CN117166163A - Auxiliary washing device for fabric processing - Google Patents

Abstract

The invention relates to the field of textile fabrics, in particular to an auxiliary washing device for textile processing. The novel fabric winding device comprises a water tank, a first connecting frame, a second connecting frame, a hollow tube, an extrusion assembly, a rotation assembly and the like, wherein the first connecting frame and the second connecting frame are arranged in the water tank, the hollow tubes are provided with two groups, the two groups are respectively and slidably connected in the first connecting frame and the second connecting frame, the extrusion assembly is used for moving the extrusion hollow tube to clamp the end part of the fabric, and the rotation assembly is used for driving the first connecting frame to rotate and wind the fabric onto the hollow tube in the first connecting frame. According to the invention, through the cooperation of the extrusion assembly, the rotation assembly, the unfolding assembly and the water spraying pipe, the washed fabric can be automatically transferred on the movable pipe and repeatedly washed, so that the manual material transferring is not needed, the working efficiency can be improved, the cost of washing equipment can be saved by using a repeated washing mode, the whole structure is smaller, and the occupied area is smaller.

Description

Auxiliary washing device for fabric processing

Technical Field

The invention relates to the field of textile fabrics, in particular to an auxiliary washing device for textile processing.

Background

The fabric processing is a process which relates to a plurality of fields of textile, dyeing and finishing, printing and the like, and in the process, water washing is a very important process, and impurities, stains, grease and the like on the surface of the fabric can be removed, so that the fabric meets the requirements of cleaning, softness, luster and the like.

When the fabric is washed, the surface of the unfolded fabric is usually repeatedly washed by using open-width washing equipment. However, when the existing open-width washing equipment is used, the fabric is unfolded manually and wound on the surfaces of a plurality of rollers in the washing equipment, and then the end part of the fabric is pulled by a traction device arranged at the tail end of the washing equipment, so that the fabric can pass through the inside of the washing equipment, and the surface of the fabric is washed by a washing device. Because the washing equipment is in the mobile state when washing the fabric, so the washing time of the same place on the fabric surface is shorter, can lead to wasing uncleanly. At present, the problems are generally solved by washing the surface of the fabric for multiple times or adding washing equipment, but when the surface of the fabric is required to be washed for multiple times, the washed fabric is required to be manually conveyed to the head end of the washing equipment again, then the fabric is unfolded and wound on the surfaces of a plurality of rollers in the washing equipment, and then the end part of the fabric is pulled to the traction equipment, so that the whole operation is complex, and the working efficiency is lower; when the water washing equipment is added to wash the surface of the fabric, the water washing equipment needs to be arranged along the moving direction of the fabric, so that the length of the whole equipment is increased, the occupied area is large, and the cost is high.

Disclosure of Invention

In view of the above, the invention provides an auxiliary washing device for fabric processing, which can solve the defects of lower working efficiency and larger occupied area of the existing washing equipment when the fabric is washed.

The technical scheme of the invention is as follows:

the utility model provides an auxiliary washing device is used in fabric processing, includes water tank, case lid and spray pipe, still including connecting frame one, connecting frame two, hollow tube, extrusion subassembly, rotating assembly and expansion subassembly, be equipped with connecting frame one and two connecting frame two in the water tank, the hollow tube is provided with two sets of, two sets of hollow tube sliding connection respectively in connecting frame one and connecting frame two, extrusion subassembly is used for extruding the hollow tube removal to press from both sides fabric tip tightly, so as to fix fabric one end hollow tube department in connecting frame one, rotating assembly is used for driving connecting frame one to rotate on the hollow tube in connecting frame one, then control rotating assembly drive connecting frame two rotates to connecting frame below, can make hollow tube in connecting frame two clamps the other end of fabric, and the control is rotated assembly drive connecting frame two and is reversed the reset, expansion subassembly is used for driving connecting frame two and removes the fabric expansion, then control hollow tube in rotating connecting frame two rotates the fabric and carries out the rolling to the fabric, simultaneously the pipe can carry out the fabric one end with fixing in the connecting frame one in order to carry out the hollow tube department in the connecting frame one, then control the rotating assembly is rotated to the connecting frame one and is rotated down again and is connected to the one side of fabric.

Further, the extrusion assembly comprises a servo motor and a grooved rotating plate, the servo motor is respectively arranged in the first connecting frame and the second connecting frame, the grooved rotating plate is connected with an output shaft of the servo motor so as to drive the grooved rotating plate to rotate, and the end part of the hollow pipe is in sliding fit with the grooved rotating plate so that the grooved rotating plate can rotate to extrude the hollow pipe to move to clamp the end part of the fabric.

Further, the unfolding assembly comprises an electric sliding rail, an annular sliding frame and an arc sliding frame, wherein the electric sliding rail is symmetrically arranged on the inner wall of the water tank, the annular sliding frame and the arc sliding frame are in sliding connection with the water tank, the two connecting frames are respectively and rotatably arranged on the annular sliding frame and the arc sliding frame, and the electric sliding rail is used for driving the annular sliding frame and the arc sliding frame to move so as to drive the connecting frames to move for unfolding the fabric.

Further, rotating assembly is including gear motor, connecting plate one, connecting plate two and drive assembly, two gear motor all installs in the water tank outside, one of them gear motor's output shaft is last to install connecting plate one, arc balladeur train and connecting plate one contact cooperation, can drive arc balladeur train synchronous rotation when connecting plate one rotates, in order to drive connecting frame two rotates to connecting frame below, another gear motor's output shaft is last to install connecting plate two, connecting frame is rotated and is installed on connecting plate two, so that can drive connecting frame synchronous rotation to connecting frame two below when making connecting plate two rotate, drive assembly is used for driving connecting frame one and connecting frame two and rotates, in order to wind the fabric to the hollow tube.

Further, the rotating assembly further comprises a locking rod, and the water tank is connected with the locking rod for locking the arc-shaped sliding frame and the first connecting plate.

Further, the water tank comprises a dewatering component, wherein the dewatering component comprises a lifting platform and a plurality of extrusion barrels, the lifting platform is arranged at the inner bottom of the water tank, the extrusion barrels are respectively rotatably arranged on the tank cover and the lifting platform, and the lifting platform is used for driving the extrusion barrels at the lower side to move upwards to jack up fabrics so that the extrusion barrels can clamp the fabrics and extrude water adsorbed by the fabrics in the moving process of the fabrics.

Further, the fabric stretching device comprises a stretching assembly, the stretching assembly comprises a telescopic pipe and a stretching plate, the stretching plate is connected to the side face of the hollow pipe on the first connecting frame through the telescopic pipe, so that the stretching plate can rotate along with the hollow pipe on the first connecting frame to roll the fabric, the stretching plate is in sliding connection with the first connecting frame, the end portion of the stretching plate is in sliding fit with the grooved rotating plate, the grooved rotating plate can drive the stretching plate to move to stretch or relax the rolled fabric, and the stretching plate can take out the rolled fabric when relaxing the rolled fabric.

Further, the opening assembly further comprises an arc-shaped cylinder, a hose and a piston rod, wherein the arc-shaped cylinder is symmetrically connected in the first connecting frame, two ends of the hose are respectively communicated with the arc-shaped cylinder and the hollow tube on the first connecting frame, the piston rod is in sliding connection with the arc-shaped cylinder, the piston rod is fixedly connected with the grooved rotating plate, the grooved rotating plate can rotate to drive the piston rod to slide in the arc-shaped cylinder, and air can circulate in the arc-shaped cylinder and the hollow tube through the hose to assist the opening plate to move.

Further, the novel fabric winding machine further comprises a pushing assembly, the pushing assembly comprises a rodless cylinder, a friction plate, a magnetic ring and a movable cover, the rodless cylinder is arranged in the water tank, the friction plate is connected to a sliding block of the rodless cylinder to drive the friction plate to move, the magnetic ring is connected to the first connecting frame, the movable cover is arranged on the magnetic ring, and when the friction plate moves to the movable cover, the movable cover can be clamped and driven to synchronously move, so that the movable cover is separated from the magnetic ring, and the movable cover can push out the wound fabric.

Further, the washing machine also comprises a liquid spraying assembly, wherein the liquid spraying assembly comprises a liquid containing box, a water pump and a liquid spraying pipe, the liquid containing box is connected to the side face of the water tank, the liquid spraying pipe is connected to the box cover, and the water pump is used for extracting and transmitting detergent in the liquid containing box into the liquid spraying pipe so that the liquid spraying pipe can spray the detergent to the surface of the fabric to perform auxiliary water washing.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, through the cooperation of the extrusion assembly, the rotation assembly, the unfolding assembly and the water spraying pipe, the washed fabric can be automatically transferred on the movable pipe and repeatedly washed, so that the manual material transferring is not needed, the working efficiency can be improved, the cost of washing equipment can be saved by using a repeated washing mode, the whole structure is smaller, and the occupied area is smaller.

2. According to the invention, the extrusion cylinder is arranged, so that the extrusion cylinder can roll the washed fabric, thereby extruding the water adsorbed by the washed fabric, and further facilitating the rolling and discharging of the washed fabric.

3. According to the invention, the movable pipe on the first connecting frame can roll the fabric on the spreader plate by arranging the spreader plate, and then the rolled fabric is loosened by the spreader plate, so that people can draw the cleaned whole roll of fabric forwards from the spreader plate, and the whole roll of fabric can be discharged conveniently and rapidly by people.

4. According to the invention, the friction plate is matched with the movable cover, so that the friction plate can push the whole roll of fabric forwards from the opening plate through the movable cover, and the automatic pushing of the whole roll of fabric is realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the extrusion assembly of the present invention.

Fig. 3 is a schematic perspective view of the unfolding assembly and the rotating assembly according to the present invention.

Fig. 4 is a schematic perspective view of the first connecting plate, the second connecting plate and the driving assembly according to the present invention.

Fig. 5 is a schematic view showing a separated three-dimensional structure of an arc-shaped carriage and a first connecting plate.

Fig. 6 is a schematic perspective view of a dewatering module according to the present invention.

Fig. 7 is a schematic perspective view of the distractor assembly of the present invention.

Fig. 8 is a cross-sectional view of the distractor assembly of the present invention.

Fig. 9 is a schematic perspective view of a pushing assembly according to the present invention.

FIG. 10 is a schematic perspective view of a spray assembly according to the present invention.

In the reference numerals: the device comprises a water tank, a 2-box cover, a 3-water spraying pipe, a 4-connecting frame I, a 5-connecting frame II, a 6-hollow pipe, a 7-servo motor, an 8-grooved rotating plate, a 9-electric sliding rail, a 10-annular sliding frame, an 11-arc sliding frame, a 12-speed reducing motor, a 13-connecting plate I, a 131-connecting plate II, a 132-driving component, a 14-locking rod, a 15-lifting platform, a 16-extrusion cylinder, a 17-telescopic pipe, a 18-expanding plate, a 19-arc cylinder, a 20-hose, a 21-piston rod, a 22-rodless cylinder, a 23-friction plate, a 24-magnetic ring, a 25-movable cover, a 26-liquid filling box, a 27-water pump and a 28-liquid spraying pipe.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

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

Examples: the auxiliary water washing device for fabric processing is shown with reference to fig. 1-6, and comprises a water tank 1, a tank cover 2 and water spraying pipes 3, wherein the tank cover 2 is rotatably arranged at the rear part of the upper side of the water tank 1, the tank cover 2 can be rotated up and down to be opened or closed, the number of the water spraying pipes 3 is three, one water spraying pipe 3 on the upper side is arranged at the right part of the tank cover 2, two water spraying pipes 3 on the lower side are arranged in the water tank 1, the auxiliary water washing device further comprises a first connecting frame 4, a second connecting frame 5, a hollow pipe 6, an extrusion assembly, a rotating assembly and an unfolding assembly, the first connecting frame 4 and two second connecting frames 5 are arranged in the water tank 1, the first connecting frame 4 and the second connecting frames 5 are both composed of rotating frames and guide rods, the guide rods are connected to the inner sides of the rotating frames, the hollow pipes 6 are provided with two groups, the hollow pipes 6 of each group are respectively connected to the guide rods in the first connecting frames 4 and the second connecting frames 5 in a sliding manner, so as to guide the hollow pipes 6; the extrusion assembly is used for extruding two hollow pipes 6 in the same group to move towards one side close to each other, so that the hollow pipes 6 can clamp one end of a fabric, one end of the fabric is fixed at the hollow pipe 6 in the first connecting frame 4, the rotation assembly is used for driving the first connecting frame 4 to rotate, so that the fabric is wound on the hollow pipe 6 in the first connecting frame 4, then the rotation assembly is controlled to drive the second connecting frame 5 to rotate below the first connecting frame 4, under the cooperation of the extrusion assembly, the hollow pipe 6 in the second connecting frame 5 can clamp the other end of the fabric, then the rotation assembly is controlled to drive the second connecting frame 5 to reversely reset, the unwinding assembly is used for driving the second connecting frame 5 to move rightwards to unwind the fabric, then the rotation assembly is controlled to drive the hollow pipe 6 in the second connecting frame 5 to rotate so as to wind the fabric, and the water spraying pipe 3 can flush the fabric, then the second connecting frame 5 is driven to move leftwards and reset through the unwinding assembly, and then the rotation assembly is controlled to drive the first connecting frame 4 to rotate below the first connecting frame 5, so that the first connecting frame 4 can clamp one end of the fabric again through the automatic extrusion assembly; so, through extrusion subassembly, rotating assembly, expansion subassembly and spray pipe 3 cooperation, can make the fabric after washing automatic transfer and repeated washing on movable pipe 6 to need not the manual material that changes of manual work, can improve work efficiency, and utilize the mode of repeated washing, can save the cost of washing equipment, make overall structure less, area is less.

Referring to fig. 2, the extrusion assembly includes a servo motor 7 and a grooved rotating plate 8, the servo motor 7 is provided with three, and the three servo motors 7 are respectively connected in the first connecting frame 4 and the second connecting frames 5, the grooved rotating plate 8 is connected with an output shaft of the servo motor 7 so as to drive the grooved rotating plate 8 to rotate, two arc grooves are formed in one side, close to the movable tube 6, of the grooved rotating plate 8, the end part of the movable tube 6 can slide in the arc grooves, so that when the grooved rotating plate 8 rotates, the movable tube 6 can be extruded by the arc grooves to slide along the guide rods, and when two movable tubes 6 in the same group move towards one side, which is close to each other, the end part of the fabric can be clamped.

Referring to fig. 3, the unfolding assembly comprises an electric sliding rail 9, an annular sliding frame 10 and an arc sliding frame 11, wherein the two electric sliding rails 9 are symmetrically connected to the inner wall of the water tank 1, sliding grooves are symmetrically formed in the front and back of the inner wall of the water tank 1, each sliding groove is formed by a straight groove and a curved groove, one end of each straight groove is communicated with one end of each curved groove, the annular sliding frame 10 and the arc sliding frame 11 respectively slide in the sliding grooves on the front side and the back side, the two connecting frames 2 are respectively rotatably installed on the annular sliding frame 10 and the arc sliding frame 11, the electric sliding rail 9 is used for driving the annular sliding frame 10 and the arc sliding frame 11 to horizontally slide in the straight grooves, and when the connecting frames 2 move rightwards, the hollow pipes 6 on the connecting frames 2 can pull fabrics to unfold.

Referring to fig. 3, fig. 4 and fig. 5, the rotating assembly includes a gear motor 12, a first connecting plate 13, a second connecting plate 131 and a driving assembly 132, two gear motors 12 are all connected to the side of the water tank 1, the first connecting plate 13 is connected to the output shaft of the left gear motor 12, referring to fig. 5, a transverse slot for the end portion of the arc-shaped sliding frame 11 to be inserted is formed in the first connecting plate 13, so that the arc-shaped sliding frame 11 can be inserted into the transverse slot when moving leftwards, the first connecting plate 13 can be driven to synchronously rotate when rotating, so as to drive the arc-shaped sliding frame 11 to rotate along the curved slot of the inner wall of the water tank 1, and drive the second connecting frame 5 to rotate below the first connecting frame 4, the second connecting plate 131 is connected to the output shaft of the right gear motor 12, the first connecting frame 4 is rotatably mounted on the second connecting plate 131, the driving assembly 132 is composed of a motor, a gear and a gear, the two motors are respectively connected to the second connecting plates 131, the first connecting frame and the gear frame 5 are rotatably meshed with the first connecting frame and the second connecting frame 5, and the second connecting frame 4 are rotatably meshed with the hollow frame 4.

Referring to fig. 3 and 5, the rotating assembly further includes a locking lever 14, the inner side of the water tank 1 is connected with the locking lever 14 for locking the arc-shaped carriage 11 and the first connecting plate 13, referring to fig. 5, the first connecting plate 13 and the first arc-shaped carriage 11 are provided with clamping grooves, when the first connecting plate 13 drives the first arc-shaped carriage 11 to rotate synchronously, the locking lever 14 can be inserted into the clamping grooves, so that the first arc-shaped carriage 11 can be locked on the first connecting plate 13, so that the first arc-shaped carriage 11 can be fixed, and when the first arc-shaped carriage 11 rotates to a vertical state, the first arc-shaped carriage 11 can be prevented from being separated from the first connecting plate 13.

When in use, the water hose is communicated with the water spraying pipe 3, the corresponding grooved rotating plate 8 is driven to rotate by the servo motor 7 in the first connecting frame 4, the grooved rotating plate 8 presses the hollow pipe 6 on the first connecting frame 4 to move to the far side, one end of the fabric is placed on the hollow pipe 6 on the first connecting frame 4, the corresponding grooved rotating plate 8 is driven to rotate reversely by the servo motor 7 in the first connecting frame 4, the grooved rotating plate 8 presses the hollow pipe 6 on the first connecting frame 4 to move to the near side, the hollow pipe 6 on the first connecting frame 4 clamps one end of the fabric, the first connecting frame 4 is driven to rotate anticlockwise by the driving component 132, the hollow pipe 6 on the first connecting frame 4 winds the fabric, the other end of the wound fabric sags downwards due to gravity, the cover 2 is closed, then the corresponding grooved rotating plate 8 is driven to rotate by the servo motor 7 in the connecting frame two 5, the grooved rotating plate 8 extrudes the hollow tube 6 on the connecting frame two 5 to move to the side far away from each other, then the first connecting plate 13 is driven to rotate by the gear motor 12, the first connecting plate 13 drives the connecting frame two 5 to rotate to the lower part of the first connecting frame 4 by the arc-shaped sliding frame 11, the hollow tube 6 in the connecting frame two 5 is positioned at the left and right sides of the other end of the fabric, the arc-shaped sliding frame 11 and the first connecting plate 13 are locked by the locking rod 14 during the locking process, so as to fix the arc-shaped sliding frame 11, then the corresponding grooved rotating plate 8 is driven to rotate reversely by the servo motor 7 in the connecting frame two 5, the hollow tube 6 on the connecting frame two 5 is extruded to move to the side close to each other by the grooved rotating plate 8, so that the hollow tube 6 in the connecting frame two 5 clamps the other end of the fabric, and the first connecting plate 13 is driven to rotate reversely by the gear motor 12, the connecting plate I13 drives the connecting frame II 5 to reversely reset through the arc-shaped sliding frame 11, then drives the annular sliding frame 10, the arc-shaped sliding frame 11 and the connecting frame II 5 to move rightwards through the sliding blocks of the electric sliding rail 9, so that the hollow tube 6 on the connecting frame II 5 pulls the other end of the fabric to move rightwards, the hollow tube 6 on the connecting frame II 5 pulls the fabric to be unfolded, then clear water is conveyed into the water spraying pipe 3, the water spraying pipe 3 sprays clear water on the unfolded fabric, the unfolded fabric is washed, then the driving component 132 drives the connecting frame II 5 to rotate clockwise, the hollow tube 6 on the connecting frame II 5 winds the fabric, so that the fabric wound by the hollow tube 6 on the connecting frame I4 is completely unfolded and washed, after the fabric wound by the hollow tube 6 on the connecting frame I4 is completely unfolded and washed, the washed fabric is fully rolled on the hollow tube 6 on the connecting frame two 5, one end of the rolled fabric is sagged downwards due to gravity, then the annular sliding frame 10, the arc sliding frame 11 and the connecting frame two 5 are driven by the sliding blocks of the electric sliding rail 9 to move leftwards and reset, the hollow tube 6 on the connecting frame two 5 drives the washed fabric leftwards, the corresponding grooved rotating plate 8 is driven by the servo motor 7 in the connecting frame one 4 to rotate, the grooved rotating plate 8 extrudes the hollow tube 6 on the connecting frame one 4 to move towards the side far away from each other, the connecting plate two 131 and the connecting frame one 4 are driven by the speed reducing motor 12 to rotate, the connecting frame one 4 is driven to rotate below the connecting frame two 5, the hollow tube 6 in the connecting frame one 4 is positioned at the left side and the right side of one end of the fabric, the corresponding grooved rotating plate 8 is driven by the servo motor 7 in the connecting frame one 4 to rotate reversely, the grooved rotating plate 8 is used for extruding the hollow tube 6 on the first connecting frame 4 to move towards one side close to each other, so that the hollow tube 6 on the first connecting frame 4 clamps one end of a fabric, then the second connecting plate 131 and the first connecting frame 4 are driven by the gear motor 12 to reversely reset, the first connecting frame 4 is driven by the driving component 132 to rotate anticlockwise, the cleaned fabric gradually leaves from the hollow tube 6 on the second connecting frame 5, the hollow tube 6 on the first connecting frame 4 is used for winding the cleaned fabric, the other end of the wound fabric falls downwards due to gravity, the operation is repeated, the fabric can be repeatedly unfolded and washed, the fabric is automatically washed for multiple times, after the fabric is washed for multiple times, the box cover 2 is reversely opened, the other end of the fabric is pulled, and the fabric after the fabric is washed for multiple times is pulled out of the hollow tube 6 on the first connecting frame 4.

Referring to fig. 1 and 6, the dewatering assembly further comprises a dewatering assembly, the dewatering assembly comprises a lifting platform 15 and an extrusion cylinder 16, the lifting platform 15 is composed of four electric push rods and lifting plates, the four electric push rods are connected to the inner bottom of the water tank 1 in a bolt mode at intervals, the lifting plates are connected between the telescopic rods of the four electric push rods to drive the lifting plates to lift, two water spraying pipes 3 on the lower side are connected to the lifting plates, detachable electric hairbrushes are installed on the lifting plates and the tank cover 2 at intervals, the fabrics can be brushed in the water washing process of the fabrics through rotation of the electric hairbrushes, the four extrusion cylinders 16 are respectively and rotatably installed on the tank cover 2 and the lifting plates, when the tank cover 2 is turned down to be closed, the upper side of the extrusion cylinder 16 can be driven to move down, when the lifting plates are lifted, the lower side of the extrusion cylinder 16 can be driven to move up, the upper side and lower side of the extrusion cylinder 16 can clamp the fabrics, and water adsorbed by the fabrics can be extruded in the fabric moving process.

When the hollow tube 6 on the second connecting frame 5 pulls and expands the fabric, people can drive the lower extrusion cylinder 16 to move upwards through the lifting platform 15, when the lower extrusion cylinder 16 contacts with the expanded fabric, the lower extrusion cylinder 16 can push the expanded fabric to move upwards, so that the expanded fabric contacts with the upper extrusion cylinder 16, when the hollow tube 6 on the second connecting frame 5 winds the fabric, the water absorbed by the washed fabric can be extruded through the rolling of the extrusion cylinder 16, and when the fabric is washed, the fabric in the washing process can be scrubbed through the electric brush; if the fabric is not required to be brushed, the electric hairbrush can be disassembled before the fabric is cleaned.

Referring to fig. 1 and 7, the fabric winding device further comprises a spreading assembly, the spreading assembly comprises a telescopic pipe 17 and a spreading plate 18, the spreading plate 18 is connected to one side of the hollow pipe 6 on the first connecting frame 4, which is far away from each other, through the telescopic pipe 17, so that the spreading plate 18 can rotate along with the hollow pipe 6 on the first connecting frame 4 to wind the fabric, the rear end of the spreading plate 18 is slidably connected with a guide rod on the first connecting frame 4, two guide grooves are formed in the front side of the grooved rotating plate 8 in the first connecting frame 4, the rear end of the spreading plate 18 can slide in the guide grooves, so that the grooved rotating plate 8 rotates, the spreading plate 18 can be extruded along the guide rods through the guide grooves to stretch or relax the wound fabric, and people can conveniently take out the wound fabric when the spreading plate 18 relaxes the wound fabric.

Referring to fig. 7 and 8, the opening assembly further comprises an arc tube 19, a flexible tube 20 and a piston rod 21, wherein the upper side and the lower side of the inside of the first connecting frame 4 are respectively connected with the arc tube 19, the flexible tube 20 is respectively connected between the arc tube 19 and the hollow tube 6 on the first connecting frame 4, the piston rod 21 is respectively connected with the piston rod 21 in the arc tube 19 in a sliding manner, and the piston rod 21 is fixedly connected with the grooved rotating plate 8 in the first connecting frame 4, so that the grooved rotating plate 8 can rotate to drive the piston rod 21 to slide in the arc tube 19, and air can circulate in the inside of the arc tube 19, the inside of the hollow tube 6 and the inside of the telescopic tube 17 through the flexible tube 20, thereby assisting the telescopic tube 17 to support the opening plate 18.

When the hollow tube 6 on the first connecting frame 4 is used for winding fabrics, the hollow tube 6 on the first connecting frame 4 can be used for winding the fabrics on the expansion plate 18, when people need to take down the fabrics after washing for many times from the hollow tube 6 on the first connecting frame 4, the servo motor 7 in the first connecting frame 4 can drive the corresponding grooved rotating plate 8 to rotate, the grooved rotating plate 8 extrudes the corresponding hollow tube 6 to move towards one side far away from each other, thereby the hollow tube 6 on the first connecting frame 4 releases one end of the fabrics, the grooved rotating plate 8 can extrude the expansion plate 18 to move towards one side close to each other, the expansion plate 17 is contracted, the expansion plate 18 is further loosened to wind the fabrics, the grooved rotating plate 8 can also drive the piston rod 21 to rotate, negative pressure is formed in the arc-shaped cylinder 19, thereby the arc-shaped cylinder 19 can draw out the air in the expansion plate 17 through the hose 20 and the hollow tube 6, people can forward draw out the whole-shaped fabrics after the whole-shaped fabrics are cleaned, afterwards, the servo motor 7 in the connecting frame 4 drives the corresponding grooved rotating plate 8 to release one end of the fabrics, the grooved rotating plate 8 can drive the grooved rotating plate 8 to move towards one side close to each other, the expansion plate 18 is further moved towards one side close to the expansion plate 18, and the expansion plate 18 is further moved towards one side close to the expansion plate 18 is further moved towards the expansion plate 18, and the expansion plate is further moved towards the expansion plate 18.

Referring to fig. 1 and 9, the material pushing device further comprises a material pushing component, the material pushing component comprises a rod-free air cylinder 22, a friction plate 23, a magnetic ring 24 and a movable cover 25, the rod-free air cylinder 22 is bolted on the inner side of the water tank 1, the friction plate 23 is connected to a sliding block of the rod-free air cylinder 22 to drive the friction plate 23 to move, the magnetic ring 24 is connected to the inner side of the connecting frame one 4, the movable cover 25 is adsorbed on the magnetic ring 24 through magnetic force, the movable cover 25 is made of iron, an annular groove is formed in the outer ring of the rear side of the movable cover 25, and when the friction plate 23 moves forwards to the position of the movable cover 25, the friction plate 23 can be clamped into the annular groove of the movable cover 25 and drives the movable cover 25 to move synchronously, so that the movable cover 25 and the magnetic ring 24 are separated, and the movable cover 25 can push the rolled fabric forwards.

When people need to draw out the washed whole roll of fabric forwards from the spreader plate 18, the friction plate 23 can be driven by the sliding block of the rodless cylinder 22 to move forwards, when the friction plate 23 is in contact with the movable cover 25, the friction plate 23 can be embedded into the movable cover 25 and drive the movable cover 25 to move forwards, the movable cover 25 is separated from the magnetic ring 24, when the movable cover 25 is in contact with the washed whole roll of fabric, the movable cover 25 can push the washed whole roll of fabric forwards from the spreader plate 18, so that the washed whole roll of fabric is pushed out automatically, then the friction plate 23 is driven by the sliding block of the rodless cylinder 22 to move backwards for resetting, so that the friction plate 23 drives the movable cover 25 to move backwards for resetting through friction force, and then the movable cover 25 is in contact with the magnetic ring 24, so that the magnetic ring 24 sucks the movable cover 25 through magnetic force and limits the movable cover 25, and when the friction plate 23 continues to move backwards for resetting, the friction plate 23 can leave from the movable cover 25.

Referring to fig. 1 and 10, the washing machine further comprises a liquid spraying assembly, the liquid spraying assembly comprises a liquid containing tank 26, a water pump 27 and a liquid spraying pipe 28, the liquid containing tank 26 is connected to the rear side of the water tank 1, the liquid spraying pipe 28 is communicated with the tank cover 2, the water pump 27 is arranged at the top of the water tank 1, a water inlet of the water pump 27 is communicated with the liquid containing tank 26, a water outlet of the water pump 27 is communicated with the liquid spraying pipe 28, and the water pump 27 pumps out detergent in the liquid containing tank 26 and transmits the detergent into the liquid spraying pipe 28, so that the liquid spraying pipe 28 can spray the detergent onto the surface of a fabric to perform auxiliary water washing.

When the washing machine is used, a person can add the detergent into the liquid containing box 26, and when the person needs to add the detergent into the washed fabric, the detergent in the liquid containing box 26 can be pumped into the spraying pipe 28 through the water pump 27, so that the spraying pipe 28 sprays the detergent on the washed fabric, and the automatic addition of the detergent onto the washed fabric is realized, and the fabric is further assisted in washing.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The auxiliary water washing device for fabric processing comprises a water tank (1), a tank cover (2) and a water spraying pipe (3), and is characterized by further comprising a first connecting frame (4), a second connecting frame (5), a hollow pipe (6), a squeezing component, a rotating component and an unfolding component, wherein the first connecting frame (4) and the second connecting frame (5) are arranged in the water tank (1), the hollow pipe (6) is provided with two groups, the two groups of hollow pipes (6) are respectively and slidably connected in the first connecting frame (4) and the second connecting frame (5), the squeezing component is used for squeezing the end parts of the hollow pipes (6) to clamp the fabric, one end of the fabric is fixed at the hollow pipe (6) in the first connecting frame (4), the rotating component is used for driving the hollow pipe (6) in the first connecting frame (4) to rotate and wind the fabric, then the rotating component is controlled to drive the second connecting frame (5) to rotate below the first connecting frame (4), the hollow pipe (6) in the connecting frame (5) can be enabled to slide and the other end part of the hollow pipe (6) in the connecting frame (5) to rotate and then control the rotating component to rotate and the hollow pipe (5) to be reversely rotated and controlled to clamp the fabric in the second connecting frame (5), meanwhile, the water spraying pipe (3) can spray water to flush the fabric, then the connection frame II (5) is driven to move and reset by the unfolding assembly, and the rotation assembly is controlled to drive the connection frame I (4) to rotate below the connection frame II (5), so that the hollow pipe (6) in the connection frame I (4) can clamp one end of the fabric again, and the fabric is automatically rewound.

2. An auxiliary washing device for fabric processing according to claim 1, wherein the extrusion assembly comprises a servo motor (7) and a grooved rotating plate (8), the servo motor (7) is respectively arranged in the first connecting frame (4) and the second connecting frame (5), the grooved rotating plate (8) is connected with an output shaft of the servo motor (7) so as to drive the grooved rotating plate (8) to rotate, and the end part of the hollow tube (6) is in sliding fit with the grooved rotating plate (8) so that the grooved rotating plate (8) can extrude the end part of the fabric by rotating the hollow tube (6).

3. The auxiliary washing device for fabric processing according to claim 1, wherein the unfolding assembly comprises an electric sliding rail (9), an annular sliding rail (10) and an arc sliding rail (11), the electric sliding rail (9) is symmetrically arranged on the inner wall of the water tank (1), the annular sliding rail (10) and the arc sliding rail (11) are both in sliding connection with the water tank (1), the two connecting frames (5) are respectively rotatably arranged on the annular sliding rail (10) and the arc sliding rail (11), and the electric sliding rail (9) is used for driving the annular sliding rail (10) and the arc sliding rail (11) to move so as to drive the connecting frames (5) to move to unfold the fabric.

4. A fabric processing auxiliary washing device according to claim 3, wherein the rotating assembly comprises a first gear motor (12), a first connecting plate (13), a second connecting plate (131) and a driving assembly (132), both the first gear motor (12) and the second gear motor (12) are arranged on the outer side of the water tank (1), one output shaft of the first gear motor (12) is provided with the first connecting plate (13), the arc-shaped sliding frame (11) is in contact fit with the first connecting plate (13), the arc-shaped sliding frame (11) can be driven to synchronously rotate when the first connecting plate (13) rotates so as to drive the second connecting plate (5) to rotate below the first connecting plate (4), the second connecting plate (131) is arranged on the output shaft of the other gear motor (12), the first connecting plate (4) is rotatably arranged on the second connecting plate (131), so that the first connecting plate (4) can be driven to synchronously rotate below the second connecting plate (5) when the second connecting plate (131) rotates, and the driving assembly (132) is used for driving the first connecting plate (4) and the second connecting plate (5) to rotate so as to roll up the fabric to be wound on the hollow tube (6).

5. An auxiliary washing device for fabric processing according to claim 4, characterized in that the rotating assembly further comprises a locking lever (14), and the water tank (1) is connected with the locking lever (14) for locking the arc-shaped carriage (11) and the first connecting plate (13).

6. An auxiliary washing device for fabric processing according to claim 1, further comprising a dewatering assembly, wherein the dewatering assembly comprises a lifting platform (15) and a squeezing barrel (16), the lifting platform (15) is arranged at the inner bottom of the water tank (1), a plurality of squeezing barrels (16) are respectively rotatably arranged on the tank cover (2) and the lifting platform (15), and the lifting platform (15) is used for driving the squeezing barrel (16) at the lower side to move upwards to jack up the fabric, so that the squeezing barrel (16) can clamp the fabric and squeeze water absorbed by the fabric in the fabric moving process.

7. The auxiliary washing device for fabric processing according to claim 2, further comprising a spreading assembly, wherein the spreading assembly comprises a telescopic pipe (17) and a spreading plate (18), the spreading plate (18) is connected to the side surface of the hollow pipe (6) on the first connecting frame (4) through the telescopic pipe (17), so that the spreading plate (18) can rotate along with the hollow pipe (6) on the first connecting frame (4) to roll the fabric, the spreading plate (18) is in sliding connection with the first connecting frame (4), and the end part of the spreading plate (18) is in sliding fit with the grooved rotating plate (8), so that the grooved rotating plate (8) can drive the spreading plate (18) to move to spread or relax the rolled fabric, and the spreading plate (18) can take out the fabric when the rolled fabric is relaxed.

8. The auxiliary washing device for fabric processing according to claim 7, wherein the opening assembly further comprises an arc-shaped cylinder (19), a hose (20) and a piston rod (21), the arc-shaped cylinder (19) is symmetrically connected in the first connecting frame (4), two ends of the hose (20) are respectively communicated with the arc-shaped cylinder (19) and the hollow tube (6) on the first connecting frame (4), the piston rod (21) is slidably connected with the arc-shaped cylinder (19), and the piston rod (21) is fixedly connected with the grooved rotating plate (8), so that the grooved rotating plate (8) can rotate to drive the piston rod (21) to slide in the arc-shaped cylinder (19), and air can circulate inside the arc-shaped cylinder (19) and inside the hollow tube (6) through the hose (20) to assist the opening of the grooved rotating plate (18) to move.

9. The auxiliary washing device for fabric processing according to claim 1, further comprising a pushing assembly, wherein the pushing assembly comprises a rod-free air cylinder (22), a friction plate (23), a magnetic ring (24) and a movable cover (25), the rod-free air cylinder (22) is installed in the water tank (1), the friction plate (23) is connected to a sliding block of the rod-free air cylinder (22) to drive the friction plate (23) to move, the magnetic ring (24) is connected to the first connecting frame (4), the movable cover (25) is arranged on the magnetic ring (24), and when the friction plate (23) moves to the movable cover (25), the movable cover (25) can be clamped and driven to move synchronously, so that the movable cover (25) is separated from the magnetic ring (24), and the movable cover (25) can push out rolled fabric.

10. An auxiliary water washing device for fabric processing according to claim 1, further comprising a liquid spraying assembly, wherein the liquid spraying assembly comprises a liquid containing tank (26), a water pump (27) and a liquid spraying pipe (28), the liquid containing tank (26) is connected to the side face of the water tank (1), the liquid spraying pipe (28) is connected to the tank cover (2), and the water pump (27) is used for extracting and conveying detergent in the liquid containing tank (26) into the liquid spraying pipe (28) so that the liquid spraying pipe (28) can spray the detergent to the surface of the fabric for auxiliary water washing.