CN221192611U - Washboard type vibration washing tank - Google Patents

Abstract

The utility model discloses a washboard type oscillating washing tank which comprises a water tank, an upper cloth guide roller and a lower cloth guide roller which are arranged up and down, wherein a fabric conveying path is formed between the upper cloth guide roller and the lower cloth guide roller, a wave plate is arranged on the fabric conveying path, the surface of the wave plate is in contact with the fabric conveying path, and an oscillating mechanism is further arranged in the water tank. According to the washboard type vibration washing tank, the vibration mechanism can enable the cleaning water in the water tank to vibrate, so that the vibrating cleaning water can impact the fabric, friction can be formed between the fabric contacted with the wavy plate under the impact and stamping of the vibrating cleaning water, the fabric under friction is rubbed by the wavy plate, dye molecules in the fabric can be rapidly diffused and washed out under the rubbing extrusion of the wavy plate, and therefore the cleaning rate and the cleaning effect of the fabric are greatly improved, and the cleanliness of the fabric is higher under the same volume of washing tank.

Description

Washboard type vibration washing tank

Technical Field

The utility model relates to the technical field of textile fabric washing equipment, in particular to a washboard type oscillating washing tank.

Background

In the textile processing process, the fabrics after pretreatment, dyeing and printing all need to be washed with water. The washing tank or the washing machine is used as fabric washing equipment, and the structure of the washing tank or the washing machine mainly comprises a water tank and a cloth guide roller arranged in the water tank; during washing, the fabric is wound on the cloth guide roller, the wound fabric is conveyed under the traction of the cloth guide roller, and in the conveying process, the fabric repeatedly enters water and exits water to realize washing. The existing washing machine is used for repeatedly immersing and washing fabrics in water and out of water, dye molecules in the fabrics need to be naturally diffused into washing water when the fabrics are immersed and washed, the extrusion force is lack in the natural diffusion process, so that the diffusion speed is low, the dye molecules in the fabrics are difficult to completely diffuse out in a short time, the washing effect is poor, deep washing is difficult to realize, the required water consumption is larger under the condition of achieving the same washing effect, and the water resource waste is serious.

Disclosure of utility model

The utility model aims to provide a washboard type oscillating washing tank.

The technical scheme for realizing the aim of the utility model is as follows: the utility model provides a washboard formula concussion wash bowl, includes the basin, and go up cloth guide roller and lower cloth guide roller of arranging from top to bottom, lower cloth guide roller is located in the basin, go up the cloth guide roller with be formed with fabric conveying path down between the cloth guide roller, be equipped with the wave board on the fabric conveying path, the surface and the fabric conveying path subsides of wave board touch, still be equipped with concussion mechanism in the basin, concussion mechanism includes concussion piece and actuating mechanism, concussion piece with actuating mechanism transmission is connected, by actuating mechanism drive is movable.

Further, the wave plate is positioned between the upper cloth guide roller and the lower cloth guide roller, and the wave plate is vertically arranged. The space between the upper cloth guide roller and the lower cloth guide roller is large, so that the wave plate is more convenient to install.

Further, a wave plate is arranged on any section of fabric conveying path between the upper fabric guide roller and the lower fabric guide roller. The wave plates are arranged on the fabric conveying path as much as possible, so that the water washing effect can be improved more conveniently.

Further, two ends of the wave plate are respectively close to the upper cloth guide roller and the lower cloth guide roller. By the arrangement, the wave plate can be ensured to be long enough, and more fabrics are rubbed on the wave plate.

Further, the surface of the oscillating block is wavy. The surface is wavy when the vibration piece is in the drive of actuating mechanism removes, can bring bigger vibration for the clean water in the basin, and the clean water of bigger vibration is bigger to the impact of fabric, under the big impact force of clean water, the fabric with the frictional force on wave plate surface is better, the wave plate is better to the kneading effect of fabric.

Further, the oscillating block is a sliding block arranged on the sliding rail. When the oscillating block of the sliding block moves, the oscillating block moves along the sliding rail, and the oscillating block moves more stably under the limit of the sliding rail.

Further, the oscillating block is in transmission connection with the driving mechanism and driven by the driving mechanism to move in a lifting manner. The oscillating block can move up and down, can also move rotationally and can move horizontally; compared with other devices, the device can generate better vibration effect in the vertical direction during lifting movement.

Further, the driving mechanism comprises a rotating shaft and a connecting rod, one end of the connecting rod is eccentrically hinged with the rotating shaft, and the other end of the connecting rod is hinged with the oscillating block. The drive mechanism may include, but is not limited to, a shaft and a link; compared with other structures, when the driving mechanism comprises the rotating shaft and the connecting rod, unidirectional rotation of the rotating shaft can be converted into lifting movement of the oscillating block without bidirectional control, and when the control of the rotating shaft is simpler, continuous rotation is converted into reciprocating lifting movement, the reversing of the reciprocating lifting movement end is smoother, and the pause and frustration is weaker.

Further, the vibration mechanism is positioned between the upper cloth guide roller and the lower cloth guide roller and between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed. When the oscillating mechanism oscillates, the oscillating waves take the oscillating mechanism as the center and spread outwards, the oscillating mechanism is positioned between the upper cloth guide roller and the lower cloth guide roller and between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed, two sections of fabrics on two sides of the oscillating mechanism can simultaneously sense the oscillation formed by the oscillating mechanism, and the oscillating mechanism oscillates at a higher contribution rate to cleaning.

Further, an oscillation mechanism is arranged between the upper cloth guide roller and the lower cloth guide roller and between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed. The arrangement of the vibration mechanisms can bring larger vibration to the cleaning water in the water tank, and each section of fabric can be impacted, so that the cleaning of the fabric is facilitated.

Further, the upper cloth guide roller is a wavy roller with a wavy surface. When the upper cloth guide roller of the wavy roller guides the cloth, the friction force between the upper cloth guide roller and the cloth is larger, and when the cloth is more smooth, the contact surface between the cloth and the surface of the upper cloth guide roller is smaller, and the surface of the cloth, which is in contact with the upper cloth guide roller, is also provided with a gap, so that the cloth can be conveniently washed by water, and the washing effect of the cloth is improved.

Further, the lower cloth guide roller is a wavy roller with a wavy surface. When the lower cloth guide roller of the wavy roller guides the fabric, the friction force between the lower cloth guide roller and the fabric is larger, and when the fabric is coated on the lower cloth guide roller, the contact surface between the fabric and the surface of the lower cloth guide roller is smaller, and the surface of the fabric, which is in contact with the lower cloth guide roller, is also provided with a gap, so that the fabric can be conveniently washed by water, and the washing effect of the fabric is improved; in addition, when the lower cloth guide roller guides cloth to rotate, the rotating wavy roller can excite larger water waves, so that water oscillates, the oscillated clean water is more beneficial to the diffusion of dye molecules in the fabric, and the washing effect of the fabric is better.

Further, the upper cloth guide roller is positioned in the water tank. With this arrangement, a highly airtight washing tank can be formed.

Further, the number of the upper cloth guide rollers and the number of the lower cloth guide rollers are all a plurality of, and the upper cloth guide rollers and the lower cloth guide rollers are all horizontally arranged. The cloth containing amount of the fabric in the water tank can be improved under the arrangement of the upper cloth guide rollers and the lower cloth guide rollers, and meanwhile, the fabric in the water tank repeatedly enters the cleaning water for washing for many times, so that the washing effect is better.

According to the washboard type vibration washing tank, the wavy plate which is contacted with the fabric conveying path is arranged on the fabric conveying path, meanwhile, the vibration mechanism is arranged in the tank, so that in the process that conveyed fabric enters and exits the cleaning water in the tank to be cleaned, the driving mechanism in the vibration mechanism drives the vibration block to move, the vibration block moves to drive the cleaning water in the tank, so that the cleaning water in the tank vibrates, the vibrating cleaning water can impact the fabric, friction can be formed between the contacted fabric and the wavy plate under the impact and stamping of the vibrating cleaning water, and the rubbed fabric is rubbed by the wavy plate, so that a hand rubbing effect is generated; through the rubbing of the wave plate, dye molecules in the fabric can be rapidly diffused outwards and washed out under the rubbing and extrusion of the wave plate, so that the cleaning rate and the cleaning effect of the fabric are greatly improved, and the cleanliness of the fabric is higher under a water washing tank with the same volume.

The washboard type oscillating washing tank can greatly increase the exchange of fabrics and liquid under the friction and kneading action of the wave plate, realizes deep washing, further can be widely applied to washing with high difficulty such as washing after printing, desizing washing and the like, and solves the current situation that the washing of the existing washing machine is not clean and desizing is not clean.

Drawings

FIG. 1 is a schematic diagram of the structure of a washboard-type oscillating washing tank of the present utility model;

Fig. 2 is a schematic diagram of the wave plate and fabric conveying path of the washboard-type oscillating rinse bath of the present utility model.

Description of the embodiments

The specific embodiments of the washboard type oscillating washing tank of the utility model are described in detail below with reference to the accompanying drawings:

As shown in fig. 1 and 2, a washboard type oscillating washing tank comprises a water tank 1, an upper cloth guide roller 2 and a lower cloth guide roller 3 which are arranged up and down, wherein the lower cloth guide roller 3 is positioned in the water tank 1, a fabric conveying path is formed between the upper cloth guide roller 2 and the lower cloth guide roller 3, a wave plate 4 is arranged on the fabric conveying path, the surface of the wave plate 4 is contacted with the fabric conveying path, an oscillating mechanism 5 is further arranged in the water tank 1, the oscillating mechanism 5 comprises an oscillating block 51 and a driving mechanism 52, and the oscillating block 51 is in transmission connection with the driving mechanism 52 and is driven to move by the driving mechanism 52.

The washboard type oscillating washing tank is used for cleaning the fabric 10; wherein the water tank 1 is used as a container for containing clean water; the upper cloth guide roller 2 and the lower cloth guide roller 3 are used for guiding cloth and conveying fabric 10; the wave plate 4 is arranged on the fabric conveying path and is used for rubbing and kneading the passing fabric 10; the oscillation mechanism 5 is used for driving the cleaning water in the water tank 1 to oscillate the cleaning water in the water tank 1; in the oscillating mechanism 5, the driving mechanism 52 is configured to drive and drive the oscillating block 51; the oscillating block 51 is driven by the driving mechanism 52 to move, so as to drive the cleaning water in the water tank 1 to oscillate the cleaning water in the water tank 1.

When the washboard type oscillating washing tank is in operation, a fabric 10 is sequentially coated and conveyed between the upper cloth guide roller 2 and the lower cloth guide roller 3, the fabric 10 is contacted with the surface of the wave plate 4, the washing water is contained in the water tank 1, and the lower cloth guide roller 3 is positioned under the washing water in the water tank 1. The upper cloth guide roller 2 and the lower cloth guide roller 3 run to drive the fabric 10 coated and conveyed on the upper cloth guide roller 2 and the lower cloth guide roller 3, so that the fabric 10 can be moved and conveyed. In the conveying process, the fabric 10 enters and exits the cleaning water in the water tank 1 for cleaning, and meanwhile, the driving mechanism 52 in the oscillating mechanism 5 is driven to drive the oscillating block 51 to move, the oscillating block 51 is moved to drive the cleaning water in the water tank 1, so that the cleaning water in the water tank 1 oscillates, the oscillated cleaning water has impact force on the fabric 10, friction is formed between the fabric 10 contacted with the wave plate 4 under the impact and stamping of the oscillated cleaning water, and the fabric 10 is rubbed by the wave plate 4 under the friction.

According to the washboard type vibration washing tank, the wave plate 4 which is contacted with the fabric conveying path is arranged on the fabric conveying path, meanwhile, the vibration mechanism 5 is arranged in the water tank 1, so that in the process that the conveyed fabric 10 enters and exits the water tank 1 for cleaning, the driving mechanism 52 in the vibration mechanism 5 drives the vibration block 51 to move, the vibration block 51 moves to drive the cleaning water in the water tank 1, the cleaning water in the water tank 1 is vibrated, the vibrating cleaning water is further used for impacting the fabric 10, friction can be formed between the contacted fabric 10 and the wave plate 4 under the impact and stamping of the vibrating cleaning water, and the rubbed fabric 10 is rubbed by the wave plate 4, so that a hand rubbing effect is generated; through the kneading of the wave plate 4, dye molecules in the fabric 10 can be rapidly diffused and washed out under the kneading and extrusion of the wave plate 4, so that the cleaning speed and the cleaning effect of the fabric 10 are greatly improved, and the cleanliness of the fabric 10 is higher under the same-volume water washing tank.

The washboard type vibration washing tank can greatly increase the exchange of fabrics and liquid under the friction and kneading action of the wave plate 4, realizes deep washing, further can be widely applied to washing with high difficulty such as washing after printing, desizing washing and the like, and solves the current situation that the washing of the existing washing machine is not clean and desizing is not clean.

In the washboard type oscillating washing tank, preferably, the wave plate 4 is positioned between the upper cloth guide roller 2 and the lower cloth guide roller 3, and the wave plate 4 is vertically arranged. The space between the upper cloth guide roller 2 and the lower cloth guide roller 3 is large, and the installation of the wave plate 4 is facilitated.

In the washboard type oscillating washing tank, preferably, a wave plate 4 is arranged on any section of fabric conveying path between the upper fabric guide roller 2 and the lower fabric guide roller 3. The wave plates 4 are arranged as many as possible on the fabric conveying path, which is more beneficial to improving the washing effect.

In the washboard-type oscillating washing tank, preferably, two ends of the wave plate 4 are respectively close to the upper cloth guide roller 2 and the lower cloth guide roller 3. This arrangement ensures that the wave plate 4 is long enough and that the fabric 10 is more rubbed against the wave plate 4.

In the washboard type oscillating washing tank of the present utility model, the surface of the oscillating block 51 is preferably wavy. When the vibration block 51 with the wavy surface moves under the driving of the driving mechanism 52, larger vibration can be brought to the cleaning water in the water tank 1, the impact of the cleaning water with the larger vibration on the fabric 10 is larger, the friction force between the fabric 10 and the surface of the wave plate 4 is better under the large impact force of the cleaning water, and the rubbing effect of the wave plate 4 on the fabric 10 is better.

In the washboard type oscillating washing tank of the present utility model, the oscillating block 51 is preferably a sliding block mounted on a sliding rail. When the oscillating block 51 of the sliding block moves, the oscillating block moves along the sliding rail, and the oscillating block moves more stably under the limit of the sliding rail.

In the washboard type oscillating washing tank, the oscillating block 51 is preferably in transmission connection with the driving mechanism 52, and is driven by the driving mechanism 52 to move up and down. The oscillating block 51 can move up and down, can also move rotationally and can also move horizontally; compared with other devices, the device can generate better vibration effect in the vertical direction during lifting movement.

In the washboard type oscillating washing tank of the present utility model, preferably, the driving mechanism 52 includes a rotating shaft 521 and a connecting rod 522, one end of the connecting rod 522 is eccentrically hinged to the rotating shaft 521, and the other end of the connecting rod 522 is hinged to the oscillating block 51. The drive mechanism 52 may include, but is not limited to, a shaft 521 and a link 522; compared with other structures, when the driving mechanism 52 includes the rotating shaft 521 and the connecting rod 522, the unidirectional rotation of the rotating shaft 521 can be converted into the lifting movement of the oscillating block 51 without bidirectional control, and when the continuous rotation of the rotating shaft 521 is converted into the reciprocating lifting movement, the reversing of the reciprocating lifting movement end is smoother, and the feel of the pause is weaker.

In the washboard type oscillating washing tank, the oscillating mechanism 5 is preferably positioned between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed between the upper fabric guide roller 2 and the lower fabric guide roller 3. When the vibrating mechanism 5 vibrates, the vibrating waves take the vibrating mechanism 5 as the center and spread outwards, the vibrating mechanism 5 is positioned between the upper cloth guide roller 2 and the lower cloth guide roller 3 and between two adjacent sections of fabric conveying paths which are horizontally arranged, and two sections of fabrics on two sides of the vibrating mechanism 5 can simultaneously feel the vibration formed by the vibrating mechanism 5, and the vibrating mechanism 5 vibrates to have higher contribution rate to cleaning.

In the washboard type oscillating washing tank, an oscillating mechanism 5 is preferably arranged between the upper cloth guide roller 2 and the lower cloth guide roller 3 and between two adjacent sections of horizontally arranged fabric conveying paths. The arrangement of the plurality of oscillation mechanisms 5 can bring greater oscillation to the cleaning water in the water tank 1, and each section of fabric 10 can be impacted, so that the cleaning of the fabric 10 is facilitated.

In the washboard type oscillating washing tank, the upper cloth guide roller 2 is preferably a wavy roller with a wavy surface. When the upper cloth guide roller 2 of the wavy roller guides the cloth 10, the friction force between the upper cloth guide roller 2 and the cloth 10 is larger, and when the cloth is guided more smoothly, the cloth 10 is coated on the upper cloth guide roller 2, the contact surface of the cloth 10 and the surface of the upper cloth guide roller 2 is smaller, and the surface of the cloth 10 contacted with the upper cloth guide roller 2 is also provided with a gap, so that the cloth 10 can be conveniently washed by water, and the washing effect of the cloth 10 is improved.

In the washboard type oscillating washing tank, the lower cloth guide roller 3 is preferably a wavy roller with a wavy surface. When the lower cloth guide roller 3 of the wavy roller guides the cloth 10, the friction force between the lower cloth guide roller 3 and the cloth 10 is larger, the cloth is smoother, and when the cloth 10 is coated on the lower cloth guide roller 3, the contact surface between the cloth 10 and the surface of the lower cloth guide roller 3 is smaller, and the surface of the cloth 10, which is in contact with the lower cloth guide roller 3, is also provided with a gap, so that the cloth 10 can be conveniently washed, and the washing effect of the cloth 10 is improved; in addition, when the lower cloth guide roller 3 guides cloth to rotate, the rotating wavy roller can excite larger water waves, so that the water oscillates, the oscillated clean water is more beneficial to the diffusion of dye molecules in the fabric 10, and the washing effect of the fabric 10 is better.

In the washboard type oscillating washing tank, the upper cloth guide roller 2 is preferably positioned in the water tank 1. With this arrangement, a highly airtight washing tank can be formed.

In the washboard type oscillating washing tank, preferably, the number of the upper cloth guide roller 2 and the lower cloth guide roller 3 is a plurality of cloth guide rollers, and the upper cloth guide roller 2 and the lower cloth guide roller 3 are horizontally arranged. The cloth holding capacity of the fabric 10 in the water tank 1 can be improved under the arrangement of the upper cloth guide rollers 2 and the lower cloth guide rollers 3, and meanwhile, the fabric 10 in the water tank 1 repeatedly enters the cleaning water for washing for multiple times, so that the washing effect is better.

The washboard type vibration washing tank can be widely applied to washing various fiber woven fabrics such as knitting and tatting.

It should be understood by those skilled in the art that the present utility model may be embodied in many different forms without departing from the spirit or essential characteristics thereof.

Claims (10)

1. The utility model provides a washboard formula concussion washing tank, includes the basin, and go up the cloth guide roller and lower cloth guide roller of arranging from top to bottom, lower cloth guide roller is located in the basin, go up the cloth guide roller with be formed with fabric conveying path between the cloth guide roller down, its characterized in that: the novel fabric conveying device is characterized in that a wave plate is arranged on the fabric conveying path, the surface of the wave plate is contacted with the fabric conveying path, an oscillating mechanism is further arranged in the water tank, the oscillating mechanism comprises an oscillating block and a driving mechanism, and the oscillating block is in transmission connection with the driving mechanism and is driven to move by the driving mechanism.

2. The washboard type oscillating washing tank of claim 1, wherein: the wave plate is positioned between the upper cloth guide roller and the lower cloth guide roller, and the wave plate is vertically arranged.

3. The washboard type oscillating washing tank of claim 1, wherein: and a wave plate is arranged on any section of fabric conveying path between the upper fabric guide roller and the lower fabric guide roller.

4. The washboard type oscillating washing tank of claim 1, wherein: and two ends of the wave plate are respectively close to the upper cloth guide roller and the lower cloth guide roller.

5. The washboard type oscillating washing tank of claim 1, wherein: the surface of the vibration block is wavy.

6. The washboard type oscillating washing tank of claim 1, wherein: the oscillating block is in transmission connection with the driving mechanism and driven by the driving mechanism to move in a lifting manner.

7. The washboard type oscillating washing tank of claim 1, wherein: the driving mechanism comprises a rotating shaft and a connecting rod, one end of the connecting rod is eccentrically hinged with the rotating shaft, and the other end of the connecting rod is hinged with the oscillating block.

8. The washboard type oscillating washing tank of claim 1, wherein: the vibration mechanism is positioned between the upper cloth guide roller and the lower cloth guide roller and between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed.

9. The washboard type oscillating washing tank of claim 1, wherein: an oscillating mechanism is arranged between the upper cloth guide roller and the lower cloth guide roller and between two adjacent sections of fabric conveying paths which are horizontally arranged and distributed.

10. The washboard type oscillating washing tank of claim 1, wherein: the upper cloth guide roller and the lower cloth guide roller are wavy rollers with wavy surfaces.