CN218910829U - Plush fabric printing and dyeing device with self-cleaning function - Google Patents

Abstract

A plush fabric printing and dyeing device with a self-cleaning function comprises a workbench, a transfer printing mechanism and a drainage mechanism; a storage cavity is formed in the workbench; the transfer printing mechanism comprises a plurality of transfer printing rollers; the drainage mechanism comprises a drainage groove, the drainage groove is positioned below the transfer roller, and one end of the drainage groove is communicated with an external wastewater treatment device; the self-cleaning mechanism is also included; the self-cleaning mechanism comprises a clean water tank which is rotatably arranged in the storage cavity, a plurality of nozzles are penetrated on the other end of the water discharge tank which is not communicated with the outside, the head parts of the nozzles are arranged towards the inside of the water discharge tank, a water suction pump is penetrated on the clean water tank, the water inlet end of the water suction pump is communicated with the inside of the water inlet cavity, and the water outlet end of the water suction pump is communicated with the nozzles; the self-cleaning mechanism is arranged, the water purifying tank and the nozzle penetrating one end of the water draining tank are used for realizing the timing flushing of the water draining tank, and the device is ensured not to scale and block due to residual waste water after long-time use.

Description

Plush fabric printing and dyeing device with self-cleaning function

Technical Field

The utility model relates to the field of fabric printing and dyeing, in particular to a plush fabric printing and dyeing device with a self-cleaning function.

Background

Printing and dyeing is also a general term of process flows such as pretreatment, dyeing, printing, after-finishing, washing water and the like as a processing mode, and printing and dyeing are still widely applied to cloth production after long-term development as a traditional cloth dyeing process in China;

with the continuous development of the times, various automatic printing and dyeing equipment replacing the original manual printing and dyeing mode is more and more, and is widely used by cloth production companies;

however, an existing automatic dyeing and printing device on the market generally has a problem that in each step of dyeing and printing, especially in two steps of dyeing and printing, a great amount of waste water mixed with dye is dripped from cloth and left, but the waste water cannot be directly discharged, and the waste water is required to be uniformly collected into a waste water treatment device for treatment and then discharged, so that a water tank is usually arranged on the dyeing and printing device to collect the waste water and then discharge the waste water to the waste water treatment device through a water pipe, and the water tank for receiving the waste water is easy to have pigment remained on the surface of the water tank for causing scaling if the water tank is not cleaned for years and months, even the water outlet is possibly blocked by the scaling, and particularly when the plush fabric is dyed, a plurality of fluff is mixed in the dripped waste water, so that the water tank is easier to scale and block.

Disclosure of Invention

The utility model provides a plush fabric printing and dyeing device with a self-cleaning function, which aims to overcome the defect that a water tank for receiving waste water of printing and dyeing equipment cannot realize self-cleaning, so that a water outlet is easy to be scaled and blocked.

The technical scheme for solving the technical problems is as follows: a pile fabric printing and dyeing device with self-cleaning function, comprising:

the workbench is internally provided with a storage cavity;

the transfer printing mechanism is arranged above the workbench and comprises a plurality of transfer printing rollers;

the drainage mechanism comprises a drainage groove, the drainage groove is positioned below the transfer roller, and one end of the drainage groove is communicated with an external wastewater treatment device;

further comprises:

the self-cleaning mechanism comprises a clean water tank which is rotatably arranged in the storage cavity, a plurality of nozzles are arranged at the other end of the water drainage tank, which is not communicated with the outside, the heads of the nozzles face the inside of the water drainage tank, a water suction pump is arranged on the clean water tank in a penetrating mode, the water inlet end of the water suction pump is communicated with the inside of the clean water tank, and the water outlet end of the water suction pump is communicated with the nozzles.

Further, a waste water transfer box is arranged in the storage cavity; the wastewater transfer box comprises a water inlet and a water outlet, and the water inlet of the wastewater transfer box is communicated with the drainage tank through a connecting channel; the water outlet of the wastewater transfer box is communicated with an external wastewater treatment device through a drain pipe, and an electromagnetic valve is further arranged in the wastewater transfer box and positioned at the water outlet.

Still further, the water in the water drainage tank flows into the waste water tank through the connecting channel and is stored in the waste water transfer tank, and when the water level in the waste water transfer tank reaches a certain height, the electromagnetic valve is opened to enable the waste water to be discharged to the waste water treatment device.

Further, an opening is formed in one end, communicated with the connecting channel, of the drainage groove, the connecting channel is in butt fit with the lower portion of the opening, a section of water baffle is further arranged on the connecting channel in an upward protruding mode, and the water baffle is arranged around the opening in a surrounding mode, so that the opening is shielded.

Still further, the water in the water drainage tank flows into the connecting channel through the opening, and the water baffle can block the water drops which are partially splashed to enable the water drops to fall back into the connecting channel.

Further, the drainage channel is inclined downwards towards one end provided with the opening, and two sides of the drainage channel are also inclined downwards towards the middle.

Still further, the cross-section of water drainage tank is V type, therefore water in the water drainage tank can gather towards the central line of water drainage tank to because water drainage tank is towards seting up an open-ended one end downward sloping, consequently water in the water drainage tank can flow down along the water drainage tank and follow the opening part and flow in the connecting channel.

Further, a window is formed in the rear side of the workbench, the storage cavity is exposed through the window, door plates are hinged to two sides of the window, and the door plates cover the window; and the clean water tank is detachably arranged in the storage cavity.

Further, a circle of fixing ribs are convexly arranged in the storage cavity, the lower end of the water purifying tank is inserted into the inner side of the fixing ribs, and the water purifying tank is further provided with a handle for grasping and a water injection port for injecting water.

Still further, can open when water in the water purification case is spent the door plant, with the water purification case is lifted and makes it with the cooperation of fixed muscle is disengaged, will again the water purification case is taken out the bin through the window, finally through the water filling mouth to the water inlet tank is put back after accomplishing the water injection.

Further, a water level sensor is arranged in the wastewater transfer box in a penetrating way.

Still further, can respond to through level sensor the water level in the waste water transfer case to when the water level reaches certain height feedback signal makes the solenoid valve opens, thereby realizes the waste water in the waste water transfer case and discharges to effluent treatment plant.

The drainage process of the utility model comprises the following steps: in the printing and dyeing process, the plush fabric is guided by the guide roller and then enters the transfer mechanism, printing is completed under the extrusion of the transfer roller in the transfer mechanism, waste water mixed with pigment on the plush fabric drops into the drainage groove in the process that the plush fabric passes through the transfer roller, flows down along the drainage groove and flows into the connecting channel through the opening, finally flows into the waste water transfer box after passing through the connecting channel, and when the water level in the waste water transfer box reaches a certain height to trigger the water level sensor, the electromagnetic valve is opened to discharge the waste water to the waste water treatment device through the drainage pipe;

in the drainage process of the device, the water suction pump on the clean water tank can be repeatedly started at regular time, so that water in the clean water tank is pumped to the nozzle, the water tank is flushed through the nozzle, residual wastewater in the water tank is flushed away to prevent scaling, and a self-cleaning function is realized.

The utility model has the beneficial effects that:

1. the self-cleaning mechanism is arranged, and the water purifying tank and the nozzle penetrating through one end of the water draining tank are used for realizing the timing flushing of the water draining tank, so that the waste water and sundries remained in the water draining tank are flushed away, and the scaling and blockage caused by the waste water residue in the water draining tank after the device is used for a long time are avoided;

2. the waste water treatment device is provided with the waste water transfer box, and discharged waste water in the water discharge tank can pass through the waste water transfer box and then is discharged to the waste water treatment device, so that the waste water can be stored in the waste water transfer box for a certain time, and when special conditions such as incapability of operating the waste water treatment device are met, the waste water is not accumulated in the water discharge tank due to incapability of being discharged, and the device cannot continue to operate;

3. a window is formed in one side of the workbench, and the clean water tank is detachably arranged in the storage cavity, so that the clean water tank is taken out and filled with water more conveniently, and components such as the clean water tank in the storage cavity and the boxing in waste water are maintained and replaced more conveniently through the window.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of another angular structure of the present utility model.

Fig. 3 is a schematic view of the internal structure of the storage chamber of the present utility model.

Fig. 4 is a schematic view of the self-cleaning mechanism and the drainage mechanism of the present utility model.

Fig. 5 is a cross-sectional view of the drainage mechanism of the present utility model.

Fig. 6 is a schematic view showing the position of the drain tank and the connection passage of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It will be understood that, although the terms upper, middle, lower, top, end, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another for ease of understanding and are not used to define any directional or sequential limitation.

Examples

A pile fabric printing and dyeing device with self-cleaning function is shown in combination with figures 1 to 6, and comprises a workbench 1, a transfer printing mechanism 3 and a drainage mechanism 5; a storage cavity 2 is formed in the workbench 1; the transfer mechanism 3 is arranged above the workbench 1, and the transfer mechanism 3 comprises a plurality of transfer rollers 4; the drainage mechanism 5 comprises a drainage groove 6, the drainage groove 6 is positioned below the transfer roller 4, and one end of the drainage groove 6 is communicated with an external wastewater treatment device; also comprises a self-cleaning mechanism 7; the self-cleaning mechanism 7 comprises a clean water tank 8 which is rotatably arranged in the storage cavity 2, a plurality of nozzles 9 are arranged at the other end of the water discharge tank 6 which is not communicated with the outside in a penetrating manner, the heads of the nozzles 9 face the inside of the water discharge tank 6, a water suction pump 10 is arranged on the clean water tank 8 in a penetrating manner, the water inlet end of the water suction pump 10 is communicated with the inside of the clean water tank 8, and the water outlet end of the water suction pump 10 is communicated with the nozzles 9.

In this case, the nozzles 9 have four nozzles and are arranged in a straight line at equal intervals on one side of the drain tank 6.

In this embodiment, a waste water transfer tank 11 is further disposed in the storage chamber 2; the waste water transfer box 11 comprises a water inlet 12 and a water outlet 13, and the water inlet 12 of the waste water transfer box 11 is communicated with the drainage tank 6 through a connecting channel 14; the water outlet 13 of the wastewater transfer box 11 is communicated with an external wastewater treatment device through a water outlet pipe 15, and an electromagnetic valve 16 is further arranged in the wastewater transfer box 11 and positioned at the water outlet 13.

In this embodiment, the water in the drain tank 6 flows into the waste water tank through the connection channel 14 and is stored in the waste water transfer tank 11, and when the water level in the waste water transfer tank 11 reaches a certain height, the electromagnetic valve 16 is opened to drain the waste water to the waste water treatment device.

In this embodiment, an opening 17 is formed at one end of the drainage tank 6, which is communicated with the connection channel 14, the connection channel 14 is in abutting fit with the lower part of the opening 17, a section of water baffle 18 is further protruding upward on the connection channel 14, and the water baffle 18 is enclosed around the opening 17, so that the opening 17 is shielded.

In this embodiment, the water in the drain tank 6 flows into the connecting channel 14 through the opening 17, and the water deflector 18 can block some splashed water droplets from falling back into the connecting channel 14.

In this embodiment, the drain grooves 6 are inclined downward toward the end where the openings 17 are formed, and both sides of the drain grooves 6 are also inclined downward toward the middle.

In this embodiment, the cross section of the drainage channel 6 is V-shaped, so that the water in the drainage channel 6 gathers towards the center line of the drainage channel 6, and because the drainage channel 6 is inclined downwards towards the end provided with an opening 17, the water in the drainage channel 6 flows down along the drainage channel 6 and flows from the opening 17 into the connecting channel 14.

In this embodiment, a window 19 is formed on the rear side of the workbench 1, the storage cavity 2 is exposed through the window 19, and door panels 20 are hinged to two sides of the window 19, and the door panels 20 cover the window 19; and the clean water tank 8 is detachably arranged in the storage cavity 2.

In this embodiment, a circle of fixing ribs 21 are convexly arranged in the storage cavity 2, the lower end of the clean water tank 8 is inserted into the inner side of the fixing ribs 21, and the clean water tank 8 is also provided with a handle 22 for grasping and a water injection port 23 for injecting water.

In this embodiment, when the water in the fresh water tank 8 is exhausted, the door panel 20 may be opened, the fresh water tank 8 is lifted up to disengage from the fixing rib 21, the fresh water tank 8 is taken out of the storage tank through the window 19, and finally the water is injected into the water inlet tank through the water injection port 23 and then returned.

In this embodiment, a water level sensor 24 is disposed in the wastewater transfer tank 11.

In this example, the water level sensor 24 is a float sensor.

In this embodiment, the water level sensor 24 senses the water level in the wastewater transfer tank 11, and when the water level reaches a certain height, the feedback signal causes the electromagnetic valve 16 to open, so that wastewater in the wastewater transfer tank 11 is discharged to the wastewater treatment device.

The drainage process of this embodiment: in the printing and dyeing process, the plush fabric is guided by the guide roller and then enters the transfer mechanism 3, printing is completed under the extrusion of the transfer roller 4 in the transfer mechanism 3, waste water mixed with pigment on the plush fabric drops into the drainage groove 6 in the process that the plush fabric passes through the transfer roller, flows down along the drainage groove 6 and flows into the connecting channel 14 through the opening 17, finally flows into the waste water transfer box 11 after passing through the connecting channel 14, and when the water level in the waste water transfer box 11 reaches a certain height to trigger the water level sensor 24, the electromagnetic valve 16 is opened, and the waste water is discharged to the waste water treatment device through the drainage pipe 15;

in the drainage process of the device, the water suction pump 10 on the clean water tank 8 can be repeatedly started at regular time, so that water in the clean water tank 8 is pumped to the nozzle 9, the water is sprayed out through the nozzle 9 to flush the drainage tank 6, residual waste water in the drainage tank 6 is flushed away to prevent scaling, and a self-cleaning function is realized.

The advantages of this embodiment are: the self-cleaning mechanism is arranged, so that the water draining tank is flushed at regular time, and the scale deposition and blockage on the water draining tank caused by the accumulation of waste water are prevented.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (7)

1. A pile fabric printing and dyeing device with self-cleaning function, comprising:

a workbench (1) is internally provided with a storage cavity (2);

the transfer mechanism (3) is arranged above the workbench (1), and the transfer mechanism (3) comprises a plurality of transfer rollers (4);

the drainage mechanism (5) comprises a drainage groove (6), the drainage groove (6) is positioned below the transfer roller (4), and one end of the drainage groove (6) is communicated with an external wastewater treatment device;

characterized by further comprising:

the self-cleaning mechanism (7) comprises a clear water tank (8) which is rotatably arranged in the storage cavity (2), a plurality of nozzles (9) are arranged at the other end of the drain tank (6) which is not communicated with the outside in a penetrating mode, the heads of the nozzles (9) face the inside of the drain tank (6), a water suction pump (10) is further arranged on the clear water tank (8) in a penetrating mode, the water inlet end of the water suction pump (10) is communicated with the inside of the clear water tank (8), and the water outlet end of the water suction pump (10) is communicated with the nozzles (9).

2. The pile fabric printing and dyeing device with a self-cleaning function according to claim 1, wherein: a waste water transfer box (11) is also arranged in the storage cavity (2); the waste water transfer box (11) comprises a water inlet (12) and a water outlet (13), and the water inlet (12) of the waste water transfer box (11) is communicated with the drainage tank (6) through a connecting channel (14); the water outlet (13) of the wastewater transfer box (11) is communicated with an external wastewater treatment device through a water discharge pipe (15), and an electromagnetic valve (16) is further arranged in the wastewater transfer box (11) and positioned at the water outlet (13).

3. The pile fabric printing and dyeing device with a self-cleaning function according to claim 2, wherein: an opening (17) is formed in one end, communicated with the connecting channel (14), of the drainage groove (6), the connecting channel (14) is in butt fit with the lower portion of the opening (17), a section of water baffle (18) is further upwards protruding on the connecting channel (14), and the water baffle (18) is arranged around the opening (17) in a surrounding mode, so that the opening (17) is shielded.

4. A pile fabric printing and dyeing device with self-cleaning function according to claim 3, characterized in that: the drainage tank (6) is arranged in a downward inclined way towards one end provided with an opening (17), and two sides of the drainage tank (6) are also inclined in a downward way towards the middle.

5. The pile fabric printing and dyeing device with a self-cleaning function according to claim 1, wherein: a window (19) is formed in the rear side of the workbench (1), the storage cavity (2) is exposed through the window (19), door plates (20) are hinged to the two sides of the window (19), and the door plates (20) cover the window (19); and the clean water tank (8) is detachably arranged in the storage cavity (2).

6. The pile fabric printing and dyeing device with the self-cleaning function according to claim 5, wherein the pile fabric printing and dyeing device is characterized in that: the water purifying device is characterized in that a circle of fixing ribs (21) are convexly arranged in the storage cavity (2), the lower end of the water purifying tank (8) is inserted into the inner side of the fixing ribs (21), and the water purifying tank (8) is further provided with a handle (22) for grasping and a water injection port (23) for injecting water.

7. The pile fabric printing and dyeing device with a self-cleaning function according to claim 2, wherein: a water level sensor (24) is arranged in the wastewater transfer box (11) in a penetrating way.

Images