1. The utility model provides a dull polish cloth cleaning device, includes bottom plate (1), air inlet unit (2), collecting box (3), clearance mechanism (4), second air inlet unit (5), adsorption apparatus constructs (6), drive support (7), batching device (8), its characterized in that: bottom plate (1) right side fixedly connected with air inlet unit (2), bottom plate (1) right side fixedly connected with collecting box (3), be equipped with clearance mechanism (4) between air inlet unit (2) and collecting box (3), clearance mechanism (4) left side and air inlet unit (2) fixed connection, bottom plate (1) right-hand member is equipped with second air inlet unit (5), second air inlet unit (5) bottom is equipped with adsorption apparatus structure (6), adsorption apparatus structure (6) left and right sides fixedly connected with drive support (7), drive support (7) top and second air inlet unit (5) left and right sides fixed connection, drive support (7) right-hand member is equipped with batching device (8).

2. The abrasive cloth cleaning device according to claim 1, characterized in that: clearance mechanism (4) right side is passed collecting box (3) and collecting box (3) sliding connection, adsorption apparatus constructs (6) top only with second air inlet unit (5) bottom, adsorption apparatus constructs (6) middle part and drive support (7) fixed connection, second air inlet unit (5) bottom is equipped with the arc recess, evenly is equipped with the pipe on the arc recess, and second device (5) bottom and second air inlet unit (5) fixed connection are passed to the pipe bottom.

3. The abrasive cloth cleaning device according to claim 1, characterized in that: the cleaning mechanism (4) comprises an air inlet pipe (401) fixedly connected with the inner side of the air inlet device (2) close to the top end, a circular opening is formed in the middle of the air inlet pipe (401), a rotating ring (402) is rotatably connected to the inner side of the circular opening, one end, far away from the air inlet device (2), of the rotating ring (402) is arranged outside the air inlet pipe (401), an air inlet circular pipe (403) is arranged in the middle of the rotating ring (402), a cleaning spring (404) is fixedly connected to one side, far away from the air inlet device (2), of the rotating ring (402), the rotating ring (402) is in sliding connection with the collecting box (3) and penetrates through the collecting box (3), rotating fan blades are fixedly connected between the air inlet circular pipe (403) and the rotating ring (402), a telescopic air pipe (406) is fixedly connected to one end, far away from the air inlet device (2), of the air inlet circular pipe (403), the other end of the telescopic air pipe (406) is fixedly connected with the rotating ring (402) rotatably connected with the collecting box (3), the middle part of the coil outside the cleaning spring (404) is fixedly connected with an arc cleaning plate (407), and an arc sealing plate (408) is fixedly connected between the coils of the cleaning spring (404).

4. The abrasive cloth cleaning device according to claim 3, characterized in that: arc sealing fin (408) are to clearing up spring (404) inboard perk, and arc cleaning plate (407) are kept away from one of clearing up spring (404) and are served and evenly offered the bar groove, have certain space between swivel becket (402) and the pipe (403) of admitting air that are connected with collecting box (3), and arc cleaning plate (407) surface is the chemical fibre cloth material.

5. The abrasive cloth cleaning device according to claim 1, characterized in that: the adsorption mechanism (6) comprises a rotary column (601) which is fixedly connected with a driving support (7) and the driving support (7), wherein a convex block (602) is arranged on the rotary column (601), the top end of the rotary column (601) is connected with the convex block (602) in a sliding manner, a rotary belt (603) is arranged on the rotary column (601), the rotary belt (603) is arranged at the top end of the convex block (602), two ends of the convex block (602) are fixedly connected with a driver, the adsorption mechanism comprises an air inlet ring (604) at the top end of a circular tube at the bottom end of a second air inlet device (5), a connecting spring (605) is fixedly connected at the bottom end of the air inlet ring (604), a sliding hose (606) is fixedly connected at the bottom end of the connecting spring (605), a bent air pipe (607) is arranged in the sliding hose (606), a hollow cleaning plate (608) is fixedly connected at the bottom end of the sliding hose (606), a limiting spring (609) is arranged between the top end of the hollow cleaning plate (608) and the bottom end of the circular tube, limiting springs (609) are fixedly connected with the hollow cleaning plate (608) and the round pipe, and cleaning toothed plates (610) are uniformly and fixedly connected to the bottom end of the hollow cleaning plate (608).

6. The abrasive cloth cleaning device according to claim 5, characterized in that: there are the multistage turn on tortuous trachea (607), and it link up between slip hose (606) bottom and cavity cleaning plate (608) top to pass tortuous trachea (607) bottom, is equipped with the gas outlet on cavity cleaning plate (608) both ends turn, and cleaning toothed plate (610) and cavity cleaning plate (608) junction are equipped with the bar gap, and cleaning toothed plate (610) surface is the chemical fibre cloth material, is equipped with circular negative pressure mouth between cleaning toothed plate (610) bottom arc part.

Background

The sanded fabric product belongs to a functional product, namely, a layer of short fluff layer feeling is formed on the surface of the fabric while the original performance of the fabric is kept, the heat conductivity of the sanded fabric is reduced, the heat retention and the softness are increased while the new style of the fabric is endowed, and the sanded fabric product is striking in color and luster, soft in hand feeling and full and pleasant in appearance.

When carrying out the sanding processing to the cloth, the friction still can make the cloth produce a large amount of fine hair line balls on the surface when making the cloth produce the sanding effect between friction roller and the cloth to and the end of a thread that appears a large amount of partly drops on making the cloth links on the cloth surface, thereby influences the follow-up work of pressing ironing and dyeing to the cloth, and influences the off-the-shelf quality of cloth of output.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a sanded cloth cleaning device, which solves the problem that fluff and thread lumps on the surface of cloth and thread ends influence the subsequent processing of sanded cloth after the cloth is sanded.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a dull polish cloth cleaning device, comprising a base plate, air inlet unit, the collecting box, clearance mechanism, the second air inlet unit, adsorption apparatus constructs, the drive support, the batching device, bottom plate right side fixedly connected with air inlet unit, bottom plate right side fixedly connected with collecting box, be equipped with clearance mechanism between air inlet unit and the collecting box, clearance mechanism left side and air inlet unit fixed connection, the bottom plate right-hand member is equipped with the second air inlet unit, the second air inlet unit bottom is equipped with adsorption apparatus and constructs, adsorption apparatus left and right sides fixedly connected with drive support, drive support top and the second air inlet unit left and right sides fixed connection, drive support right-hand member is equipped with the batching device.

Preferably, the right side of the cleaning mechanism penetrates through the collecting box and the collecting box in a sliding connection mode, the top end of the adsorption mechanism is only connected with the bottom end of the second air inlet device, the middle of the adsorption mechanism is fixedly connected with the driving support, an arc-shaped groove is formed in the bottom end of the second air inlet device, a round pipe is evenly arranged on the arc-shaped groove, and the bottom end of the round pipe penetrates through the bottom end of the second device and is fixedly connected with the second air inlet device.

Preferably, the clearance mechanism includes the intake pipe that is close to top fixed connection with the air inlet unit inboard, the intake pipe middle part is equipped with circular opening, the inboard rotation of circular opening is connected with the swivel ring, the swivel ring is kept away from the one end of air inlet unit and is arranged in outside the intake pipe, the swivel ring middle part is equipped with the pipe that admits air, fixedly connected with clearance spring on the one side outside the intake pipe is arranged in to the swivel ring, clearance spring other end fixedly connected with swivel ring, the swivel ring with pass collecting box and collecting box sliding connection, fixedly connected with rotating fan blade between pipe and the swivel ring admits air, the pipe that admits air keeps away from the one end fixedly connected with flexible trachea of air inlet unit, the flexible trachea other end and the swivel ring fixed connection who rotates with the collecting box to be connected, clearance spring outside coil middle part fixedly connected with arc clearance board, fixed connection arc gasket between the clearance spring coil.

Preferably, the arc gasket is to the inboard perk of clearance spring, and the bar groove has evenly been seted up to one of the clearance spring was kept away from to the arc clearance board, has certain space between the swivel becket of being connected with the collecting box and the pipe that admits air, and arc clearance board surface is the chemical fibre cloth material.

Preferably, the adsorption apparatus constructs including setting up and rotating the post at drive support and drive support fixed connection, be equipped with the lug on the rotation post, rotation capital end sliding connection has the lug, be equipped with the rotating band on the rotation post, the lug top is arranged in to the rotating band, the lug both ends and the fixed connection of drive, and the ring of admitting air on second air inlet unit bottom pipe top, admit air ring bottom end fixed connection has connecting spring, connecting spring bottom fixed connection has the slip hose, be equipped with tortuous trachea in the slip hose, slip hose bottom fixedly connected with cavity clearance board, cavity clearance board top and pipe are close to and are equipped with spacing spring between the bottom, spacing spring and cavity clearance board and pipe fixed connection, the even fixedly connected with clearance pinion rack in cavity clearance board bottom.

Preferably, there are the multistage turn on the tortuous trachea, and tortuous trachea bottom passes and link up between slip hose bottom and the cavity cleaning plate top, is equipped with the gas outlet on the department of turning at cavity cleaning plate both ends, and cleaning teeth board and cavity cleaning plate junction are equipped with the bar gap, and cleaning teeth board surface is the chemical fibre cloth material, is equipped with circular negative pressure mouth between the arc part of cleaning teeth board bottom.

(III) advantageous effects

(1) According to the invention, through the air inlet pipe, the rotating rings, the circular air inlet pipes, the cleaning springs and the arc-shaped cleaning plates which are arranged in the cleaning mechanism, when air flow enters the rotating rings, the air flow blows the rotating fan blades to rotate so as to rotate the cleaning springs, the cleaning springs rotate to drive the arc-shaped cleaning plates to rub with the surface of the cloth to generate static electricity to adsorb fluff lumps and dust on the surface of the cloth, and thus, the subsequent pressing, ironing and dyeing work on the sanded cloth is prevented from being influenced by the excessive fluff lumps and dust on the surface of the cloth.

(2) According to the invention, the rotating ring, the air inlet circular pipe, the cleaning spring, the rotating fan blade, the telescopic air pipe and the arc-shaped cleaning plates are arranged in the cleaning mechanism, so that the cleaning spring can extend under the action of air flow while rotating, and the air flow rapidly flows between the cleaning springs under the action of the arc-shaped sealing plates, so that negative pressure is generated between the arc-shaped sealing plates, and fluff thread ends between the arc-shaped cleaning plates are sucked between the cleaning springs, thereby collecting the cleaned fluff thread groups and dust, and preventing the fluff thread groups in the cleaning mechanism from being adhered to the surface of cloth.

(3) According to the cloth cleaning device, the rotating column and the protruding block which are arranged in the adsorption mechanism are used for enabling the rotating belt to arch the cloth upwards when the cloth is placed on the rotating belt so as to increase the distance between the sanding parts of the cloth, so that the cloth is convenient to clean, and the cleaning toothed plate enables the bottom end of the sliding hose to swing to drive the cleaning toothed plate to swing and friction between the bottom end of the sliding hose and the surface of the cloth to enhance the cleaning effect on the cloth when air flow passes through the circular tube through the sliding hose, the bent air pipe, the hollow cleaning plate and the limiting spring which are arranged in the adsorption mechanism.

(4) According to the invention, through the cleaning toothed plate, the hollow cleaning plate and the bent air pipe which are arranged in the adsorption mechanism, when air flow is exhausted through the air outlets at the corners of the two ends of the hollow cleaning plate, negative pressure is generated at the joint of the cleaning toothed plate and the hollow cleaning plate, so that the cleaned thread ends are adsorbed on the cleaning toothed plate, static electricity is generated on the cleaning toothed plate through continuous friction between the cleaning toothed plate and cloth to adsorb the thread ends in the cleaning thread ends, and the condition that the cleaned thread ends are adhered to the cloth to influence the subsequent ironing and dyeing work of the cloth is prevented.

Drawings

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

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

FIG. 3 is a side cross-sectional view of the cleaning mechanism of the present invention;

FIG. 4 is a schematic view of a rotating column according to the present invention;

fig. 5 is a schematic view of a cleaning toothed plate structure of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 3 at A according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 4 at B.

The cleaning device comprises a bottom plate 1, an air inlet device 2, a collecting box 3, a cleaning mechanism 4, an air inlet pipe 401, a rotating ring 402, an air inlet circular pipe 403, a cleaning spring 404, rotating fan blades 405, a telescopic air pipe 406, an arc cleaning plate 407, an arc sealing plate 408, a second air inlet device 5, an adsorption mechanism 6, a rotating column 601, a bump 602, a rotating belt 603, an air inlet ring 604, a connecting spring 605, a sliding hose 606, a zigzag air pipe 607, a hollow cleaning plate 608, a limiting spring 609, a cleaning toothed plate 610, a driving support 7 and a cloth rolling device 8.

Detailed Description

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

As shown in FIGS. 1-7, the embodiment of the invention provides a cleaning device for sanded cloth, which comprises a bottom plate 1, an air inlet device 2, a collecting box 3, a cleaning mechanism 4, a second air inlet device 5, an adsorption mechanism 6, a driving bracket 7, a cloth rolling device 8, wherein the right side of the bottom plate 1 is fixedly connected with the air inlet device 2, the right side of the bottom plate 1 is fixedly connected with the collecting box 3, the cleaning mechanism 4 is arranged between the air inlet device 2 and the collecting box 3, the left side of the cleaning mechanism 4 is fixedly connected with the air inlet device 2, the right end of the bottom plate 1 is provided with the second air inlet device 5, the bottom end of the second air inlet device 5 is provided with the adsorption mechanism 6, the left side and the right side of the adsorption mechanism 6 are fixedly connected with the driving bracket 7, the top end of the driving bracket 7 is fixedly connected with the left side and the right side of the second air inlet device 5, the right end of the driving bracket 7 is provided with the cloth rolling device 8, the right side of the cleaning mechanism 4 passes through the collecting box 3 and is connected with the collecting box 3 in a sliding manner, 6 tops of adsorption mechanism only with 5 bottoms of second air inlet unit, 6 middle parts of adsorption mechanism and drive support 7 fixed connection, 5 bottoms of second air inlet unit are equipped with the arc recess, evenly are equipped with the pipe on the arc recess, and 5 bottoms of second device and 5 fixed connection of second air inlet unit are passed to the pipe bottom.

The cleaning mechanism 4 comprises an air inlet pipe 401 fixedly connected with the inner side of the air inlet device 2 close to the top end, the middle part of the air inlet pipe 401 is provided with a circular opening, the inner side of the circular opening is rotatably connected with a rotating ring 402, one end of the rotating ring 402 far away from the air inlet device 2 is arranged outside the air inlet pipe 401, the middle part of the rotating ring 402 is provided with an air inlet circular pipe 403, one side of the rotating ring 402 arranged outside the air inlet pipe 401 is fixedly connected with a cleaning spring 404, the other end of the cleaning spring 404 is fixedly connected with the rotating ring 402, the rotating ring 402 is in sliding connection with the collecting box 3 through the collecting box 3, a rotating fan blade is fixedly connected between the air inlet circular pipe 403 and the rotating ring 402, one end of the air inlet circular pipe 403 far away from the air inlet device 2 is fixedly connected with a telescopic air pipe 406, the other end of the telescopic air pipe 406 is fixedly connected with the rotating ring 402 rotatably connected with the collecting box 3, and the middle part of a coil outside the cleaning spring 404 is fixedly connected with an arc cleaning plate 407, fixed connection arc sealing piece 408 between clearance spring 404 coil, arc sealing piece 408 is to the inboard perk of clearance spring 404, and arc cleaning plate 407 is kept away from one of clearance spring 404 and is served and evenly offered the bar groove, has certain space between swivel ring 402 and the pipe 403 of admitting air that is connected with collecting box 3, and arc cleaning plate 407 surface is the chemical fibre cloth material.

The adsorption mechanism 6 comprises a rotary column 601 fixedly connected with a driving support 7 and the driving support 7, the rotary column 601 is provided with a convex block 602, the top end of the rotary column 601 is connected with the convex block 602 in a sliding way, the rotary column 601 is provided with a rotary belt 603, the rotary belt 603 is arranged at the top end of the convex block 602, both ends of the convex block 602 are fixedly connected with a driver, the adsorption mechanism also comprises an air inlet ring 604 at the top end of the circular tube at the bottom end of the second air inlet device 5, the bottom end of the air inlet ring 604 is fixedly connected with a connecting spring 605, the bottom end of the connecting spring 605 is fixedly connected with a sliding hose 606, a zigzag air tube 607 is arranged in the sliding hose 606, the bottom end of the sliding hose 606 is fixedly connected with a hollow cleaning plate 608, a limit spring 609 is arranged between the top end of the hollow cleaning plate 608 and the bottom end of the circular tube, the limit spring 609 is fixedly connected with the hollow cleaning plate 608 and the circular tube, the bottom end of the hollow cleaning plate 608 is uniformly and fixedly connected with a cleaning toothed plate 610, and the zigzag air tube 607 has a plurality of turns, the bottom end of the zigzag air pipe 607 penetrates through the bottom end of the sliding hose 606 and is communicated with the top end of the hollow cleaning plate 608, air outlets are formed in turning positions of two ends of the hollow cleaning plate 608, a strip-shaped gap is formed in the connecting position of the cleaning toothed plate 610 and the hollow cleaning plate 608, the surface of the cleaning toothed plate 610 is made of chemical fiber cloth, and a circular negative pressure port is formed between arc-shaped portions of the bottom end of the cleaning toothed plate 610.

When the cleaning device is used, one end of cloth penetrates through the cleaning mechanism 4 and the adsorption mechanism 6 to be fixed to the lower portion of the middle of the cloth rolling device 8, the cloth rolling device 8 is started to drive the cloth to move in the cleaning mechanism 4 and the adsorption mechanism 6, when the cloth passes through the cleaning mechanism 4, the air supply device is started to inject air into the air inlet pipe 401, the air entering the air inlet pipe 401 blows the rotating fan blades 405 to rotate between the rotating ring 402 and the air inlet circular pipe 403, so that the rotating fan blades 405 rotate, the rotating fan blades 405 rotate to drive the rotating ring 402 and the air inlet circular pipe 403 to rotate, the cleaning spring 404 is driven when the rotating ring 402 and the air inlet circular pipe 403 rotate, the arc cleaning plate 407 and the arc sealing plate 408 rotate, when the cleaning spring 404 drives the arc cleaning plate 407 to rotate on the cloth, and therefore friction between the arc cleaning plate 407 and the surface of the cloth enables static electricity to be generated on the arc cleaning plate 407 to carry out dust and floss clusters on the cloth Adsorbing to clean the cloth surface, and when air enters into the air inlet circular tube 403, the air flow entering into the air inlet circular tube 403 enters into the telescopic air tube 406 through the air inlet circular tube 403 to extend the telescopic air tube 406 towards the direction of the collecting box 3, so that the cleaning spring 404 is continuously extended in the rotating process to push the arc cleaning plate 407 and perform longitudinal friction on the cloth surface, the fluff coil on the cloth surface is collected into the inner side of the arc cleaning plate 407, meanwhile, when the cleaning spring 404 is extended, the gap between the cleaning springs 404 is increased, because the air rapidly flows between the cleaning springs 404, and the arc sealing piece 408 which is tilted towards the inner side of the cleaning spring 404 is matched to enable negative pressure to be generated in the gap between the arc sealing pieces 408 when the air flow rapidly flows in the cleaning springs 404, so that the dust and the fluff coil between the inner side of the arc cleaning plate 407 and the arc cleaning plate 407 are sucked into the gap between the cleaning springs 404 and matched with the flow of the air flow, and the air flow can be further fed into the gap between the cleaning springs 404 The dust and the fluff lumps which have entered between the cleaning springs 404 are blown into the collecting box 3, thereby cleaning the fluff lumps and the dust which are generated when the cloth is sanded on the surface of the cloth.

When the cloth rolling device 8 drags the cloth to the bottom end of the second air supply device, the rotating bracket is started to drive the rotating column 601 to rotate to drive the rotating belt 603 to rotate, the rotating belt 603 is enabled to be protruded upwards under the action of the bump 602, so that the cloth passing through the top end of the second air supply device is arched, the gap between the sanding parts of the cloth is increased, the thread end on the cloth is convenient to clean, meanwhile, the second air supply device is started to charge the air into the circular tube, the air entering the circular tube pushes the sliding hose 606 to slide downwards along the inner wall of the circular tube due to the small air flow velocity at the opening end of the zigzag air tube 607, so that the bottom end of the cleaning toothed plate 610 can be tightly attached to the surface of the cloth, the friction between the cleaning toothed plate 610 and the cloth is matched with the movement of the cloth to clean the thread end on the cloth, and when the air flow passes through the zigzag air tube 607, the zigzag air tube 607 is arranged in a plurality of sections, when the air flow passes through the zigzag air pipe 607, the air flow impacts the bent part of the zigzag air pipe 607 so as to continuously swing the bottom end of the sliding hose 606, so that the bottom end of the hollow cleaning plate 608 continuously swings to drive the cleaning toothed plate 610 to perform friction cleaning on the surface of the cloth so as to remove the residual thread end on the surface of the cloth, the cleaning effect is enhanced, the cleaning toothed plate 610 carries static electricity through the friction between the cleaning toothed plate 610 and the surface of the cloth, so that the cleaned thread end can be adsorbed on the cleaning toothed plate 610 to prevent the thread end cleaned from the cloth from being adhered on the cloth to influence the cleaning effect of the cloth, the air flow entering the hollow cleaning plate 608 is discharged through openings at the corners at the left and right ends of the hollow cleaning plate 608, the air rapidly flows in the hollow cleaning plate 608 so that negative pressure is generated on the strip-shaped gap when the air passes through the strip-shaped gap between the hollow cleaning plate 608 and the cleaning toothed plate 610, the lower head to be cleaned is adsorbed at the circular negative pressure port on the cleaning toothed plate 610, so that the adsorption effect of the cleaning toothed plate 610 on the thread ends is enhanced.