulation, can realize the distance between initiative deflector roll (113) and transmission deflector roll (114) and adjust.

7. The transfer assembly of a coating support fixture cleaning system according to claim 5, wherein a second guiding mechanism (12) is disposed on a lower side of the output position (62) of the bottom plate (601), the second guiding mechanism (12) is provided with a second guiding channel (121) which is through from top to bottom, and an upper end of the second guiding channel (121) is a second flared opening (122) which is gradually enlarged and is opposite to the through groove (611) on the bottom plate (601).

8. The transfer assembly of a paint support fixture cleaning system of claim 1, wherein an arcuate transfer path is formed between the input location (61) and the output location (62) of the conveyor pan (602); a fan (610) is arranged on the upper side of the transfer path, and the fan (610) is used for blowing air to the supporting clamp (10) on the conveying disc (602); the air outlet direction of the fan (610) inclines towards one side of the leaching tank (1).

9. A coating support fixture cleaning system, characterized by comprising a soaking and washing tank (1), a cleaning tank (2), a dryer (3) and a transfer assembly (6) according to any one of claims 1-8, wherein the soaking and washing tank (1) is used for soaking and washing a support fixture (10) to remove a paint film, the cleaning tank (2) is used for cleaning the support fixture (10) after soaking and washing, and the transfer assembly (6) is arranged between the soaking and washing tank (1) and the cleaning tank (2) and used for transferring the support fixture (10); a first transmission belt is arranged in the leaching tank (1), and a first output end (401) of the first transmission belt (4) extends upwards and is connected with the transfer component (6); set up conveyer belt two (5) in wasing pond (2), the input of conveyer belt two (5) is two to be connected with transporting subassembly (6), and output two (501) upwards extend and stretch and wash pond (2), drying-machine (3) are installed and are located support fixture (10) after being used for dry cleaning in output two (501) of conveyer belt two (5).

10. The paint support jig cleaning system according to claim 1, characterized in that an aeration device (7) and a heating device (8) are arranged in the immersion tank (1), a filtering device (9) for filtering the immersion liquid is arranged outside the immersion tank (1), a water outlet pipe (901) and a water inlet pipe (902) are connected between the filtering device (9) and the immersion tank (1), and the immersion liquid is pumped circularly by a liquid pump (903).

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