CN114427147A - Antibacterial and anti-fouling shirt surface coating device - Google Patents

Abstract

The invention relates to an antibacterial and anti-fouling shirt surface coating device which comprises an outer frame, two conveying type coating mechanisms, a turnover positioning mechanism and a dust cover, wherein the left end and the right end of the outer frame are respectively provided with one conveying type coating mechanism, the dust cover is covered outside the conveying type coating mechanisms and is buckled on the outer side wall of the outer frame, and the turnover positioning mechanism is arranged inside the outer frame. The invention can solve the problems that the spraying amount is difficult to control by manual spraying, the spraying track from top to bottom is selected on the premise that the spraying amount is difficult to control, the sprayed anti-fouling finishing agent completely falls into the fabric, and the spraying of all areas of the fabric is uneven, when in spraying, part of fabric areas are pressed and are difficult to directly contact with the finishing agent, so that the part of the fabric is not coated, and the part of the area needs to be coated again subsequently, but the coating is easily sprayed to the peripheral area once again.

Description

Antibacterial and anti-fouling shirt surface coating device

Technical Field

The invention relates to the technical field related to shirt processing, in particular to an antibacterial and anti-fouling shirt surface coating device.

Background

Along with the continuous improvement of social and economic levels, more and more functional textiles are familiar and accepted by people, in recent years, the increasingly popular non-ironing shirts are popular with consumers due to the advantages of stiff and smooth appearance and convenient nursing without ironing after washing, the shirts can be worn between inner and outer coats and can be worn independently, the upper outer coats are common clothes for people in daily life, and the surface of the fabric before the shirt is formed needs to be coated with anti-fouling finish in the production process of the shirts, so that the anti-fouling effect of the surface of the shirts is improved.

The traditional coating mode is usually to push down the surface fabric after the desktop tiling, and its coating is handled through the manual spraying mode from top to bottom, however, traditional coating mode often has following defect in the actual operation in-process:

1. the spraying amount is difficult to control by manual spraying, a spraying track from top to bottom is selected on the premise that the spraying amount is difficult to control, so that the sprayed anti-fouling finishing agent completely falls onto the fabric, the condition that the spraying of each area of the fabric is uneven is caused, the soaking rate of the fabric is high due to the downward spraying mode, and the fabric is difficult to dry quickly during later air drying;

2. during spraying, a part of fabric area is pressed and is difficult to directly contact with the finishing agent, so that the part of fabric is not coated, and the part of area needs to be subjected to repair coating subsequently.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an antibiotic anti-soil shirt surface coating device, includes frame, two transport formula coating mechanism, upset positioning mechanism and dust cover, the frame about both ends install one separately and carry formula coating mechanism, the outside of carrying formula coating mechanism is covered with the dust cover, and the dust cover is detained on the lateral wall of frame, the internally mounted of frame has upset positioning mechanism.

The outer frame comprises fixed plates, edge protection plates, a bottom plate and a built-in rod, the edge protection plates are installed between the fixed plates arranged on the left side and the right side, the fixed plates and the edge protection plates form a frame body of a square-shaped structure, the bottom plate is installed at the lower end of the frame body, and the built-in rod is installed in the frame body.

The conveying type coating mechanism comprises a conveying unit, a connecting cylinder, a connecting frame, an alignment frame, a telescopic pipe, a coating unit, a supporting frame and an electric sliding block, wherein the conveying unit is arranged on the outer side wall of the fixed plate, the connecting cylinder is arranged on the conveying unit, the connecting frame is arranged at the ejection end of the connecting cylinder, the alignment frame is symmetrically arranged at the front end and the rear end of the connecting frame, an extension tube is communicated and installed between the alignment frame and the coating unit, the extension tube is made of an extension tube body material, the accommodation space is saved during the contraction, the length is increased during the extension, the telescopic pipe can not be broken when the electric slide block drives the coating unit to move, the lower end of the coating unit is arranged at the upper end of the support frame, the coating unit at the initial position is positioned at one side of the frame body, the normal rotation of the intermediate plate and the sliding plate can not be influenced, the supporting frame is arranged on the electric sliding block, and the electric sliding block is arranged on the built-in rod.

The aligning frame comprises a linking pipe, an aligning port, a propping port and a reset spring, wherein the aligning port is formed in the lower end of the outer side of the linking pipe, the aligning port is communicated with the inner cavity of the linking pipe, the bottom end of the inner cavity is of a structure which gradually inclines upwards from outside to inside, the inner side of the linking pipe is connected with the propping port in a sliding fit mode, the reset spring is connected between the propping port and the inner cavity, and the reset spring plays a role in resetting.

The turnover positioning mechanism comprises a rotating shaft, a rotating motor, a middle plate, a sliding plate, an elastic telescopic rod, a pulling unit, a lifting unit and a clamp, wherein the rotating shaft is connected between fixed plates through a bearing, one end of the rotating shaft is connected with an output shaft of the rotating motor, the rotating motor is installed on a conveying unit through a base, the middle plate is fixedly installed in the middle of the rotating shaft, the left end and the right end of the rotating shaft are connected with the sliding plate in a sliding fit mode, an alignment line is drawn on the outer side of the sliding plate, in the placing process, one end of shirt cloth is aligned to the alignment line so as to ensure the position to be straightened, then the shirt cloth is clamped through the clamped clamp, the elastic telescopic rod is connected between the middle plate and the sliding plate, the pulling unit is arranged to ensure that the sliding plate is pulled oppositely before the shirt cloth is placed, and the distance between the two ends of the sliding plate is smaller than the cloth length, thereby make things convenient for the location of shirt cloth, after pressing from both sides tight location, the pulling unit resets, and the sliding plate moves to the outside under the effect of elasticity telescopic link to carry out adaptability to tighten shirt cloth, elasticity telescopic link are located the front and back both sides of pulling unit, install the lift unit on the sliding plate, anchor clamps are installed at the front and back both ends of lift unit.

Anchor clamps include the slide bar, aim at the chamber, hollow post, the anchor clamps board, the chamber of aiming at has been seted up to the inside of slide bar, be connected for normal running fit between the lower extreme of slide bar and the hollow post, the two is connected the position of having guaranteed the anchor clamps board for normal running fit is rotatable, thereby carry out the position rotation of adaptability according to current clamping position, the anchor clamps board is installed to the lower extreme of hollow post, the transport chamber has been seted up to the inside of anchor clamps board, the dispersion hole has been seted up on the anchor clamps board, and aim at the chamber, some intercommunication chambeies have been seted up to hollow post inside, carry and be the intercommunication relation between the chamber, through the tight back of anchor clamps board to a turning position clamp of shirt cloth, anti-soil finishing agent enters into and aims at and passes through the intercommunication chamber in proper order behind the chamber, carry the chamber, thereby soak the bed of cloth from dispersion hole blowout again.

As a preferred technical scheme of the invention, the conveying unit comprises a storage frame, a conveying pump, a shunt pipe, a conveying pipe and a recovery frame, the storage frame is arranged on the outer side wall of the fixed plate, the conveying pump is communicated and arranged between the storage frame and the shunt pipe, the antifouling finishing agent in the storage frame is conveyed into the shunt pipe through the conveying pump at high pressure, the conveying pump is arranged on the lower end face of the storage frame, the front end and the rear end of the shunt pipe are communicated and arranged with the conveying pipe, the recovery frame is arranged on the outer side wall of the conveying pipe, the antifouling finishing agent is conveyed to the rear end of the connecting pipe through the connecting pipe, when the conveying is stopped, part of the antifouling finishing agent can remain in the connecting pipe, and at the moment, the antifouling finishing agent flows into the recovery frame due to the structural design (the structure which gradually inclines upwards from outside to inside), and the dredging effect is improved.

As a preferred technical scheme of the invention, an extension tube is communicated between the connecting tube and the coating unit, and the alignment opening at the initial position is positioned right above the recovery frame, so that the residual antifouling finishing agent in the inner cavity of the connecting tube can accurately fall into the recovery frame.

As a preferred technical solution of the present invention, the coating unit includes a nozzle, a compression region extrusion block, an internal spring, and an anti-corrosion pipe, an inner side of the nozzle is connected to the compression region extrusion block in a sliding fit manner, the compression region extrusion block moves inward under the action of the internal spring when not compressed, at this time, a maximum value of a space inside the nozzle, a maximum amount of sprayed-out and a maximum region are provided, the internal spring is connected between the nozzle and the compression region extrusion block, the internal spring plays a role of resetting, the external part of the internal spring is sleeved with the anti-corrosion pipe, and the anti-corrosion pipe is provided to play an anti-corrosion effect on the internal spring.

In a preferred embodiment of the present invention, the outer half portion of the upper end of the nozzle is separately provided with a straight hole, the inner half portion of the upper end of the nozzle is separately provided with an inclined hole, the inclined hole has a structure that the inclined hole gradually inclines upwards from the outside to the inside, and the spraying tracks of the inclined hole and the straight hole are different, so that the expansion of the spraying area is ensured.

As a preferred technical scheme of the invention, the pulling unit comprises a first air cylinder, a U-shaped frame and a resisting plate, the first air cylinder is arranged on the middle plate, the U-shaped frame is arranged at the ejection end of the first air cylinder, the U-shaped frame and the resisting plate are in clamping connection, and the resisting plate is arranged on the sliding plate.

As a preferred technical scheme of the invention, the lifting unit comprises a second air cylinder and a lifting frame, the second air cylinder is arranged on the sliding plate, the lifting frame is arranged at the ejection end of the second air cylinder, sliding rods are symmetrically arranged at the front end and the rear end of the lifting frame, and the lifting frame is driven to lift through the second air cylinder, so that the clamp is driven to clamp one corner of the shirt fabric.

As a preferred technical scheme of the invention, the clamp plate is paved with the cloth layer, the cloth layer has better water absorption effect and is soaked in a shorter time, and the inlet position of the upper end of the aligning cavity corresponds to the position of the abutting port.

(II) advantageous effects

1. According to the antibacterial and anti-fouling shirt surface coating device, the fabric placed downwards is coated in a mode of spraying from bottom to top, and then the uniformity of mechanical spraying is matched, so that the condition of advanced spraying is avoided in a mode of staggered interfaces when the fabric is not sprayed, the condition that the spraying amount on the fabric is too much and the spraying is not uniform is ensured to be avoided, and the pressed position is soaked through the fabric layer so that the area in contact with the fabric layer can be soaked and smeared without subsequent coating supplement;

2. according to the antibacterial and anti-fouling shirt surface coating device, the conveying type coating mechanism adopts an automatic high-pressure conveying mode to convey the anti-fouling finishing agent, when the anti-fouling finishing agent is not coated, the aligning port and the upper end of the conveying pipe are arranged in a staggered mode, the conveying closing of the anti-fouling finishing agent is guaranteed, the condition of output in advance is avoided, the uniform output of the finishing agent is guaranteed through the automatic conveying mode, and compared with manual spraying, the control amount is more accurate;

3. according to the antibacterial and anti-fouling shirt surface coating device, the overturning and positioning mechanism is used for adaptively tightening and clamping shirt cloth, the tiled shirt cloth is overturned to enable the coating surface to be arranged downwards, and then the coating layer is sprayed in an upward spraying mode.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2 of the present invention;

FIG. 4 is a schematic view of a first configuration of the present invention between the anchor plate, the internal rod, the conveyor coater assembly and the flipper positioning mechanism;

FIG. 5 is a schematic view of a second configuration of the present invention between the mounting plate, the internal rod, the conveyor coating mechanism and the flipping positioning mechanism;

FIG. 6 is a schematic view of the position of the fixing plate, the shunt tube, the delivery tube, the recycling frame, the alignment frame, the extension tube, the coating unit and the supporting frame according to the present invention;

fig. 7 is a schematic view of the position between the slide plate and the clamp of the present invention.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 7, an antibacterial and antifouling shirt surface coating device comprises an outer frame 1, two conveying type coating mechanisms 2, an overturning positioning mechanism 3 and a dust cover 4, wherein the conveying type coating mechanisms 2 are respectively installed at the left end and the right end of the outer frame 1, the dust cover 4 is covered outside the conveying type coating mechanisms 2, the dust cover 4 is buckled on the outer side wall of the outer frame 1, and the overturning positioning mechanism 3 is installed inside the outer frame 1.

The outer frame 1 comprises fixing plates 11, edge protection plates 12, a bottom plate 13 and built-in rods 14, wherein the edge protection plates 12 are installed between the fixing plates 11 which are arranged left and right, the fixing plates 11 and the edge protection plates 12 form a frame body of a rectangular structure, the bottom plate 13 is installed at the lower end of the frame body, and the built-in rods 14 are installed in the frame body.

The conveying type coating mechanism 2 comprises a conveying unit 21, a connecting cylinder 22, a connecting frame 23, an alignment frame 24, an extension tube 25, a coating unit 26, a supporting frame 27 and an electric slide block 28, wherein the conveying unit 21 is arranged on the outer side wall of the fixed plate 11, the connecting cylinder 22 is arranged on the conveying unit 21, the connecting frame 23 is arranged at the ejection end of the connecting cylinder 22, the alignment frame 24 is symmetrically arranged at the front end and the rear end of the connecting frame 23, the extension tube 25 is communicated and arranged between the alignment frame 24 and the coating unit 26, the extension tube 25 is made of a telescopic tube body material, the accommodating space is saved during contraction, the extension time is prolonged, the extension tube 25 cannot be broken when the electric slide block 28 drives the coating unit 26 to move, the lower end of the coating unit 26 is arranged at the upper end of the supporting frame 27, the coating unit 26 at the initial position is positioned at one side of the frame body, the normal rotation of the intermediate plate 33 and the sliding plate 34 cannot be influenced, support frame 27 sets up on electronic slider 28, electronic slider 28 is installed on built-in pole 14, concrete during operation, after fixing a position the shirt cloth through upset positioning mechanism 3, drive link 23 through connecting cylinder 22 and remove, make the alignment frame 24 of controlling the position move in opposite directions, it aims at with conveyer pipe 214 on the conveying unit 21 to aim at frame 24, anti-soil finishing agent in the conveying unit 21 under highly compressed effect spouts and then coats to the shirt one side after the location after carrying coating unit 26, drive coating unit 26 lateral shifting through electronic slider 28, thereby carry out comprehensive coating with the one side of shirt.

The conveying unit 21 comprises a storage frame 211, a conveying pump 212, a dividing pipe 213, a conveying pipe 214 and a recovery frame 215, the storage frame 211 is installed on the outer side wall of the fixing plate 11, the conveying pump 212 is installed between the storage frame 211 and the dividing pipe 213 in a communicating mode, the antifouling finishing agent in the storage frame 211 is conveyed into the dividing pipe 213 through the conveying pump 212 in a high-pressure mode, the conveying pump 212 is installed on the lower end face of the storage frame 211, the conveying pipe 214 is installed at the front end and the rear end of the dividing pipe 213 in a communicating mode, the recovery frame 215 is installed on the outer side wall of the conveying pipe 214, the antifouling finishing agent is conveyed to the telescopic pipe 25 through the connecting pipe 241, when conveying is stopped, part of the antifouling finishing agent can remain in the connecting pipe 241, at the moment, the antifouling finishing agent flows into the recovery frame 215 through the structural design (a structure which gradually inclines upwards from outside to inside) of the bottom end face of the inner cavity of the connecting pipe 241, and the dredging effect is improved.

The aligning frame 24 comprises a connecting pipe 241, an aligning port 242, a resisting port 243 and a return spring 244, the lower end of the outer side of the connecting pipe 241 is provided with the aligning port 242, the aligning port 242 is communicated with the inner cavity of the connecting pipe 241, the bottom end of the inner cavity is of a structure which is gradually inclined upwards from outside to inside, the inner side of the connecting pipe 241 is connected with the resisting port 243 in a sliding fit mode, the return spring 244 is connected between the resisting port 243 and the inner cavity, the return spring 244 plays a role of returning, an extension pipe 25 is communicated between the connecting pipe 241 and the coating unit 26, the aligning port 242 at an initial position is positioned right above the recovery frame 215, the residual antifouling finishing agent in the inner cavity of the connecting pipe can be ensured to accurately fall into the recovery frame 215, when in specific work, after the two sides of the shirt cloth are tightened by the sliding plates 34 arranged on the left and the right, the connecting cylinder 22 drives the connecting frame 23 to move, so that the aligning frame 24 is aligned with the conveying pipe 214 on the conveying unit 21, at this time, under the elastic action of the return spring 244 and the elastic telescopic rod 35, the abutting port 243 is inserted into the inlet position at the upper end of the aligning cavity 382, when the anti-fouling finishing agent is conveyed to the coating unit 26, a part of the anti-fouling finishing agent is input into the aligning cavity 382 to wet the laid cloth layer, and the anti-fouling finishing agent wets the contact area of the clamp and the shirt cloth through the wetted cloth layer, so that the coating effect is achieved, and the part of the coating layer which is not sprayed is ensured.

The coating unit 26 comprises a spray head 261, a contraction area extrusion block 262, an internal spring 263 and an anticorrosion pipe 264, wherein the inner side of the spray head 261 is connected with the contraction area extrusion block 262 in a sliding fit mode, the contraction area extrusion block 262 moves inwards under the action of the internal spring 263 when not being extruded, the maximum space value inside the spray head 261 is the largest, the sprayed amount and the area are the largest, the internal spring 263 is connected between the spray head 261 and the contraction area extrusion block 262, the internal spring 263 plays a role in resetting, the anticorrosion pipe 264 is sleeved outside the internal spring 263, the anticorrosion pipe 264 plays an anticorrosion effect on the internal spring 263, the outer half part of the upper end of the spray head 261 is provided with a straight hole, the inner half part of the upper end of the spray head 261 is provided with an inclined hole, the inclined hole is of a structure which is gradually inclined upwards from outside to inside, and the inclined hole has a different spraying track from the straight hole, thereby the regional expansion of spraying has been guaranteed, concrete during operation, anti-soil finishing agent carries the shower nozzle 261 interior back from straight hole in, the inclined hole blowout in the flexible pipe 25, thereby carry out the spraying to the coating face of shirt cloth, when the shower nozzle 261 that arranges about will contact, this moment, the regional extrusion piece 262 of contracting of the two at first contacts, and retract in the shower nozzle 261 under the effect of reaction force, thereby the spraying volume and the region of single shower nozzle 261 have been reduced, the condition that the cross spraying leads to this regional spraying volume increase appears when having avoided two shower nozzles to be adjacent, guarantee the regional degree of consistency of shirt cloth coating as far as possible.

The turnover positioning mechanism 3 comprises a rotating shaft 31, a rotating motor 32, a middle plate 33, a sliding plate 34, an elastic telescopic rod 35, a pulling unit 36, a lifting unit 37 and a clamp 38, wherein the rotating shaft 31 is connected between the fixed plates 11 through a bearing, one end of the rotating shaft 31 is connected with an output shaft of the rotating motor 32, the rotating motor 32 is installed on the conveying unit 21 through a base, the middle plate 33 is fixedly installed in the middle of the rotating shaft 31, the left end and the right end of the rotating shaft 31 are connected with the sliding plate 34 in a sliding fit mode, an alignment line is marked on the outer side of the sliding plate 34, during the placing process, one end of shirt cloth is aligned with the alignment line so as to ensure the position to be aligned, then the shirt cloth is clamped through the clamped clamp 38, the elastic telescopic rod 35 is connected between the middle plate 33 and the sliding plate 34, the pulling unit 36 is arranged between the middle plate 33 and the sliding plate 34, and the setting of the pulling unit 36 ensures that the sliding plate 34 is pulled oppositely before the shirt cloth is placed, the distance between the two ends of the sliding plate 34 is smaller than the length of shirt fabric, so that the shirt fabric is conveniently positioned, after clamping and positioning, the pulling unit 36 resets, the sliding plate 34 moves outwards under the action of the elastic telescopic rod 35, so that the shirt fabric is adaptively tightened, the elastic telescopic rod 35 is positioned at the front side and the rear side of the pulling unit 36, the sliding plate 34 is provided with the lifting unit 37, the front end and the rear end of the lifting unit 37 are provided with the clamp 38, in specific work, before the shirt fabric is placed, the rotating shaft 31, the middle plate 33 and the sliding plate 34 are driven to turn over by rotating the motor 32 for one hundred eighty degrees, so that the clamp 38 is arranged upwards, at the moment, the two sides of the shirt fabric are paved on the middle plate 33 and the sliding plate 34 along alignment lines (the surface to be coated is placed upwards), the clamp 38 is driven to descend by the lifting unit 37, so as to press the four corner positions of the shirt, then, the sliding plate 34 is driven to push outwards through the pulling unit 36 until the shirt fabric is unlocked, at this time, the shirt fabric is adaptively tightened according to the length of the shirt fabric and the elastic connection of the elastic telescopic rod 35, the rotating shaft 31, the middle plate 33 and the sliding plate 34 are driven to reset and turn over through the rotating motor 32, and at this time, the coating surface of the shirt fabric is arranged downwards.

The pulling unit 36 comprises a first air cylinder 361, a U-shaped frame 362 and a resisting plate 363, the first air cylinder 361 is arranged on the middle plate 33, the U-shaped frame 362 is arranged at the ejection end of the first air cylinder 361, the U-shaped frame 362 and the resisting plate 363 are in a clamping relation, the resisting plate 363 is arranged on the sliding plate 34, when the shirt hanger works, the first air cylinder 361 drives the U-shaped frame 362 to approach to the middle plate 33, the sliding plate 34 is driven to move by clamping the outer side of the U-shaped frame 362 and the resisting plate 363, after the sliding plate 34 is pulled oppositely, shirt cloth is clamped and positioned, then the first air cylinder 361 drives the U-shaped frame 362 to move outwards, so that the outer side of the resisting plate 363 is not limited, the sliding plate 34 and the U-shaped frame 362 move outwards synchronously under the action of the elastic expansion link 35, after the shirt cloth moves to a certain distance, the sliding plate 34 stops moving outwards along with the tightening of the shirt cloth, at this time, the shirt fabric is adaptively tightened.

The lifting unit 37 comprises a second cylinder 371 and a lifting frame 372, the second cylinder 371 is installed on the sliding plate 34, the lifting frame 372 is installed at the ejection end of the second cylinder 371, sliding rods 381 are symmetrically installed at the front end and the rear end of the lifting frame 372, and the lifting frame 372 is driven to lift through the second cylinder 371, so that the clamp 38 is driven to clamp one corner of the shirt fabric.

The clamp 38 comprises a sliding rod 381, an alignment cavity 382, a hollow column 383 and a clamp plate 384, the alignment cavity 382 is arranged in the sliding rod 381, the lower end of the sliding rod 381 is connected with the hollow column 383 in a rotating fit manner, the rotating fit connection of the lower end of the sliding rod 381 and the hollow column 383 ensures that the position of the clamp plate 384 can rotate, so that the clamp plate 384 rotates in an adaptive position according to the current clamping position, the clamp plate 384 is installed at the lower end of the hollow column 383, a conveying cavity is arranged in the clamp plate 384, dispersing holes are formed in the clamp plate 384, communicating cavities and conveying cavities are formed in the alignment cavity 382 and the hollow column 383, after one corner position of shirt cloth is clamped through the clamp plate 384, the anti-fouling finishing agent enters the alignment cavity 382 and then sequentially passes through the communicating cavities and the conveying cavities and is sprayed out of the dispersing holes to wet the cloth layer, the cloth layer is laid on the clamp plate 384, the cloth layer absorbs water well and wets in a short time, and the inlet position of the upper end of the aligning cavity 382 corresponds to the position of the abutting port 243.

When in work:

clamping and positioning: the sliding plates 34 are driven to move oppositely by the pulling unit 36, the rotating shaft 31, the middle plate 33 and the sliding plates 34 are driven to turn over by one hundred eighty degrees by rotating the motor 32, so that the clamp 38 is arranged upwards, two ends of the shirt fabric are aligned along corresponding alignment lines and then placed and laid flat, four corners of the shirt are pressed by the descending clamp 38, then the pulling unit 36 is reset, the sliding plates 34 move outwards under the action of the elastic telescopic rods 35, the positioned shirt fabric is tightened in a adaptability manner, the rotating shaft 31, the middle plate 33 and the sliding plates 34 are driven to reset and turn over by rotating the motor 32, and the coating surface of the shirt fabric is arranged downwards;

alignment: the connecting cylinder 22 drives the connecting frame 23 to move, so that the aligning port 242 is aligned with the upper end of the conveying pipe 214, and at the moment, under the elastic action of the return spring 244 and the elastic telescopic rod 35, the abutting port 243 is inserted into the inlet position at the upper end of the aligning cavity 382;

conveying and coating: the antifouling finishing agent in the conveying unit 21 is conveyed to the connecting pipe 241 under the action of high pressure, then most of the antifouling finishing agent is sprayed out of the spray head 261 after passing through the telescopic pipe 25, so that the coating surface of the shirt fabric is coated, the coating unit 26 is driven to move transversely along with the electric slider 28, so that the coating surface of the shirt fabric is coated comprehensively, the other small part of the antifouling finishing agent is input into the aligning cavity 382 to wet the laid fabric layer, and the antifouling finishing agent wets the contact area of the clamp and the shirt fabric through the wetted fabric layer, so that the coating effect is achieved;

air-drying the coated shirt fabric, turning it upward, taking it out, and laying another piece of fabric again.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an antibiotic anti-soil shirt surface coating device, includes frame (1), two transport formula coating mechanism (2), upset positioning mechanism (3) and dust cover (4), its characterized in that: the left end and the right end of the outer frame (1) are respectively provided with a conveying type coating mechanism (2), the outer part of the conveying type coating mechanism (2) is covered with a dust cover (4), the dust cover (4) is buckled on the outer side wall of the outer frame (1), and the inner part of the outer frame (1) is provided with a turnover positioning mechanism (3);

the outer frame (1) comprises fixed plates (11), edge protection plates (12) are arranged between the fixed plates (11) arranged on the left and right, the fixed plates (11) and the edge protection plates (12) form a frame body with a square-shaped structure, a bottom plate (13) is arranged at the lower end of the frame body, and a built-in rod (14) is arranged in the frame body;

the conveying type coating mechanism (2) comprises a conveying unit (21), the conveying unit (21) is installed on the outer side wall of the fixing plate (11), a connecting cylinder (22) is installed on the conveying unit (21), a connecting frame (23) is installed at the ejection end of the connecting cylinder (22), aligning frames (24) are symmetrically installed at the front end and the rear end of the connecting frame (23), telescopic pipes (25) are installed between the aligning frames (24) and the coating unit (26) in a communicated mode, the lower end of the coating unit (26) is installed at the upper end of a supporting frame (27), the supporting frame (27) is arranged on an electric sliding block (28), and the electric sliding block (28) is installed on the built-in rod (14);

the alignment frame (24) comprises a connection pipe (241), an alignment port (242) is formed in the lower end of the outer side of the connection pipe (241), the alignment port (242) is communicated with the inner cavity of the connection pipe (241), the bottom end of the inner cavity is of a structure which is gradually inclined upwards from outside to inside, the inner side of the connection pipe (241) is connected with a support port (243) in a sliding fit mode, and a reset spring (244) is connected between the support port (243) and the inner cavity;

the overturning positioning mechanism (3) comprises a rotating shaft (31), the rotating shaft (31) is connected between the fixed plates (11) through a bearing, one end of the rotating shaft (31) is connected with an output shaft of a rotating motor (32), the rotating motor (32) is installed on the conveying unit (21) through a base, a middle plate (33) is fixedly installed in the middle of the rotating shaft (31), the left end and the right end of the rotating shaft (31) are connected with a sliding plate (34) in a sliding fit mode, an elastic telescopic rod (35) is connected between the middle plate (33) and the sliding plate (34), a pulling unit (36) is arranged between the middle plate (33) and the sliding plate (34), the elastic telescopic rod (35) is located on the front side and the rear side of the pulling unit (36), a lifting unit (37) is installed on the sliding plate (34), and clamps (38) are installed at the front end and the rear end of the lifting unit (37);

anchor clamps (38) including slide bar (381), alignment chamber (382) have been seted up to the inside of slide bar (381), be connected for normal running fit between the lower extreme of slide bar (381) and hollow post (383), anchor clamps board (384) are installed to the lower extreme of hollow post (383), carry the chamber has been seted up to the inside of anchor clamps board (384), seted up the dispersion hole on anchor clamps board (384), and align chamber (382), hollow post (383) inside intercommunication chamber of seting up, carry for the intercommunicating relation between the chamber.

2. An antibacterial and anti-fouling shirt surface coating device according to claim 1, characterized in that: conveying unit (21) including storing frame (211), store frame (211) and install on the lateral wall of fixed plate (11), store and communicate between frame (211) and shunt tubes (213) and install delivery pump (212), delivery pump (212) are installed and are being stored the lower terminal surface of frame (211), delivery pipe (214) are installed to both ends intercommunication around shunt tubes (213), install on the lateral wall of delivery pipe (214) and retrieve frame (215).

3. An antibacterial and anti-fouling shirt surface coating device according to claim 2, characterized in that: an extension pipe (25) is communicated between the connecting pipe (241) and the coating unit (26), and the alignment opening (242) at the initial position is positioned right above the recovery frame (215).

4. An antibacterial and anti-fouling shirt surface coating device according to claim 1, characterized in that: the coating unit (26) comprises a spray head (261), the inner side of the spray head (261) is connected with a contraction area extrusion block (262) in a sliding fit mode, an internal spring (263) is connected between the spray head (261) and the contraction area extrusion block (262), and an anti-corrosion pipe (264) is sleeved outside the internal spring (263).

5. An antibacterial and anti-fouling shirt surface coating device according to claim 4, characterized in that: the outer half part of the upper end of the spray head (261) is separately provided with a straight hole, the inner half part of the upper end of the spray head (261) is separately provided with an inclined hole, and the inclined hole is of a gradually upward inclined structure from outside to inside.

6. An antibacterial and anti-fouling shirt surface coating device according to claim 1, characterized in that: the pulling unit (36) comprises a first air cylinder (361), the first air cylinder (361) is installed on the middle plate (33), a U-shaped frame (362) is installed at the ejection end of the first air cylinder (361), the U-shaped frame (362) and the abutting plate (363) are in clamping connection, and the abutting plate (363) is installed on the sliding plate (34).

7. An antibacterial and anti-fouling shirt surface coating device according to claim 1, characterized in that: the lifting unit (37) comprises a second air cylinder (371), the second air cylinder (371) is installed on the sliding plate (34), a lifting frame (372) is installed at the ejection end of the second air cylinder (371), and sliding rods (381) are symmetrically installed at the front end and the rear end of the lifting frame (372).

8. An antibacterial and anti-fouling shirt surface coating device according to claim 1, characterized in that: the clamp plate (384) is paved with a cloth layer, and the inlet position of the upper end of the aligning cavity (382) corresponds to the position of the abutting port (243).

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