CN212370474U - Automatic wipe processing agent equipment - Google Patents

Abstract

The utility model discloses an automatic wiping treatment agent device, at least two groups of automatic wiping treatment agent units which are arranged on a frame and are used by alternate replacement are arranged along the conveying direction of a shoe material conveying mechanism, each automatic wiping treatment agent unit is provided with at least one group of smearing mechanism, a control device is connected with a dosage adjusting driving mechanism arranged on the smearing mechanism, a transition roller is driven to leave a feeding roller and a coating roller through the dosage adjusting driving mechanism at intervals of set time intervals in the working process, the transition roller respectively stops corresponding stop time at a wiping treatment agent device and a smearing working position respectively, the dosage of treatment agent transferred to the transition roller is automatically adjusted in the working process, a roller body in the treatment agent smearing device can be rapidly disassembled, the cushion cover on the surface of the roller body is convenient to clean and replace, the automatic wiping treatment agent is continuously stopped, the production speed is improved, and is convenient to use.

Description

Automatic wipe processing agent equipment

Technical Field

The utility model belongs to the technical field of shoemaking equipment technique and specifically relates to an automatic polishing treatment agent equipment is related to.

Background

In the shoe production line, with the application of automatic equipment, a plurality of manual work workstations in the shoe production line are replaced by the automatic equipment, but the shoe production line also comprises a plurality of workstations which need manual work of workers, for example, workstations for wiping cleaning agents and treating agents on the surfaces of shoe materials, in the current advanced shoe production line, a roller coating device is used at the workstation for wiping the cleaning agents and the treating agents, or auxiliary work of the workers is needed, in the using process, shutdown is needed at intervals of 30-60 minutes for cleaning, maintaining or replacing stained products, frequent shutdown is needed for replacing the stained products, continuous automatic cleaning agents and treating agents cannot be achieved, the use is inconvenient, and uneven smearing phenomenon often occurs.

In the using process, after the conveying speed of the conveying belt for conveying the shoe material, the fit clearance between the transition roller and the feeding roller and the fit clearance between the transition roller and the coating roller are set, the conveying speed of the conveying belt, the fit clearance between the transition roller and the feeding roller and the fit clearance between the transition roller and the coating roller are kept unchanged in the working process of the polishing agent device, the transition roller continuously transfers the treating agent to the coating roller in the process of coating the treating agent on the surface of the shoe material, and the dosage transferred to the surface of the coating roller is not adjustable. And the two adjacent shoe materials conveyed by the conveying belt are separated, so that the treatment agent on the surface of the coating roller is excessive after the treatment agent wiping device works for a period of time, and the coating roller often has the phenomena of dripping or uneven coating of the treatment agent.

The liquid level of silo constantly fluctuates and undulant great, it is also relatively complicated to supply liquid mechanism and control, also can't make the finishing agent in the silo remain stable liquid level throughout, in the use, the finishing agent and remain and be paintd the pollutant on shoes material surface and all can stained roll body and the cover on installation roll body surface, consequently need frequently wash and change the cover on installation roll body surface in the use, there is technical finishing agent to paint in the device now, the dismantlement and the installation of each roll body are all very troublesome.

In the treating agent of shoemaking equipment paints the device, install a plurality of roll bodies such as material loading roller, transition roller and scribble the material roller, in the use, treating agent and remain and scribble the roller body and install the cushion cover on roll body surface all can stained roll body and installation roll body surface by the pollutant on shoes material surface, consequently need frequently wash and change the cushion cover on installation roll body surface in the use, in the device is paintd to prior art treating agent, the dismantlement and the installation of each roll body are all very troublesome, consequently need improve.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a treating agent paints device with quick detach roller can dismantle the treating agent fast and paint the roll body in the device, convenient cleanness and change.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: an automatic polishing treatment agent device comprises a control device, a rack and a shoe material conveying mechanism arranged on the rack, wherein at least two groups of automatic polishing treatment agent units which are arranged on the rack and used alternately are arranged along the conveying direction of the shoe material conveying mechanism;

each smearing mechanism is provided with a bracket, a feeding roller, a transition roller and a coating roller, wherein the feeding roller, the transition roller and the coating roller are arranged on the bracket;

the transition roller is provided with a smearing working position and a dosage adjusting working position;

when the transition roller is in a smearing working position, the transition roller is respectively in rolling fit or clearance fit with the feeding roller and the coating roller so as to enable the transition roller to provide a treating agent for the coating roller;

the transition roller is relatively far away from the loading roller and/or the coating roller when the transition roller is in the dosage adjustment working position, so that the transition roller does not provide the treating agent to the coating roller;

the bracket is provided with a dose adjusting driving mechanism which is in driving connection with the transition roller and is used for driving the transition roller to move and/or stop at a smearing working position or a dose adjusting working position;

the control device is connected with the dosage adjusting driving mechanism, and drives the transition roller to move to the dosage adjusting working position according to a set time interval period and keeps a set retention time in the working process so as to automatically adjust the dosage transferred to the coating roller in the working process.

Furthermore, at least two automatic polishing agent units which are adjacently arranged in front and back and are used alternately are arranged along the conveying direction of the shoe material conveying mechanism,

each automatic wiping agent unit is provided with a unit rack, at least two smearing mechanisms arranged in front and at back adjacent and at least two smearing lifting mechanisms;

each smearing lifting mechanism is respectively arranged on the unit frame, and the lower part of each smearing lifting mechanism is respectively connected with the corresponding support of the smearing mechanism and is used for driving the corresponding smearing mechanism to lift and switch the smearing lifting mechanism to a use state or a non-use state;

the smearing mechanisms in the automatic wiping treatment agent unit in the using state are simultaneously in the using state;

at least two closed treatment chambers which are adjacently arranged in the front and back are arranged along the conveying direction of the shoe material conveying mechanism, and each closed treatment chamber is positioned above the shoe material conveying mechanism;

a feeding gap is formed between the front side of the closed processing chamber and the shoe material conveying mechanism to form an inlet, and a discharging gap is formed between the rear side of the closed processing chamber and the shoe material conveying mechanism to form an outlet;

at least one automatic wiping agent unit is arranged in each closed processing chamber, and the respective automatic wiping agent units are alternately used.

Furthermore, a box body is arranged along the rack, the box body at least covers the middle section of the shoe material conveying mechanism and the automatic polishing agent unit arranged above the shoe material conveying mechanism, at least one middle partition plate is arranged in the middle of the box body, and the inner cavity of the box body is isolated and separated by the middle partition plate to form at least two sealed closed treatment chambers which are opposite to each other;

the front side surface or the rear side surface of the box body is provided with a plurality of door bodies or window bodies, the top of the box body is provided with an exhaust interface, and the exhaust interface is positioned above the corresponding smearing mechanism and used for intensively absorbing and removing volatile gas;

the shoe material conveying mechanism comprises a circulating conveying belt, a main motor and a conveying belt driving mechanism which are arranged on the rack, the main motor is in transmission connection with the conveying belt driving mechanism, the conveying belt driving mechanism is in transmission connection with the circulating conveying belt, and the smearing mechanism is arranged above the circulating conveying belt.

Furthermore, the transition roller stops at the smearing working position and the dosage adjusting working position in turn and keeps the corresponding residence time respectively in the smearing working position and the dosage adjusting working position in the process of smearing the treating agent by the coating roller;

the control device is provided with a parameter setting unit for setting working parameters of the wiping agent device; the parameter setting unit is provided with a speed parameter representing the conveying speed of the shoe material conveying mechanism;

the control device receives the working parameters of the parameter setting unit and determines or changes the residence time of the transition roller at the smearing working position and the residence time of the transition roller at the dosage adjusting working position, or the control device receives the speed parameters or the corresponding working parameters of the parameter setting unit and automatically determines or changes the residence time of the transition roller at the smearing working position and the residence time of the transition roller at the dosage adjusting working position, so as to realize the automatic matching of different conveying speeds of the shoe material conveyor.

Further, the roll surface of the transition roll and/or the coating roll is sleeved with at least one treating agent absorbing sleeve; the treating agent absorbing sleeve is a cylindrical soft sleeve which is made of water flannelette, is made of sponge or is formed by compounding at least two material layers and is provided with at least one fabric layer.

Further, the bracket is provided with a motor driving mechanism, the motor driving mechanism is respectively connected with the feeding roller and the coating roller in a transmission manner, and the feeding roller and the coating roller are respectively and rotatably arranged on the bracket (;

a material groove is fixed on the support, and the lower part of the feeding roller is immersed in the material groove;

the dose adjusting and driving mechanism comprises roller seats and two lifting devices, the roller seats are arranged on the left side and the right side of the bracket, two ends of the transition roller are respectively and rotatably arranged on the left roller seat and the right roller seat, the transition roller is arranged in the middle position above the feeding roller and the coating roller, and one lifting device is in transmission connection with one corresponding roller seat and used for driving the roller seats and the transition roller to ascend and descend;

after the lifting device drives the transition roller to move downwards, the transition roller stops at the smearing working position and keeps staying at the smearing working position for a set staying time;

after the lifting device drives the transition roller to move upwards, the transition roller stops at the dose adjusting working position and keeps staying at the dose adjusting working position for the set staying time.

Furthermore, the feeding roller comprises a stainless steel roller in a cylindrical shape or a cylinder shape, the roller surface of the feeding roller is a smooth surface or a grain surface with concave-convex grains, one end of the feeding roller is provided with a feeding roller driving wheel, and the feeding roller driving wheel is in transmission connection with the motor driving mechanism;

the coating roller comprises a cylindrical or cylinder-shaped roller body made of silica gel and a treating agent absorption sleeve tightly sleeved on the surface of the roller body, one end of the coating roller is provided with a coating roller driving wheel, and the coating roller driving wheel is in transmission connection with a motor driving mechanism;

the transition roller comprises a stainless steel roller in a cylindrical shape or a cylindrical shape and the treating agent absorbing sleeve tightly sleeved on the surface of the roller body;

the transition roller is in rolling fit with the feeding roller or the coating roller so as to drive the transition roller to rotate without power.

Furthermore, the bracket is provided with a left side plate and a right side plate,

the two side plates are respectively provided with the dose adjusting driving mechanism, the dose adjusting driving mechanism comprises a roller seat, a lifting device and a height adjusting mechanism for adjusting the height position of the lifting device, the inner side of the corresponding side plate is provided with the lifting device, the outer side of the corresponding side plate is provided with the height adjusting mechanism, the height adjusting mechanism is connected with the lifting device, the lifting device is connected with the roller seat, and two ends of the transition roller are respectively and rotatably arranged on the left roller seat and the right roller seat so as to drive the transition roller to ascend or descend;

after the height adjusting mechanism changes the height position of the lifting device, the height position of the roller seat is changed, so that the matching gap between the transition roller and the feeding roller and the matching gap between the transition roller and the coating roller are adjusted.

Further, two the spout of vertical setting is seted up respectively to the curb plate, installs respectively that the height control mechanism at two curb plates all is provided with an adjust knob, at least one connecting piece and a lift portion, and the lift portion is connected in the adjust knob transmission, and corresponding spout is worn to locate in the middle part activity of connecting piece, and corresponding elevating gear and corresponding lift portion are connected respectively at the both ends of connecting piece to realize adjusting the high position of lift portion and adjusting elevating gear's high position behind the rotatory adjust knob.

Further, the loading roller, the transition roller with at least one in the coating roller sets to the rapid disassembly structure roller, and the rapid disassembly structure roller is including being located the quick detach barrel that is used for adsorbing, shifting or scribbling the treatment agent at middle part and installing the barrel coupling mechanism or the rapid disassembly mechanism of the left and right sides of support, and the both ends of quick detach barrel are provided with the interface of inserting to respectively, and two interfaces of inserting to of quick detach barrel are connected the corresponding barrel coupling mechanism or the barrel docking mechanism that are located the left and right sides of support respectively.

Furthermore, the bracket is provided with a left side plate and a right side plate, the side plate at the first side of the bracket is provided with two cylinder body connecting mechanisms, the side plate at the second side of the bracket is provided with two quick-release mechanisms,

the feeding roller and the coating roller are arranged into the quick-release structure roller, the middle part of the feeding roller is provided with the quick-release barrel, two ends of the feeding roller are respectively provided with the opposite-insertion interfaces, the middle part of the coating roller is provided with the quick-release barrel, two ends of the coating roller are respectively provided with the opposite-insertion interfaces, and the quick-release barrels of the feeding roller and the coating roller are respectively clamped and fixed between the corresponding barrel connecting mechanisms or the quick-release mechanisms on the left side and the right side so as to respectively rotatably install the feeding roller and the coating roller on the bracket;

the surfaces of the quick-release cylinders of the feeding roller and the coating roller are respectively and tightly sleeved with a treating agent absorption sleeve so as to realize the absorption, the retention and the transfer of the treating agent;

the dose adjusting and driving mechanism comprises roller seats and two lifting devices, wherein the roller seats are arranged on the left side and the right side of the bracket;

the axis body installation room and do have been seted up to the medial surface of roller seat the channel of the tip of transition roller provides the displacement space, the inboard intercommunication axis body installation room of channel, the outside of channel run through the side of roller seat and form the opening that the tip that supplies the transition roller shifted out, the opening is higher than axis body installation room, and the channel between opening and the axis body installation room is the arc, and the both ends of transition roller are rotatory respectively to be installed in the axis body installation room.

Furthermore, the quick-release mechanism is provided with a connecting part,

the inner end of the connecting part is provided with the cylinder body butt-joint mechanism, the outer end is provided with the quick locking part,

the connecting part is movably or slidably mounted on the bracket,

when the quick-release lock part is in a locking state, the barrel body butt-joint mechanism and/or the connecting part are/is relatively fixed on the bracket so as to realize the locking and fixing of the quick-release barrel body between the barrel body connecting mechanism and the barrel body butt-joint mechanism,

when the quick locking part is in an unlocking state, the connecting part at least has set free displacement relative to the support in the axial direction of the quick-release barrel body, so that the quick-release barrel body is released, and the quick-release barrel body can be taken down from the space between the barrel body connecting mechanism and the barrel body butting mechanism.

Furthermore, the quick locking part comprises a rotating seat fixed at the outer end part of the connecting part and a locking part arranged on the support, the outer end of the locking part is provided with a lock body, the rotating seat is provided with a wheel part and a handle screwing handle of which the inner end is fixed on the wheel part, the outer edge of the wheel part is provided with at least one locking part, the rotating seat is provided with a locking position and an unlocking position, the locking part is in locking fit with the lock body when the rotating seat rotates to the locking position, and the locking part leaves the lock body when the rotating seat rotates to the unlocking position;

the locking piece is a screw with a screw head and screwed on the side plate of the second side, a set distance is reserved between the screw head and the side plate of the second side, a cam part or a notch is arranged on the rim of the wheel part, the locking part is formed on the cam part or the notch, the screw head abuts against the cam part or the notch to realize locking and matching when the rotating seat rotates to a locking position, the screw head leaves the cam part or the notch to realize unlocking when the rotating seat rotates to an unlocking position, and the screw head abuts against the end face of the cam part; the end part of the cam part is provided with a groove which is matched with the screw in a positioning way;

the cylinder body butt joint mechanism comprises a first insertion part fixedly or rotatably arranged at the inner end part of the connecting part, the first insertion part is coaxially and movably inserted into the insertion interface of the quick-release cylinder body, and the quick-release cylinder body is rotatably arranged relative to the connecting part;

the quick release mechanism comprises a quick release barrel, a connecting part and a first inserting part, wherein the quick release barrel is arranged on the quick release barrel, the quick release barrel is arranged on the quick release mechanism, the connecting part is arranged on the quick release mechanism, the quick lock part is arranged on the quick release mechanism, and the quick lock part is arranged on the quick release mechanism;

the quick-release barrel is characterized in that the bracket is provided with a motor driving mechanism, the barrel connecting mechanism comprises a rotating shaft, a transmission part and a second inserting part, the rotating shaft is rotatably arranged on the bracket, the transmission part and the second inserting part are respectively fixed at two end parts of the rotating shaft, the motor driving mechanism is in transmission connection with the transmission part, and the second inserting part is in connection fit with the opposite inserting interface of the quick-release barrel;

the second inserting portion comprises a connecting shaft extending out of the rotating shaft or fixed at the inner end of the rotating shaft, at least one synchronous positioning column extending in the radial direction of the connecting shaft is fixed on the connecting shaft in the radial direction, a shaft hole and a synchronous positioning groove are formed in a first opposite inserting port of the quick-release barrel, the connecting shaft is inserted into the shaft hole, and the synchronous positioning column is inserted or embedded in the corresponding synchronous positioning groove to drive the quick-release barrel to rotate synchronously through the rotating shaft.

Furthermore, a trough is fixed on the support, the support is provided with a liquid supply pipe and a liquid supply box which is arranged in a sealing manner and can be replaced and installed or can supplement a treating agent, the lower end part of the liquid supply pipe is inserted into the trough, the upper part of the liquid supply pipe is provided with a liquid supply pipe interface, the lower part of the liquid supply box is provided with a liquid supply box interface, the liquid supply box interface is connected with the liquid supply pipe interface in a sealing manner, and the liquid supply pipe is communicated with an inner cavity of the liquid supply box;

the support is provided with a liquid supply lifting mechanism, the upper part of the liquid supply pipe or a liquid supply pipe interface is fixed on the liquid supply lifting mechanism so as to realize the adjustment of the distance between the lower end part of the liquid supply pipe and the bottom surface of the trough and the adjustment of the liquid level height, the liquid supply box is inversely arranged above the liquid supply lifting mechanism, the liquid supply box interface is positioned at the bottom of the liquid supply box, and the liquid supply box interface is inserted into the liquid supply pipe interface.

Further, the liquid supply lifting mechanism is provided with a bracket and a bracket lifting mechanism, the bracket lifting mechanism is arranged on the support, the bracket is arranged on the upper part of the bracket lifting mechanism, the upper part of the liquid supply pipe or the connector of the liquid supply pipe is fixed on the bracket, and the liquid supply pipe synchronously moves along with the bracket when the bracket moves up and down so as to realize the liquid level height;

the bracket lifting mechanism comprises a liquid supply adjusting knob arranged on the bracket, a transmission nut fixed on the bracket and at least one guide post arranged on the bracket, the bracket is provided with at least one guide hole, each guide post is movably inserted in the corresponding guide hole, the liquid supply adjusting knob is provided with a hand-screwing knob and a transmission lead screw fixed on the hand-screwing knob, and the transmission lead screw is in transmission connection with the transmission nut so as to drive the bracket to move up and down;

the liquid supply pipe interface is provided with an interface socket, the lower part of the interface socket is communicated with the liquid supply pipe, the liquid supply box interface is movably inserted in the interface socket, and the liquid supply box interface is in sealing fit with the interface socket;

the processing agent is stored in the liquid supply tank, the processing agent in the liquid supply tank flows downwards to the trough through the liquid supply pipe, a low-pressure balance chamber is formed at the upper part of an inner cavity of the liquid supply tank, the lower end of the liquid supply pipe is provided with a liquid supply pipe opening, a set distance is reserved between the liquid supply pipe opening and the bottom surface of the trough, the liquid supply pipe opening is immersed in the processing agent in the trough after the liquid level in the trough is higher than the liquid supply pipe opening of the liquid supply pipe, the pressure at the liquid supply pipe opening is in a pressure balance state when the liquid level of the trough reaches a set height, the processing agent in the liquid supply pipe does not flow into the trough when the liquid supply pipe opening is in the pressure balance state, and the processing agent in the liquid supply pipe flows into the trough when the pressure above the liquid supply pipe opening is higher than the pressure below.

Compared with the prior art, the utility model the advantage that has is:

1. the transition roller is driven to leave the feeding roller and the coating roller through the dosage adjusting driving mechanism at intervals of set time in the working process, so that the transition roller respectively stays for corresponding staying time at the wiping treatment agent device and the coating working position, the dosage of the treatment agent transferred to the transition roller is automatically adjusted in the working process, and the treatment agent is prevented from dripping or being coated unevenly.

2. The utility model discloses can dismantle the processing agent fast and paint the roll body in the device, the cushion cover on installation roll body surface is convenient clean and change.

3. The utility model discloses a high position that elevating system was adjusted to height adjusting mechanism can conveniently adjust the fit clearance of transition roller and material loading roller and the fit clearance of transition roller and applicator roll fast, conveniently matches the different shoes material conveying speed of shoemaking production line and adjusts the transfer volume or the volume of paining in treating agent unit interval or unit cycle. The treatment agent in the trough keeps stable liquid level, and the liquid level is convenient to adjust.

4. The utility model discloses there are two sets of or multiunit automatic wiping treatment agent units that replace in turn to use at the rack-mount, realize the automatic wiping treatment agent of not shutting down in succession, improve production speed, and convenient to use.

Drawings

FIG. 1 is a schematic view of an automatic treating agent wiping apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of the automatic wiping treatment agent device of the utility model after the window or the door is hidden.

Fig. 3 is a schematic structural diagram of the automatic scrubbing agent device of the present invention connected with a processing unit.

Fig. 4 is a schematic structural view of the smearing mechanism of the present invention.

Fig. 5 is a schematic structural view of the smearing mechanism after rotating the rotating seat.

Fig. 6 is a schematic structural view of the coating mechanism of the present invention with the loading roller and the coating roller detached.

Fig. 7 is a cross-sectional view of the application mechanism of the present invention.

Fig. 8 is a schematic view of the installation structure of the transition roller of the present invention.

Fig. 9 is a sectional view of the liquid supply mechanism of the present invention.

The labels in the figure are:

11. the automatic feeding device comprises a rack, 1321, a chute 1322, a graduated scale 12, an automatic conveying mechanism 121, an automatic feeding end 122, an automatic discharging end 123, a motor 124 and a circulating conveying belt.

13. The smearing mechanism 130, brackets, 131, a lifting device 1311, an installation part 132 and side plates. 132. The support 133, the trough 134, the feeding roller 135, the transition roller 136, the coating roller 137, the roller holder 1371, the shaft body installation chamber 138, the position adjustment mechanism 1381, the adjustment knob 1382, the connecting member 1383, the lifting part 1384, and the base 1385 are threaded.

14. The device comprises a closed processing chamber 15, a box body 151, a window 152, an exhaust interface 153, a middle partition plate 16, a processing unit 17, a coating lifting mechanism 18 and a unit frame.

2. The quick-release barrel 21, the opposite-insertion port 22, the connecting portion 221, the rotating base 222, the locking member 223, the wheel portion 224, the handle 225, the first insertion portion 226 and the groove.

23. The motor driving mechanism 24, a rotating shaft 241, a second inserting part 242 and a synchronous positioning column.

4. Treating agent absorbing sleeve

6. A liquid supply pipe 61, a liquid supply pipe connector 62, a liquid supply adjusting knob 63, a transmission nut 64, a guide column 65, a base 66, a guide limiting sheet 67, a dosage adjusting switch valve 68, an auxiliary groove 7, a liquid supply box 71 and a liquid supply box connector.

Detailed Description

An automatic polishing agent device is shown in figures 1 to 9 and comprises a control device, a frame 11 and a shoe material conveying mechanism 12 arranged on the frame 11, wherein at least two groups of automatic polishing agent units which are arranged on the frame 11 and used alternately are arranged along the conveying direction of the shoe material conveying mechanism 12, each automatic polishing agent unit is provided with at least one group of coating mechanisms 13, and the coating mechanisms 13 are positioned above the shoe material conveying mechanism 12. Specifically, two automatic polishing treatment agent units which are arranged adjacently in the front and back and are used alternately are arranged along the conveying direction of the shoe material conveying mechanism 12, and each automatic polishing treatment agent unit is provided with a unit frame 18, two coating mechanisms 13 arranged adjacently in the front and back and two coating lifting mechanisms 17; each smearing lifting mechanism 17 is respectively arranged on the unit frame 18, and the lower part of each smearing lifting mechanism 17 is respectively connected with the bracket 130 of the corresponding smearing mechanism 13 and is used for driving the corresponding smearing mechanism 13 to lift and switch the smearing mechanism 13 to a use state or a non-use state; the coating mechanisms 13 in the automatic wiping agent unit in the use state are simultaneously in the use state; at least two closed processing chambers 14 which are adjacently arranged in the front and back are arranged along the conveying direction of the shoe material conveying mechanism 12, and each closed processing chamber 14 is positioned above the shoe material conveying mechanism 12; a feeding gap is formed between the front side of the closed processing chamber 14 and the shoe material conveying mechanism 12 to form an inlet, and a discharging gap is formed between the rear side of the closed processing chamber 14 and the shoe material conveying mechanism 12 to form an outlet; each closed processing chamber 14 is provided with at least one automatic wiping processing agent unit, and the respective automatic wiping processing agent units are alternately used.

The shoe material is automatically conveyed or the tooling plate carrying the shoe material is automatically conveyed by the shoe material conveying mechanism 12 so as to realize automatic feeding and enable the shoe material to pass below the smearing mechanism 13. In a preferred embodiment, two automatic polishing agent units which are adjacently arranged in front and back are arranged along the conveying direction of the shoe material conveying mechanism 12, and the two automatic polishing agent units are alternately replaced for use so as to realize continuous polishing agent without stopping; each automatic wiping agent unit is provided with two smearing mechanisms 13 which are adjacently arranged in front and back, and the two smearing mechanisms 13 of the automatic wiping agent unit in the use state are in the use state at the same time. During use, the applicator mechanism 13 needs to be cleaned, maintained or changed with dirt after each use period, and therefore, in the working process, the first automatic wiping treatment agent unit and the coating mechanism 13 thereof are controlled to be in a using state, the second automatic wiping treatment agent unit and the coating mechanism 13 thereof are lifted and are in a standby state, the automatic wiping agent unit and the smearing mechanism 13 in a standby state are lifted to clean, maintain or replace the stained products, when the first automatic wiping agent unit and its application mechanism 13 need to be cleaned, maintained or the soiled article replaced, the first automatic polishing agent unit and the coating mechanism 13 thereof are lifted up and are in a standby state, the first automatic polishing agent unit and the coating mechanism 13 thereof are controlled to descend and are in a use state, and the two automatic polishing agent units are alternately replaced for use, so that the shoe manufacturing production line of the automatic polishing agent does not need to be stopped and keeps continuous work in the use process.

The utility model discloses an at least two sets of automatic processing agent units of wiping that replace in turn and use to all there is an at least use unit, an at least stand-by unit's two cell structure overall arrangement or many cell structure overall arrangement at each moment, and every automatic processing agent unit of wiping is provided with at least two sets of mechanism 13 of paining in order to realize paining the quality, guarantee the quality of paining of processing agent when realizing not shutting down high-speed continuous to the processing agent is wiped to the shoes material, output reaches 500 and supplyes 1000 pairs/hour, improve production speed and production efficiency.

Preferably, at least two closed processing chambers 14 which are adjacently arranged in the front and back are arranged along the conveying direction of the shoe material conveying mechanism 12, and each closed processing chamber 14 is positioned above the shoe material conveying mechanism 12; a feeding gap is formed between the front side of the closed processing chamber 14 and the shoe material conveying mechanism 12 to form an inlet, a discharging gap is formed between the rear side of the closed processing chamber 14 and the shoe material conveying mechanism 12 to form an outlet, at least one automatic polishing treatment agent unit is installed in each closed processing chamber 14, and each automatic polishing treatment agent unit is used by one in turn to realize continuous polishing treatment agent without stopping; each automatic polishing agent unit is provided with at least two groups of coating mechanisms 13 which are adjacently arranged in the front and back direction, two coating mechanisms 13 of the automatic polishing agent unit in the use state are simultaneously in the use state, each automatic polishing agent unit is provided with two coating mechanisms 13 which work simultaneously, the automatic polishing agent unit coats the treating agent on each shoe material twice in the front and back direction, the surface or the designated surface of each shoe material is protected, the treating agent can be uniformly coated by rollers, the treating agent is ensured to be coated in place and uniformly coated, and the roller coating quality of the treating agent is improved.

Specifically, the frame 11 is provided with a box body 15, the box body 15 at least covers the middle section of the shoe material conveying mechanism 12 and the automatic polishing treatment agent units arranged above the shoe material conveying mechanism 12, the middle part in the box body 15 is provided with at least one middle partition board 153, the inner cavity of the box body 15 is separated and separated by the middle partition board 153 to form at least two relatively sealed closed treatment chambers 14, each automatic polishing treatment agent unit is respectively arranged in a single relatively sealed space, and the volatile treatment agent is prevented from diffusing outwards to pollute the air of a workshop.

Preferably, a plurality of doors or windows 151 are installed on the front side or the rear side of the box body 15, an exhaust interface 152 is installed on the top of the box body 15, the exhaust interface 152 is located above the corresponding smearing mechanism 13, and is connected with each exhaust interface 152 through a pipeline and intensively absorbs volatile gas in the closed processing chamber 14, so as to absorb residual smell and intensively process the volatile gas, thereby avoiding air pollution.

The shoemaking production line is provided with a plurality of processing units 2 or gets and dismantles material mechanism, it can be the arm that is used for getting the material or unloading to get to dismantle material mechanism, the both ends of shoes material conveying mechanism 12 are salient respectively in the front and back both sides of box 15 and are formed an automatic feed end 121 and an automatic discharge end 122 respectively, automatic feed end 121 assembles the cooperation or is connected the cooperation with the processing unit 16 of adjacent setting, automatic feed end 121 also can cooperate and realize the automatic shoes material of carrying with the arm, automatic discharge end 122 assembles the cooperation or is connected the cooperation with the processing unit 16 of adjacent setting, automatic discharge end 122 also can cooperate and realize the automatic shoe material of transporting with the arm, in order to realize full automatic processing.

Specifically, the shoe material conveying mechanism 12 comprises a circulating conveying belt 124, a motor 123 and a conveying belt driving mechanism which are installed on the rack 11, the motor 123 is in transmission connection with the conveying belt driving mechanism, the conveying belt driving mechanism is in transmission connection with the circulating conveying belt 124, the smearing mechanism 13 is installed above the circulating conveying belt 124, shoe materials are automatically conveyed or tool plates bearing the shoe materials are automatically conveyed through the circulating conveying belt 124, automatic feeding is achieved, and the shoe materials passing below the smearing mechanism 13 are coated with the treating agent in a rolling mode.

Preferably, each coating mechanism 13 is provided with a bracket 130, and a feeding roller 134, a transition roller 135 and a coating roller 136 which are arranged on the bracket 130; a trough 133 is fixed on the bracket 130, and the lower part of the feeding roller 134 is immersed in the trough 133; the transition roller 135 is provided with a smearing working position and a dose adjusting working position; transition roll 135 is in rolling or clearance fit with applicator roll 134 and applicator roll 136, respectively, when transition roll 135 is in the paint work position, to effect that transition roll 135 provides treatment agent to applicator roll 136; transition roller 135 is relatively far from feed roller 134 and/or coating roller 136 when transition roller 135 is in the dose-adjusted operating position to effect that transition roller 135 does not provide treatment agent to coating roller 136; the bracket 130 is provided with a dosage adjustment driving mechanism which is in driving connection with the transition roller 135 and is used for driving the transition roller 135 to move and/or stop at a smearing working position or a dosage adjustment working position; the control device is connected with the dosage adjusting and driving mechanism, and drives the transition roller 135 to move to the dosage adjusting working position according to a set time interval period and keep a set retention time in the working process so as to automatically adjust the dosage transferred to the coating roller 136 in the working process, automatically adjust the dosage of the treating agent transferred to the transition roller 135 in the working process and avoid the dripping leakage of the treating agent or the uneven coating of the treating agent.

Specifically, the bracket 130 is installed at the lower part of the coating lifting mechanism 17, the coating lifting mechanism 17 is an air cylinder, and the bracket 130 is fixedly connected with a push rod of the air cylinder to drive the bracket 130 to move up and down, so that the coating roller 136 is far away from the endless conveyor belt 124 or close to the endless conveyor belt 124. The trough 133 is fixed to the side of the holder 130, the feed roller 134, the transition roller 135, and the coating roller 136 are rotatably mounted on the holder 130, respectively, the lower surface of the feed roller 134 is immersed below the surface of the treating agent in the trough 133, and the surface of the transition roller 135 is in rolling engagement or clearance engagement with the feed roller 134 and the coating roller 136, respectively. The transition roller 135 is installed between the feeding roller 134 and the coating roller 136, and the roller surface of the coating roller 136 is protruded under the bracket 130, so as to roll the treating agent on the surface of the shoe material conveyed by the shoe material conveying mechanism 12 through the roller surface of the coating roller 136. The treating agent is adsorbed from the trough 133 by the feed roller 134, the treating agent of the feed roller 134 is transferred to the coating roller 136 by the transition roller 135, the treating agent is uniformly adsorbed on the surface of the coating roller 136, and the treating agent is applied to the surface of the shoe material by the coating roller 136.

The bracket 130 is provided with a motor driving mechanism 23, the motor driving mechanism 23 is respectively connected with a feeding roller 134 and a coating roller 136 in a driving way, and the feeding roller 134 and the coating roller 136 are respectively and rotatably arranged on the bracket 130; the dose adjusting driving mechanism comprises roller seats 137 and two lifting devices 131, the roller seats 137 and the two lifting devices 131 are arranged on the left side and the right side of the bracket 130, two ends of a transition roller 135 are respectively rotatably arranged on the left roller seat 137 and the right roller seat 137, the transition roller 135 is arranged in the middle position above the feeding roller 134 and the coating roller 136, and one lifting device 131 is in transmission connection with one corresponding roller seat 137 and is used for driving the roller seats 137 and the transition roller 135 to ascend and descend; after the lifting device 131 drives the transition roller 135 to move downwards, the transition roller 135 stops at the smearing working position and keeps staying at the smearing working position for a set staying time; transition roller 135 stops at the dose setting operating position after elevator 131 drives transition roller 135 upward and remains at the dose setting operating position for the set dwell time.

The transition roller 135 stops alternately at the application working position and the dose adjustment working position for a corresponding dwell time during application of the treatment agent by the applicator roller 136; the control device is provided with a parameter setting unit for setting working parameters of the wiping agent device; the control device receives the operating parameters of the parameter setting unit and determines or changes the dwell time of the transition roller 135 in the application operating position and the dwell time of the transition roller 135 in the dosage-adjustment operating position. By manually inputting the time period and dwell time for automatic removal of transition roll 135 by a user, automatic adjustment of the dosage of treatment agent transferred to transition roll 135 is achieved by automatically moving transition roll 135 at intervals during operation to avoid dripping or uneven application of treatment agent.

The transition roller 135 alternately stops at the application and dose setting operating positions and remains in the respective dwell time during the application of the treatment agent by the applicator roller 136; the control device is provided with a parameter setting unit for setting working parameters of the polishing agent device, and the parameter setting unit is provided with a speed parameter representing the conveying speed of the shoe material conveying mechanism 12; the control device receives the speed parameters or the corresponding working parameters of the parameter setting unit to automatically determine or automatically change the residence time of the transition roller 135 at the smearing working position and the residence time of the transition roller 135 at the dosage adjusting working position, so as to automatically match different conveying speeds of the shoe material conveyor. The speed parameter or the corresponding working parameter is automatically acquired by the control device, the time period and the residence time of the transition roller 135 for automatically moving away are automatically calculated, and the time period and the residence time of the transition roller 135 for automatically moving away automatically follow the change of the speed parameter, so that the dosage of the treating agent transferred to the transition roller 135 is fully automatically adjusted in the working process.

Specifically, the dose adjustment driving mechanism comprises two lifting devices 131 arranged on the left side and the right side of the bracket 130, one lifting device 131 is in transmission connection with one corresponding roller seat 137 and is used for driving the transition roller 135 to ascend and descend, and after the lifting device 131 drives the transition roller 135 to move downwards, the transition roller 135 stops at the smearing working position and keeps staying at the smearing working position for a set staying time; transition roller 135 stops at the dose setting operating position after elevator 131 drives transition roller 135 upward and remains at the dose setting operating position for the set dwell time.

The lifting device 131 comprises an air supply switching device and an air cylinder installed on the support 130, the air supply switching device is connected with the air cylinder through a pipeline, the control device is electrically connected with the air supply switching device and respectively controls the residence time of the transition roller 135 at the smearing working position and the dosage adjusting working position respectively, so that different conveying speeds matched with the shoe material conveyor are realized.

Preferably, the lifting device 131 includes a motor mounted on the bracket 130 and a transmission mechanism in transmission connection with the motor, the transmission mechanism is connected with the roller seat 137 to drive the transition roller 135 to move to the smearing working position and the dose adjusting working position respectively, and the transmission mechanism is selected from a rack-and-pinion transmission mechanism, a cam transmission mechanism, a connecting rod transmission mechanism, a lead screw transmission mechanism, etc., as long as the transition roller 135 can be driven to move between the smearing working position and the dose adjusting working position.

At least one treating agent absorbing sleeve 4 is sleeved on the surface of the transition roller 135 or the coating roller 136; alternatively, at least one treating agent absorbing sleeve 4 is sleeved on the roll surfaces of the transition roll 135 and the coating roll 136 respectively. The treating agent absorbing sleeve 4 is a cylindrical soft sleeve which is made of water flannelette, is made of sponge or is formed by compounding at least two material layers and is provided with at least one fabric layer, the treating agent can be more uniformly absorbed and held in the treating agent absorbing sleeve 4 through the treating agent absorbing sleeve 4, the absorption amount per unit area of the treating agent is easier to control, the treating agent absorbing sleeve is more uniform when a shoe material is coated, particularly for the treating agent with lower viscosity, the treating agent can be prevented from dripping, and the treating agent is prevented from accumulating in a local area of the roller surface.

Specifically, the bracket 130 is provided with a motor driving mechanism 23, and the motor driving mechanism 23 is respectively connected with a feeding roller 134 and a coating roller 136 in a transmission manner; the feeding roller 134 and the coating roller 136 are respectively and rotatably arranged on the bracket 130, and the transition roller 135 is arranged in the middle position above the feeding roller 134 and the coating roller 136; a trough 133 is fixed on the bracket 130, and the lower part of the feeding roller 134 is immersed in the trough 133; one side or two sides of the bracket 130 are provided with detachable clamping mechanisms, and at least one end parts of the feeding roller 134, the coating roller 136 and the transition roller 135 are respectively arranged on the corresponding detachable clamping mechanisms, so that the quick detachment is realized, the feeding roller 134, the coating roller 136 and the transition roller 135 are conveniently detached, and the treatment agent absorption sleeve 4 is conveniently replaced; the roll surfaces of the transition roll 135 and the applicator roll 136 are respectively covered with a replaceable treating agent-absorbing cover 4. The treating agent is adsorbed from the trough 133 by the feed roller 134, the treating agent on the surface of the feed roller 134 is transferred to the coating roller 136 by the transition roller 135, and the treating agent is applied to the surface of the shoe material by the coating roller 136.

Specifically, the bracket 130 is provided with a motor driving mechanism 23; the feeding roller 134 comprises a stainless steel roller in a cylindrical shape or a cylindrical shape, the roller surface of the feeding roller 134 is a smooth surface or a grain surface with concave-convex grains, one end of the feeding roller 134 is provided with a feeding roller 134 driving wheel, the feeding roller 134 driving wheel is in transmission connection with the motor driving mechanism 23, and the feeding roller 134 is actively driven by the motor driving mechanism 23 to rotate;

the coating roller 136 comprises a cylindrical or cylinder-shaped roller body made of silica gel and a treating agent absorption sleeve 4 tightly sleeved on the surface of the roller body, one end of the coating roller 136 is provided with a coating roller 136 driving wheel, and the coating roller 136 driving wheel is in driving connection with the motor driving mechanism 23; the paint roller 136 is actively driven to rotate by the motor drive mechanism 23;

the transition roller 135 comprises a stainless steel roller in a cylindrical shape or a cylindrical shape and a treating agent absorbing sleeve 4 tightly sleeved on the surface of the roller body, the transition roller 135 is in rolling fit with the feeding roller 134 or the transition roller 135 is in rolling fit with the coating roller 136, and the transition roller 135 is driven to rotate when the feeding roller 134 or the coating roller 136 rotates, so that the unpowered drive of the transition roller 135 is realized.

Preferably, the coating roller 136 is arranged on one side of the feeding roller 134, the lower part of the coating roller 136 protrudes below the bracket 130, the transition roller 135 is arranged between the feeding roller 134 and the coating roller 136, the transition roller 135 is positioned above the feeding roller 134 and the coating roller 136, the bracket 130 is provided with the motor driving mechanism 23, and the motor driving mechanism 23 at least drivingly connects the feeding roller 134 and the coating roller 136.

Specifically, the bracket 130 is provided with a left side plate 132 and a right side plate 132, the two side plates 132 are respectively provided with a dose adjusting driving mechanism, the dose adjusting driving mechanism comprises a roller seat 137, a lifting device 131 and a height adjusting mechanism 138 for adjusting the height position of the lifting device 131, the inner side of the corresponding side plate 132 is provided with the lifting device 131, the outer side of the corresponding side plate 132 is provided with the height adjusting mechanism 138, the height adjusting mechanism 138 is connected with the lifting device 131, the lifting device 131 is connected with the roller seat 137, and two ends of the transition roller 135 are respectively rotatably arranged on the left corresponding roller seat 137 and the right corresponding roller seat 137, so as to drive the transition roller 135 to ascend; after the height adjusting mechanism 138 changes the height position of the lifting device 131, the height position of the roller seat 137 changes accordingly, so that the fit clearance between the transition roller 135 and the feeding roller 134 and the fit clearance between the transition roller 135 and the coating roller 136 are adjusted. The fit clearance between the transition roller 135 and the feeding roller 134 and the fit clearance between the transition roller 135 and the coating roller 136 are changed by adjusting the height position of the lifting device 131, so that the amount of the treating agent transferred to the surface of the coating roller 136 is controlled, the excessive or insufficient amount of the treating agent on the surface of the coating roller 136 is avoided, and when the shoe material is conveyed and moved forward by the shoe production line at different conveying speeds, the different shoe material conveying speeds of the shoe production line can be conveniently matched, and the transfer amount or the coating amount of the treating agent in unit time or unit period can be adjusted.

The two side plates 132 are respectively provided with a vertically arranged sliding chute 1321, the lifting device 131 comprises a lifting device 131 arranged on the inner side of the side plate 132 and a position adjusting mechanism 138 fixed on the outer side of the side plate 132, each position adjusting mechanism 138 is provided with an adjusting knob 1381, at least one connecting piece 1382 and a lifting part 1383, the adjusting knobs 1381 are in transmission connection with the lifting parts 1383, the middle parts of the connecting pieces 1382 penetrate through the corresponding sliding chutes 1321 movably, two ends of the connecting pieces 1382 are respectively connected with the corresponding lifting devices 131 and the corresponding lifting parts 1383, the height positions of the lifting parts 1383 are adjusted when the adjusting knobs 1381 are rotated, so that the height positions of the lifting devices 131 are adjusted, and the fit clearance between the transition roller 135 and the feeding roller 134 and the fit clearance between the transition roller 135 and the coating roller 136 are changed by adjusting the height positions of the lifting devices 131.

Specifically, the position adjusting mechanisms 138 are respectively provided with a base 1384, the base 1384 is fixed on the side plate 132, the base 1384 is screwed with a threaded screw 1385, the lower part of the threaded screw 1385 is fixed with an adjusting knob 1381, and the upper part is provided with a lifting part 1383; the elevation unit 1383 is driven to ascend and descend by manually rotating the adjustment knob 1381, and the height position of the elevation device 131 is adjusted. The left side and the right side of the side plate 132 are provided with two parallel sliding grooves 1321, two sides of the lifting part 1383 are respectively fixed with a connecting part 1382 penetrating through the corresponding sliding groove 1321, the outer side surfaces of the two side plates 132 are respectively provided with the same scale 1322, the upper edge of the lifting part 1383 is aligned and matched with the scale 1322 for indicating a corresponding height position or a matching gap, the lifting device 131 selects an air cylinder, the air cylinder is provided with an air cylinder body, a push rod and a mounting part 1311 fixed at the end part of the push rod, the inner end part of the connecting part 1382 is fixed to the air cylinder body, the mounting part 1311 is fixed with a roller seat 137, and the roller seat 137 is driven to lift by the air cylinder to enable the transition roller 135 to leave the feeding roller 134 and the coating roller 136 or enable the transition roller 135 to be respectively in rolling fit.

Preferably, the lifting device 131 includes a lifting device 131 disposed inside the side plate 132 and a position adjusting mechanism 138 fixed outside the side plate 132, the position adjusting mechanism 138 includes a motor and a driving mechanism in transmission connection with the motor, the driving mechanism is provided with a connecting member 1382, and the lifting device 131 is mounted on the connecting member 1382 to adjust the height position of the lifting device 131.

The lifting device 131 selects an air cylinder, the wiping treatment agent device comprises an air supply switching device and a control device for controlling the lifting device 131 to lift, the control device is electrically connected with the air supply switching device, the air supply switching device is connected with the air cylinder, and the control device controls the lifting device 131 to lift the transition roller 135 upwards at a set time interval in cooperation with the speed interval of the production line for conveying the shoe materials and keeps the set time interval in the working process, so that the transition roller 135 leaves the feeding roller 134 or the coating roller 136 at a set time period interval, excessive treatment agent is prevented from being attached to the surface of the coating roller 136, and the treatment agent is prevented from dripping.

Preferably, at least one of the feeding roller 134, the transition roller 135 and the coating roller 136 is a quick-release structure roller, the quick-release structure roller includes a quick-release cylinder 2 located in the middle for adsorbing, transferring or coating the treating agent and cylinder connecting mechanisms or quick-release mechanisms installed on the left and right sides of the bracket 130, two ends of the quick-release cylinder 2 are respectively provided with a pair of insertion interfaces 21, and two pairs of insertion interfaces 21 of the quick-release cylinder 2 are respectively connected to corresponding cylinder connecting mechanisms or cylinder butting mechanisms located on the left and right sides of the bracket 130. The support 130 is provided with a left side plate 132 and a right side plate 132, the side plate 132 on the first side of the support 130 is provided with two cylinder connecting mechanisms, the side plate 132 on the second side is provided with two quick-release mechanisms, the feeding roller 134 and the coating roller 136 are arranged into quick-release structure rollers, the middle part of the feeding roller 134 is provided with a quick-release cylinder 2, two ends of the feeding roller 134 are respectively provided with a pair of insertion ports 21, the middle part of the coating roller 136 is provided with a quick-release cylinder 2, two ends of the coating roller are respectively provided with a pair of insertion ports 21, the quick-release cylinders 2 of the feeding roller 134 and the coating roller 136 are respectively clamped and fixed between the corresponding cylinder connecting mechanisms or the quick-release mechanisms on the left side.

Wherein, the surfaces of the quick-release cylinder bodies 2 of the feeding roller 134 and the coating roller 136 are respectively and tightly sleeved with a treating agent absorption sleeve 4 to realize the absorption, the retention and the transfer of the treating agent; the dose adjusting driving mechanism comprises roller seats 137 arranged at the left side and the right side of the bracket 130 and two lifting devices 131, wherein one lifting device 131 is connected with one roller seat 137 at the same side; axis body installation room 1371 and channel have been seted up to roller seat 137's medial surface, and the inboard intercommunication axis body installation room 1371 of channel, the outside of channel run through roller seat 137's side and form an opening, and the opening is higher than axis body installation room 1371, and the channel between opening and the axis body installation room 1371 is the arc, and the both ends of transition roller 135 are rotatory respectively to be installed in axis body installation room 1371. The channel provides the displacement space for transition roller 135's tip, and transition roller 135 can follow the automatic micro-movement of channel at rotatory process, avoids transition roller 135 to be chucked, also makes the volume of transferring of treating agent more even simultaneously, and transition roller 135's tip can outwards shift out through channel and opening, and transition roller 135 also can be dismantled fast, and transition roller 135's installation and dismantlement also become more convenient.

The first side of support 130 is provided with barrel coupling mechanism, the second side is provided with quick detach mechanism, barrel coupling mechanism and quick detach mechanism are relative to be moved towards, and quick detach mechanism is provided with barrel docking mechanism, opposite side towards one side of barrel coupling mechanism and sets up the fast lock portion, and barrel coupling mechanism and barrel docking mechanism correspond two of connecting quick detach barrel 2 respectively and are inserted interface 21 to the realization is fixed quick detach barrel 2 between barrel coupling mechanism and barrel docking mechanism.

The cylinder connecting mechanism is arranged on a side plate 132 on the first side, the quick-release mechanism is arranged on a side plate 132 on the second side, the cylinder connecting mechanism and the quick-release mechanism are arranged oppositely, and the quick-release cylinder 2 is clamped and fixed between the cylinder connecting mechanism and the quick-release mechanism. Through barrel coupling mechanism and quick detach mechanism can release fast and with quick centre gripping quick detach barrel 2, consequently can dismantle the roll body that the treating agent paintd in the device fast, the convenient pad cover on clean and change installation roll body surface.

The treating agent smearing device is provided with a material groove 133, a material loading roller 134, a transition roller 135 and a coating roller 136, wherein the material loading roller 134, the transition roller 135 and the coating roller 136 are respectively and rotatably arranged on a bracket 130, the material groove 133 is fixed on the bracket 130, the lower part of the material loading roller 134 is immersed in the material groove 133, and the transition roller 135 is respectively in rolling fit or clearance fit with the material loading roller 134 and the coating roller 136. At least one of the feeding roller 134, the transition roller 135 and the coating roller 136 is provided with a quick-release cylinder 2, one end of which is connected and matched with a corresponding cylinder connecting mechanism, and the other end of which is connected and matched with a corresponding quick-release mechanism. Preferably, the roller bodies of the feeding roller 134 and the coating roller 136 are quick-release cylinders 2 clamped by cylinder connection mechanisms and quick-release mechanisms, so that the feeding roller 134 and the coating roller 136 can be quickly detached simultaneously or respectively. Preferably, only the roller body of the paint roller 136 is the quick-release cylinder 2 clamped by the cylinder connecting mechanism and the quick-release mechanism, so that the paint roller 136 can be quickly detached.

Preferably, the quick release mechanism has a connection portion 22, the inner end of the connection portion 22 is provided with a barrel docking mechanism, the outer end is provided with a quick lock portion, the connection portion 22 is movably mounted or slidably mounted on the bracket 130, the barrel docking mechanism and/or the connection portion 22 is relatively fixed to the bracket 130 when the quick lock portion is in a locked state, so as to lock and fix the quick release barrel 2 between the barrel connection mechanism and the barrel docking mechanism, the connection portion 22 at least has a set free displacement in the axial direction of the quick release barrel 2 relative to the bracket 130 when the quick lock portion is in an unlocked state, so as to release the quick release barrel 2 and enable the quick release barrel 2 to be taken down from between the barrel connection mechanism and the barrel docking mechanism, the quick release barrel 2 is conveniently cleaned or replaced, or a cushion cover arranged on the surface of the quick release barrel 2 is cleaned and replaced, and.

Specifically, the quick-locking part comprises a rotating seat 221 fixed at the outer end of the connecting part 22 and a locking part 222 installed on the bracket 130, the outer end of the locking part 222 is provided with a locking body, the rotating seat 221 is provided with a wheel part 223 and a handle 224, the inner end of the handle is fixed on the wheel part 223, and the rotating seat 221 is rotated by the handle 224 so as to drive the wheel part 223 to rotate. At least one locking part is arranged on the outer edge of the wheel part 223, the rotating seat 221 has a locking position and an unlocking position, the locking part is in locking fit with the locking part when the rotating seat 221 rotates to the locking position, and the locking part leaves the locking part when the rotating seat 221 rotates to the unlocking position. The cylinder butting mechanism comprises a first plugging part 225 fixedly or rotatably mounted at the inner end part of the connecting part 22, the first plugging part 225 is coaxially and movably plugged in the plugging interface 21 of the quick-release cylinder 2, and the quick-release cylinder 2 is rotatably mounted relative to the connecting part 22. Specifically, the bracket 130 is provided with a side plate 132 for mounting the second side of the quick release mechanism, the side plate 132 of the second side is provided with a through hole penetrating through the side plate 132 of the second side, the connecting portion 22 is slidably mounted in the through hole, the first inserting portion 225 is located on the inner side of the side plate 132 of the second side, the quick locking portion is located on the outer side of the side plate 132 of the second side, and the first inserting portion 225 comprises a shaft body or a sleeve which is rotatably mounted on the connecting portion 22 and is used for movably inserting the opposite inserting port 21 of the quick release cylinder 2.

Specifically, the locking member 222 is a screw having a head screwed to the side plate 132 of the second side, and a predetermined distance is formed between the head of the screw and the side plate 132 of the second side, a cam portion or a notch is provided at the rim of the wheel portion 223, a lock portion is formed at the cam portion or the notch, when the rotary seat 221 rotates to the locking position, the head of the screw abuts against the cam portion or the notch to realize locking matching, when the rotary seat 221 is rotated to the unlocking position, the head of the screw leaves the cam or notch to unlock, and the end of the cam is provided with a groove 226 that is positioned to mate with the screw, as shown in figures 1 and 4, after the rotating base 221 rotates, the groove 226 arranged at the end of the cam part is pressed against the screw and positioning fit is realized, the head of the screw abuts against the end face of the cam part to limit the axial displacement of the quick cylinder body, so that the quick cylinder body cannot move in an axial direction in the using process.

The motor driving mechanism 23 is installed on the support 130, the cylinder connecting mechanism comprises a rotating shaft 24, a transmission part and a second inserting part 241, the rotating shaft 24 is rotatably installed on the support 130, the transmission part and the second inserting part 241 are respectively fixed at two end parts of the rotating shaft 24, the motor driving mechanism 23 is in transmission connection with the transmission part, and the second inserting part 241 is in connection and matching with the opposite inserting interface 21 of the quick-release cylinder 2. The motor driving mechanism 23 drives the rotating shaft 24 to rotate, and further drives the quick-release barrel 2 to rotate. Specifically, the second inserting portion 241 includes a connecting shaft extending from the rotating shaft 24 or fixed at the inner end of the rotating shaft 24, the connecting shaft is fixed with at least one synchronous positioning column 242 extending along the radial direction of the connecting shaft along the radial direction, the first inserting port 21 of the quick-release barrel 2 is provided with a shaft hole and a synchronous positioning groove, the connecting shaft is inserted into the shaft hole, and the synchronous positioning column 242 is inserted or embedded into the corresponding synchronous positioning groove, so as to realize the synchronous rotation of the quick-release barrel 2 driven by the rotating shaft 24.

Preferably, the bracket 130 is provided with a liquid supply tube 6 and a liquid supply tank 7 which is arranged in a sealing manner and can be replaced or supplemented with a treating agent, the lower end part of the liquid supply tube 6 is inserted into the trough 133, the upper part of the liquid supply tube 6 is provided with a liquid supply tube interface 61, the lower part of the liquid supply tank 7 is provided with a liquid supply tank interface 71, the liquid supply tank interface 71 is connected with the liquid supply tube interface 61 in a sealing manner, and the liquid supply tube 6 is communicated with the inner cavity of the liquid supply tank 7. Specifically, the liquid supply lifting mechanism is provided with a bracket and a bracket lifting mechanism, the bracket lifting mechanism is installed on the support 130, the bracket is installed on the upper portion of the bracket lifting mechanism, the upper portion of the liquid supply pipe 6 or the liquid supply pipe connector 61 is fixed on the bracket, and the liquid supply pipe 6 moves synchronously along with the bracket when the bracket moves up and down, so that the liquid level is realized.

After the liquid level of the treating agent in the silo 133 is higher than the liquid supply pipe opening of the lower end of the liquid supply pipe 6, the liquid supply pipe 6 is connected with the liquid supply box 7 in a sealing way, the inner cavities of the liquid supply pipe 6 and the liquid supply box 7 are sealed spaces, pressure balance can be formed at the liquid supply pipe opening after the liquid level reaches a certain height, the treating agent in the silo 133 keeps stable liquid level, the liquid level can be adjusted by adjusting the height positions of the liquid supply pipe 6 and the liquid supply pipe opening, the liquid level is convenient to adjust, the cost is low, and the structure is simple.

Preferably, the wiping treatment agent device is provided with a plurality of liquid supply boxes 7, at least one liquid supply box 7 is inserted into the bracket, and a liquid supply box interface 71 of the liquid supply box 7 inserted into the bracket is movably inserted into the liquid supply pipe interface 61. After the treatment agent in the liquid supply tank 7 is used up, the liquid supply tank 7 on the tray is taken out, and a new liquid supply tank 7 filled with the treatment agent is replaced and attached to the tray.

Of course, the treatment agent replenishment port provided in the liquid supply tank 7 may be opened to replenish the liquid supply tank 7 with the treatment agent, and the treatment agent replenishment port may be closed to seal the treatment agent replenishment port.

The support 130 is provided with a liquid supply lifting mechanism, the upper part of the liquid supply pipe 6 or the liquid supply pipe connector 61 is fixed on the liquid supply lifting mechanism to realize the adjustment of the distance between the lower end part of the liquid supply pipe 6 and the bottom surface of the trough 133 and the adjustment of the liquid level, the liquid supply box 7 is inversely arranged above the liquid supply lifting mechanism, the liquid supply box connector 71 is positioned at the bottom of the liquid supply box 7, and the liquid supply box connector 71 is inserted into the liquid supply pipe connector 61. Specifically, the bracket lifting mechanism comprises a liquid supply adjusting knob 62 installed on the bracket 130, a transmission nut 63 fixed on the bracket and at least one guide post 64 installed on the bracket 130, at least one guide hole is formed in the bracket, each guide post 64 is movably inserted into the corresponding guide hole respectively, the liquid supply adjusting knob 62 is provided with a hand-screwing knob and a transmission lead screw fixed on the hand-screwing knob, the transmission lead screw is in transmission connection with the transmission nut 63, the bracket is driven to move up and down by screwing the hand-screwing knob in a rotating mode, and then the liquid supply pipe 6 and the liquid supply box 7 fixed on the bracket are driven to synchronously move up and down, and the adjustment of the liquid level becomes very simple and convenient.

The bracket comprises a base 65 and a plurality of guide limiting pieces 66 fixed on the periphery of the base bottom, the upper parts of the guide limiting pieces 66 are respectively bent towards the outside to form a guide part, the guide limiting pieces 66 are separated above the base 65 to form a limiting area with a guide function, one end part of the liquid supply box 7 provided with a liquid supply box interface 71 is inserted in the limiting area, the liquid supply pipe interface 61 is fixed on the base 65, the upper part of the liquid supply pipe interface 61 protrudes out of the top surface of the base 65, concretely, the liquid supply pipe interface 61 is provided with an interface socket, the lower part of the interface socket is communicated with the liquid supply pipe 6, the liquid supply box interface 71 is inserted in the interface socket, and the liquid supply box interface 71 is in sealing fit with the interface socket. The liquid supply box 7 is convenient to install in the limiting area, and the liquid supply box interface 71 can be aligned and accurately inserted into the liquid supply pipe interface 61.

The liquid supply pipe 6 is a hard pipe, and the liquid supply pipe 6 is vertically arranged. The middle part of the liquid supply pipe 6 is connected with a dosage adjusting switch valve 67, which is convenient for adjusting the flow and closing the liquid supply pipe 6. An auxiliary groove 68 extends from one side of the groove 133 toward the outside, the auxiliary groove 68 communicates with the groove 133, and the lower end of the liquid supply pipe 6 is inserted into the auxiliary groove 68 so that the liquid supply pipe 6 can escape from the feed roller 134.

The liquid supply tank 7 stores a treating agent, the treating agent in the liquid supply tank 7 flows downwards to the trough 133 through the liquid supply pipe 6 to form a low-pressure balance chamber at the upper part of the inner cavity of the liquid supply tank 7, the lower end of the liquid supply pipe 6 is provided with a liquid supply pipe opening, a set distance is reserved between the liquid supply pipe opening and the bottom surface of the trough 133, the liquid supply pipe opening is immersed in the treating agent in the trough 133 after the liquid level in the trough 133 is higher than the liquid supply pipe opening of the liquid supply pipe 6, the pressure at the liquid supply pipe opening is in a pressure balance state when the liquid level of the trough 133 reaches a set height, the treating agent in the liquid supply pipe 6 does not flow into the trough 133 when the liquid supply pipe opening is in the pressure balance state, and the treating agent in the liquid supply pipe 6 flows into the trough 133 when the pressure above the liquid supply pipe opening is higher than the pressure below the liquid supply pipe opening, so that the.

Claims (15)

1. An automatic polishing treatment agent equipment, which comprises a control device, a frame (11) and a shoe material conveying mechanism (12) arranged on the frame (11), and is characterized in that: at least two groups of automatic polishing treatment agent units which are arranged on the frame (11) and are used alternately are arranged along the conveying direction of the shoe material conveying mechanism (12), each automatic polishing treatment agent unit is provided with at least one group of coating mechanisms (13), and each coating mechanism (13) is positioned above the shoe material conveying mechanism (12);

each coating mechanism (13) is provided with a bracket (130), and a feeding roller (134), a transition roller (135) and a coating roller (136) which are arranged on the bracket (130);

the transition roller (135) is provided with a smearing working position and a dosage adjusting working position;

the transition roller (135) is in rolling fit or clearance fit with the material loading roller (134) and the coating roller (136) respectively when the transition roller (135) is in the coating working position, so that the transition roller (135) provides the treating agent for the coating roller (136);

-the transition roller (135) is relatively far from the loading roller (134) and/or the coating roller (136) when the transition roller (135) is in the dose-adjusted operating position, so that the transition roller (135) does not supply the coating roller (136) with treatment agent;

the bracket (130) is provided with a dosage adjusting driving mechanism which is in driving connection with the transition roller (135) and is used for driving the transition roller (135) to move and/or stop at a smearing working position or a dosage adjusting working position;

the control device is connected with the dosage adjusting driving mechanism, and drives the transition roller (135) to move to the dosage adjusting working position according to a set time interval period and keep a set stay time during the working process, so that the dosage transferred to the coating roller (136) is automatically adjusted during the working process.

2. An automatic wipe processing agent device according to claim 1, characterized in that: at least two automatic polishing agent units which are arranged adjacently in front and back and are used alternatively are arranged along the conveying direction of the shoe material conveying mechanism (12),

each automatic wiping agent unit is provided with a unit rack (18), at least two smearing mechanisms (13) which are arranged in a front-back adjacent mode and at least two smearing lifting mechanisms (17);

each smearing lifting mechanism (17) is respectively arranged on the unit rack (18), and the lower part of each smearing lifting mechanism (17) is respectively connected with the bracket (130) of the corresponding smearing mechanism (13) and is used for driving the corresponding smearing mechanism (13) to lift and switch the smearing mechanism (13) to a use state or a non-use state;

the coating mechanisms (13) in the automatic wiping treatment agent unit in the using state are simultaneously in the using state;

at least two closed processing chambers (14) which are adjacently arranged in front and back are arranged along the conveying direction of the shoe material conveying mechanism (12), and each closed processing chamber (14) is positioned above the shoe material conveying mechanism (12);

a feeding gap is arranged between the front side of the closed processing chamber (14) and the shoe material conveying mechanism (12) and forms an inlet, and a discharging gap is arranged between the rear side of the closed processing chamber (14) and the shoe material conveying mechanism (12) and forms an outlet;

each closed processing chamber (14) is provided with at least one automatic wiping processing agent unit, and the respective automatic wiping processing agent units are alternately used.

3. An automatic wipe processing agent device according to claim 2, characterized in that: a box body (15) is arranged along the rack (11), the box body (15) at least covers the middle section of the shoe material conveying mechanism (12) and the automatic polishing agent unit arranged above the shoe material conveying mechanism (12), at least one middle partition plate (153) is arranged in the middle of the box body (15), and the inner cavity of the box body (15) is isolated and separated by the middle partition plate (153) to form at least two sealed closed processing chambers (14);

a plurality of door bodies or window bodies (151) are arranged on the front side surface or the rear side surface of the box body (15), an exhaust interface (152) is arranged at the top of the box body (15), and the exhaust interface (152) is positioned above the corresponding smearing mechanism (13) and is used for intensively absorbing volatile gas;

the shoe material conveying mechanism (12) comprises a circulating conveying belt (124), a main motor (123) and a conveying belt driving mechanism which are installed on a rack (11), the main motor (123) is in transmission connection with the conveying belt driving mechanism, the conveying belt driving mechanism is in transmission connection with the circulating conveying belt (124), and the smearing mechanism (13) is installed above the circulating conveying belt (124).

4. An automatic wipe processing agent device according to claim 1, characterized in that: the transition roller (135) stops at the application working position and the dosage adjustment working position in turn and keeps the corresponding residence time respectively during the process of applying the treating agent by the coating roller (136);

the control device is provided with a parameter setting unit for setting working parameters of the wiping agent device; the parameter setting unit is provided with a speed parameter representing the conveying speed of the shoe material conveying mechanism (12);

the control device receives the working parameters of the parameter setting unit and determines or changes the stay time of the transition roller (135) at the coating working position and the stay time of the transition roller (135) at the dosage adjusting working position, or the control device receives the speed parameters or the corresponding working parameters of the parameter setting unit and automatically determines or changes the stay time of the transition roller (135) at the coating working position and the stay time of the transition roller (135) at the dosage adjusting working position, so as to realize the automatic matching of different conveying speeds of the shoe material conveyor.

5. An automatic wipe treatment apparatus according to any one of claims 1 to 4, characterized in that: the roll surface of the transition roll (135) and/or the coating roll (136) is sleeved with at least one treating agent absorbing sleeve (4); the treating agent absorbing sleeve (4) is a cylindrical soft sleeve which is made of water flannelette, is made of sponge or is formed by compounding at least two material layers and is provided with at least one fabric layer.

6. An automatic wipe processing agent device according to claim 5, characterized in that: the bracket (130) is provided with a motor driving mechanism (23), the motor driving mechanism (23) is respectively in transmission connection with the feeding roller (134) and the coating roller (136), and the feeding roller (134) and the coating roller (136) are respectively rotatably arranged on the bracket (130);

a trough (133) is fixed on the bracket (130), and the lower part of the feeding roller (134) is immersed in the trough (133);

the dose adjusting and driving mechanism comprises roller seats (137) and two lifting devices (131), the roller seats (137) are arranged on the left side and the right side of a support (130), two ends of a transition roller (135) are respectively rotatably arranged on the left roller seat and the right roller seat (137), the transition roller (135) is arranged in the middle position above a feeding roller (134) and a coating roller (136), and one lifting device (131) is in transmission connection with one corresponding roller seat (137) and is used for driving the roller seats (137) and the transition roller (135) to ascend and descend;

after the lifting device (131) drives the transition roller (135) to move downwards, the transition roller (135) stops at the smearing working position and keeps staying at the smearing working position for a set staying time;

after the lifting device (131) drives the transition roller (135) to move upwards, the transition roller (135) stops at the dose adjusting working position and keeps staying at the dose adjusting working position for a set staying time.

7. An automatic wipe processing agent device according to claim 6, characterized in that: the feeding roller (134) comprises a stainless steel roller in a cylindrical shape or a cylindrical shape, the roller surface of the feeding roller (134) is a smooth surface or a road surface with concave-convex grains, one end of the feeding roller (134) is provided with a feeding roller (134) driving wheel, and the feeding roller (134) driving wheel is in transmission connection with the motor driving mechanism (23);

the coating roller (136) comprises a cylindrical or cylinder-shaped roller body made of silica gel and a treating agent absorption sleeve (4) tightly sleeved on the surface of the roller body, one end of the coating roller (136) is provided with a driving wheel of the coating roller (136), and the driving wheel of the coating roller (136) is in transmission connection with a motor driving mechanism (23);

the transition roller (135) comprises a stainless steel roller in a cylindrical shape or a cylinder shape and the treating agent absorbing sleeve (4) tightly sleeved on the surface of the roller body;

the transition roller (135) is in rolling fit with the feeding roller (134) or the transition roller (135) is in rolling fit with the coating roller (136) so as to drive the unpowered transition roller (135) to rotate.

8. An automatic wipe processing agent device according to claim 5, characterized in that: the bracket (130) is provided with a left side plate and a right side plate (132),

the two side plates (132) are respectively provided with the dose adjusting driving mechanism, the dose adjusting driving mechanism comprises a roller seat (137), a lifting device (131) and a height adjusting mechanism (138) for adjusting the height position of the lifting device (131), the inner side of the corresponding side plate (132) is provided with the lifting device (131), the outer side of the corresponding side plate is provided with the height adjusting mechanism (138), the height adjusting mechanism (138) is connected with the lifting device (131), the lifting device (131) is connected with the roller seat (137), and two ends of the transition roller (135) are respectively rotatably arranged on the left corresponding roller seat (137) and the right corresponding roller seat (137) so as to realize the ascending or descending of the transition roller (135);

after the height adjusting mechanism (138) changes the height position of the lifting device (131), the height position of the roller seat (137) is changed accordingly, so that the fit clearance between the transition roller (135) and the feeding roller (134) and the fit clearance between the transition roller (135) and the coating roller (136) are adjusted.

9. An automatic wipe processing agent device according to claim 8, characterized in that: two spout (1321) of vertical setting are seted up respectively in curb plate (132), install respectively in height control mechanism (138) of two curb plates (132) and all be provided with an adjust knob (1381), at least one connecting piece (1382) and one lift portion (1383), adjust knob (1381) transmission connection lift portion (1383), corresponding spout (1321) is worn to locate in the middle part activity of connecting piece (1382), corresponding elevating gear (131) and corresponding lift portion (1383) of connecting piece (1382) are connected respectively at the both ends to realize adjusting the high position of lift portion (1383) and adjusting the high position of elevating gear (131) behind rotatory adjust knob (1381).

10. An automatic wipe processing agent device according to claim 5, characterized in that: the quick-release structure roller is set to at least one of the feeding roller (134), the transition roller (135) and the coating roller (136), the quick-release structure roller comprises a quick-release barrel body (2) which is located in the middle and used for adsorbing, transferring or coating a treating agent, and a barrel connecting mechanism or a quick-release mechanism which is installed on the left side and the right side of the support (130), two ends of the quick-release barrel body (2) are respectively provided with a plug-in connector (21), and two plug-in connectors (21) of the quick-release barrel body (2) are respectively connected with the corresponding barrel connecting mechanism or barrel butt-joint mechanism which is located on the left side and the right side of the support (130).

11. An automatic wipe processing agent device according to claim 10, characterized in that: the bracket (130) is provided with a left side plate and a right side plate (132), the side plate (132) at the first side of the bracket (130) is provided with two cylinder body connecting mechanisms, the side plate (132) at the second side is provided with two quick-release mechanisms,

the feeding roller (134) and the coating roller (136) are arranged to be the quick-release structure rollers, the quick-release barrel (2) is arranged in the middle of the feeding roller (134), the opposite insertion ports (21) are respectively arranged at two ends of the feeding roller (134), the quick-release barrel (2) is arranged in the middle of the coating roller (136), the opposite insertion ports (21) are respectively arranged at two ends of the coating roller (136), and the quick-release barrels (2) of the feeding roller (134) and the coating roller (136) are respectively clamped and fixed between the corresponding barrel connecting mechanisms or quick-release mechanisms at the left side and the right side so as to respectively rotatably install the feeding roller (134) and the coating roller (136) on the support (130);

the surfaces of the quick-release cylinder bodies (2) of the feeding roller (134) and the coating roller (136) are respectively tightly sleeved with a treating agent absorption sleeve (4) to realize the absorption, the retention and the transfer of the treating agent;

the dose adjusting and driving mechanism comprises roller seats (137) arranged on the left side and the right side of the bracket (130) and two lifting devices (131), wherein one lifting device (131) is connected with one roller seat (137) on the same side;

axis body installation room (1371) and for have been seted up to the medial surface of roller seat (137) the channel of the tip in transition roller (135) provides the displacement space, inboard intercommunication axis body installation room (1371) of channel, the outside of channel runs through the side of roller seat (137) and forms the opening that the tip of a confession transition roller (135) shifted out, the opening is higher than axis body installation room (1371), the channel between opening and axis body installation room (1371) is the arc, the both ends difference rotation of transition roller (135) are installed in axis body installation room (1371).

12. An automatic wipe processing agent device according to claim 11, characterized in that: the quick-release mechanism is provided with a connecting part (22),

the inner end of the connecting part (22) is provided with the cylinder body butt-joint mechanism, the outer end is provided with the quick locking part,

the connecting part (22) is movably or slidably mounted on the bracket,

when the quick-release lock part is in a locking state, the cylinder body butt-joint mechanism and/or the connecting part (22) are/is relatively fixed on the bracket so as to realize the locking and fixing of the quick-release cylinder body (2) between the cylinder body connecting mechanism and the cylinder body butt-joint mechanism,

when the quick-release lock part is in an unlocking state, the connecting part (22) at least has set free displacement relative to the support in the axial direction of the quick-release cylinder (2) so as to release the quick-release cylinder (2) and take down the quick-release cylinder (2) from between the cylinder connecting mechanism and the cylinder butting mechanism.

13. An automatic wipe processing agent device according to claim 12, characterized in that: the quick locking part comprises a rotating seat (221) fixed at the outer end of the connecting part (22) and a locking part (222) installed on the support, a lock body is arranged at the outer end of the locking part (222), the rotating seat (221) is provided with a wheel part (223) and a hand-screwing handle (224) of which the inner end is fixed to the wheel part (223), at least one locking part is arranged at the outer edge of the wheel part (223), the rotating seat (221) is provided with a locking position and an unlocking position, the locking part is in locking fit with the lock body when the rotating seat (221) rotates to the locking position, and the locking part leaves the lock body when the rotating seat (221) rotates to the unlocking position;

the locking piece (222) is a screw with a screw head and screwed on the side plate (132) on the second side, a set distance is reserved between the screw head and the side plate (132) on the second side, a cam part or a notch is arranged on the rim of the wheel part (223), the locking part is formed on the cam part or the notch, the screw head abuts against the cam part or the notch to realize locking matching when the rotating seat (221) rotates to a locking position, the screw head leaves the cam part or the notch to realize unlocking when the rotating seat (221) rotates to an unlocking position, and the screw head abuts against the end face of the cam part; the end part of the cam part is provided with a groove (226) matched with the screw in a positioning way;

the barrel butting mechanism comprises a first plugging part (225) fixedly or rotatably mounted at the inner end part of the connecting part (22), the first plugging part (225) is coaxially and movably plugged in the plugging interface (21) of the quick-release barrel (2), and the quick-release barrel (2) is rotatably mounted relative to the connecting part (22);

a through hole is formed in a side plate (132) for mounting the quick-release mechanism, a connecting part (22) is slidably mounted in the through hole, a first inserting part (225) is positioned on the inner side of the corresponding side plate (132), a quick-locking part is positioned on the outer side of the corresponding side plate (132), and the first inserting part (225) comprises a shaft body or a sleeve which is rotatably mounted on the connecting part (22) and is used for movably inserting the opposite inserting interface (21) of the quick-release cylinder (2);

the support is provided with a motor driving mechanism (23), the barrel connecting mechanism comprises a rotating shaft (24), a transmission part and a second inserting part (241), the rotating shaft (24) is rotatably arranged on the support, the transmission part and the second inserting part (241) are respectively fixed at two end parts of the rotating shaft (24), the motor driving mechanism (23) is in transmission connection with the transmission part, and the second inserting part (241) is in connection fit with an inserting interface (21) of the quick-release barrel (2);

the second inserting portion (241) comprises a connecting shaft extending out of the rotating shaft (24) or fixed at the inner end of the rotating shaft (24), at least one synchronous positioning column (242) extending along the radial direction of the connecting shaft is fixed on the connecting shaft along the radial direction, a first opposite inserting port (21) of the quick-release barrel (2) is provided with a shaft hole and a synchronous positioning groove, the connecting shaft is inserted into the shaft hole, and the synchronous positioning column (242) is inserted or embedded into the corresponding synchronous positioning groove so as to realize the synchronous rotation of the quick-release barrel (2) driven by the rotating shaft (24).

14. An automatic wipe processing agent device according to claim 5, characterized in that: a trough (133) is fixed on the support (130), a liquid supply pipe (6) and a liquid supply box (7) which is arranged in a sealing manner and can be installed alternatively or can supplement a treating agent are arranged on the support (130), the lower end part of the liquid supply pipe (6) is inserted into the trough (133), a liquid supply pipe connector (61) is arranged on the upper part of the liquid supply pipe (6), a liquid supply box connector (71) is arranged on the lower part of the liquid supply box (7), the liquid supply box connector (71) is connected with the liquid supply pipe connector (61) in a sealing manner, and the liquid supply pipe (6) is communicated with an inner cavity of the liquid supply box (7);

the support (130) is provided with a liquid supply lifting mechanism, the upper part of the liquid supply pipe (6) or the liquid supply pipe connector (61) is fixed on the liquid supply lifting mechanism so as to realize the adjustment of the distance between the lower end part of the liquid supply pipe (6) and the bottom surface of the trough (133) and the adjustment of the liquid level height, the liquid supply box (7) is inversely arranged above the liquid supply lifting mechanism, the liquid supply box connector (71) is positioned at the bottom of the liquid supply box (7), and the liquid supply box connector (71) is inserted into the liquid supply pipe connector (61).

15. An automatic wipe processing agent device according to claim 14, characterized in that: the liquid supply lifting mechanism is provided with a bracket and a bracket lifting mechanism, the bracket lifting mechanism is arranged on the support (130), the bracket is arranged on the upper part of the bracket lifting mechanism, the upper part of the liquid supply pipe (6) or the liquid supply pipe connector (61) is fixed on the bracket, and the liquid supply pipe (6) moves synchronously along with the bracket when the bracket moves up and down so as to realize the liquid level height;

the bracket lifting mechanism comprises a liquid supply adjusting knob (62) arranged on the bracket (130), a transmission nut (63) fixed on the bracket and at least one guide post (64) arranged on the bracket (130), the bracket is provided with at least one guide hole, each guide post (64) is movably inserted into the corresponding guide hole, the liquid supply adjusting knob (62) is provided with a hand-screwing knob and a transmission lead screw fixed on the hand-screwing knob, and the transmission lead screw is in transmission connection with the transmission nut (63) so as to drive the bracket to move up and down;

the liquid supply pipe connector (61) is provided with a connector socket, the lower part of the connector socket is communicated with the liquid supply pipe (6), the liquid supply box connector (71) is movably inserted into the connector socket, and the liquid supply box connector (71) is in sealing fit with the connector socket;

the liquid supply box (7) is stored with a treating agent, the treating agent in the liquid supply box (7) flows downwards to the trough (133) through the liquid supply pipe (6) and then forms a low-pressure balance chamber at the upper part of the inner cavity of the liquid supply box (7), the lower end of the liquid supply pipe (6) is provided with a liquid supply pipe opening, a set distance is reserved between the liquid supply pipe opening and the bottom surface of the trough (133), the liquid supply pipe opening is immersed in the treating agent in the trough (133) after the liquid level in the trough (133) is higher than the liquid supply pipe opening of the liquid supply pipe (6), the pressure at the liquid supply pipe opening is in a pressure balance state when the liquid level of the trough (133) reaches a set height, the treating agent in the liquid supply pipe (6) does not flow into the trough (133) when the liquid supply pipe opening is in the pressure balance state, the treating agent in the liquid supply pipe (6) flows into the trough (133) when the pressure above the liquid supply pipe opening is higher than, so as to achieve a stable liquid level of the treating agent in the trough (133).

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