阅读说明：本技术 松式水洗机 (Loose type washing machine ) 是由 崔建荣 于 2020-06-18 设计创作，主要内容包括：本发明公开了一种松式水洗机,包括主体部分,主体部分由若干水洗箱并排连接而成,水洗箱包括上箱体、下箱体和后箱体,上箱体内具有带动坯布向前运动并对坯布施压的可调式轧辊部件,下箱体内分隔形成多个水洗槽,相邻的水洗槽之间通过走布管相连,后箱体内具有动力传动部件,动力传动部件驱动可调式轧辊部件带动织物运动对织物进行舒张和抚平,通过走布管向着下一个水洗槽继续运动。通过上述方式,本发明松式水洗机可以根据需要自由叠加水洗箱数量,使用起来更加灵活,织物传送时连续运转不容易出现掉布现象,水洗槽内存布量正常,提高水洗效率,保证水洗效果。(The invention discloses a loose washing machine which comprises a main body part, wherein the main body part is formed by connecting a plurality of washing tanks side by side, each washing tank comprises an upper tank body, a lower tank body and a rear tank body, an adjustable roller part for driving gray fabric to move forwards and applying pressure to the gray fabric is arranged in each upper tank body, a plurality of washing tanks are formed in each lower tank body in a separated mode, adjacent washing tanks are connected through a cloth feeding pipe, a power transmission part is arranged in each rear tank body and drives each adjustable roller part to drive the fabric to move so as to relax and smooth the fabric, and the fabric continues to move towards the next washing tank through the cloth feeding pipe. Through the mode, the loose washing machine can freely superpose the number of the washing tanks according to the requirement, is more flexible to use, is not easy to cause cloth falling phenomenon in the continuous operation of the fabric during conveying, has normal cloth storage amount in the washing tank, improves the washing efficiency and ensures the washing effect.)

1. A loose washer, comprising: the main body part is formed by connecting a plurality of water washing boxes side by side, each water washing box comprises an upper box body, a lower box body and a rear box body,

the upper box body is internally provided with an adjustable roller part which drives the grey cloth to move forwards and applies pressure to the grey cloth, the lower box body is internally divided into a plurality of rinsing baths, adjacent rinsing baths are connected through a cloth feeding pipe, the rear box body is internally provided with a power transmission part, the power transmission part drives the adjustable roller part to drive the fabric to move so as to relax and smooth the fabric, and the fabric continues to move towards the next rinsing bath through the cloth feeding pipe.

2. The loose-type washing machine of claim 1, wherein the adjustable roll members comprise a driving sprocket, a driving roll, an upper press roll, a fulcrum and a driven sprocket,

a driving motor and a driving chain wheel are arranged at one end of a roll shaft of the driving roll, a driven chain wheel is connected at one end of the support shaft, chains are wound on the driving chain wheel and the driven chain wheel, an upper compression roll is arranged above the driving roll and is vertically parallel to the driving roll, a gap for the fabric to pass through is arranged between the upper compression roll and the driving roll,

a first gear is arranged on the fulcrum shaft, a second gear is arranged on a roll shaft of the upper press roll, the first gear is in meshing transmission with the second gear, the fulcrum shaft is in transmission connection with the upper press roll through the first gear and the second gear,

after the fabric enters from the fabric feeding end, the fabric is introduced between the upper pressing roller and the driving roller through the fabric guide roller, the driving roller is driven to rotate by the power transmission part, the driving sprocket is connected with the driven sprocket through a chain to drive a support shaft connected with the driven sprocket to rotate, the support shaft drives the upper pressing roller to rotate through the transmission of the first gear and the second gear, and the synchronous rotation of the upper pressing roller and the driving roller is realized.

3. The loose-type washing machine as claimed in claim 2, further comprising an air cylinder for driving the upper pressing roller to move up and down, wherein one end of the air cylinder is hinged to the air cylinder base, an output shaft of the air cylinder is hinged to a support arm, the upper pressing roller is hinged to the support arm, the support arm is connected to a support rod of the frame, the output shaft of the air cylinder moves downward or upward, and the support arm is pushed to rotate to drive the upper pressing roller to press downward or lift upward.

4. The loose type washing machine as claimed in claim 1, wherein each washing tank is further provided with a cloth guide ring correspondingly matched with the adjustable roller part for lifting the fabric, the cloth guide ring is connected with a rotating shaft, the other end of the rotating shaft is connected with a balancing weight through a balancing weight connecting rod, the lower part of the balancing weight is abutted against the proximity switch,

the balancing weight and the cloth guide ring are arranged on the same side, one side of the balancing weight and the cloth guide ring is also provided with a limiting rod and a second limiting rod, one end of the second limiting rod is connected with the rotating shaft, the other end of the second limiting rod is arranged in contact with the first limiting rod,

when the fabric normally works, the fabric can normally pass through the fabric guide ring, the balancing weight is abutted against the proximity switch by virtue of the first limiting rod and the second limiting rod, and the fabric enters the water washing tank for normal washing;

when the fabric is knotted, the cloth guide ring is taken up, the rotating shaft connected with the cloth guide ring rotates along with the cloth guide ring, and meanwhile, the balancing weight connected to the rotating shaft is driven to move upwards to leave the proximity switch, so that the shutdown alarm is realized.

5. The loose-type washing machine as claimed in claim 1, wherein the cloth dropping end of the washing tank is provided with a cloth swinging component, the cloth swinging component comprises an eccentric wheel, a driving connecting rod, a swinging arm, a swinging shaft and a cloth swinging bucket, the eccentric wheel is eccentrically connected with one end of the driving connecting rod, the other end of the driving connecting rod is hinged with the swinging arm, the other end of the swinging arm is connected with the cloth swinging bucket through the swinging shaft,

the eccentric wheel is driven by the power transmission part to rotate, the eccentric wheel drives the driving connecting rod to move up and down, and the driving connecting rod drives the cloth swinging hopper to swing left and right through the swinging arm and the swinging shaft, so that the fabrics are stacked left and right in the water tank.

6. The loose-type washing machine as claimed in claim 1, wherein the washing tank is L-shaped in cross section and comprises a bottom plate and a side wall, the side wall surrounds the periphery of the bottom plate to form a cloth containing cavity with an upper opening, a first cloth containing area and a second cloth containing area are formed in the cloth containing cavity, the height of cloth contained in the cloth containing cavity is gradually decreased from the first cloth containing area to the second cloth containing area, and the cloth containing cavity is integrally arranged in an inclined manner from a cloth inlet end to a cloth falling end.

7. The loose-type washing machine as claimed in claim 6, wherein the back end and the front end of the washing tank are respectively provided with a pull-empty detection part and a cloth-blocking detection assembly,

the cloth-blocking detection assembly is used for detecting a transmission cloth-blocking signal and controlling cloth discharging to accelerate from the rear end of the rinsing bath.

8. The loose washing machine as claimed in claim 7, wherein the pull-empty detection assembly comprises a rear limit baffle, a limit seat, a spring, a limit sleeve, a limit rod, a lock nut and a pull-empty proximity switch which are arranged at the rear end of the washing tank,

the rear limiting baffle is hinged at the rear end of the rinsing bath, a limiting sleeve is arranged in a limiting groove hole of the limiting seat, the rear end of the limiting rod is inserted into the limiting sleeve and extends backwards to be contacted with the rear limiting baffle, the front end of the limiting rod extends out of the limiting sleeve, a locking nut is also arranged at the front end of the limiting rod,

the limiting rod is sleeved with a spring which is positioned in an axial gap between the limiting rod and the limiting sleeve, the pull-out proximity switch is arranged near the limiting rod and is connected with the limiting rod in an induction way,

when the pull-out mechanism is pulled out, the rear limiting baffle is pulled forward by the cloth to drive the limiting rod in contact with the rear limiting baffle to pull forward, and the limiting rod pulls forward to touch the pull-out proximity switch to send out a pull-out signal.

9. The loose-type washing machine as claimed in claim 7, wherein the cloth-blocking detection assembly comprises a front limit baffle at the front end of the washing tank, a stainless steel cable, a pin shaft, a pulley block, a heavy hammer, a guide post and a cloth-blocking proximity switch,

the front limit baffle is hinged at the front end of the rinsing bath, the front limit baffle is connected with a front limit baffle connector through a hinge, one end of a stainless steel cable is connected with the front limit baffle connector, the other end of the stainless steel cable is connected with a heavy hammer, the heavy hammer can slide up and down along a guide post, a cloth blocking proximity switch is arranged near the heavy hammer and is connected with the heavy hammer in a sensing way,

when the cloth is blocked, the cloth pushes the front limit baffle, the front limit baffle rotates to drive the front limit baffle connector to rotate, the stainless steel cable slides along a stainless steel cable channel on the pulley block to drive a heavy hammer outside the pulley block to slide along the guide pillar, and the cloth blocking proximity switch is triggered to send a cloth blocking signal.

10. The loose washing machine as claimed in any one of claims 1 to 9, wherein the cloth feeding end and the cloth discharging end of the main body part are respectively provided with a cloth feeding frame and a cloth discharging frame, a cloth feeding roller and a driving roller for realizing cloth feeding motion are arranged in the cloth feeding frame, a cloth discharging press roller and a cloth discharging roller for realizing cloth discharging motion are arranged in the cloth discharging frame, and the number of the washing tanks between the cloth feeding frame and the cloth discharging frame can be freely overlapped.

Technical Field

The invention relates to the technical field of printing and dyeing equipment, in particular to a loose type washing machine.

Background

The loose type washing machine is mainly characterized in that the single-end rope-shaped fabric is soaked and rolled in a loose state, and is suitable for washing the rope-shaped fabric which cannot bear too large tension, such as printing lining cloth or knitted fabric.

At present, the cloth clamping and falling phenomena easily occur in the production process of the washing machine, the production continuity is influenced, and the production efficiency is reduced.

Disclosure of Invention

The invention mainly solves the technical problem of providing the loose washing machine, the number of washing tanks can be freely overlapped according to needs, the loose washing machine is more flexible to use, the fabric is not easy to fall off when the fabric is conveyed and continuously runs, the fabric quantity in the washing tanks is normal, the washing efficiency is improved, and the washing effect is ensured.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a loose water washing machine comprising: the main body part is formed by connecting a plurality of water washing boxes side by side, each water washing box comprises an upper box body, a lower box body and a rear box body,

the upper box body is internally provided with an adjustable roller part which drives the grey cloth to move forwards and applies pressure to the grey cloth, the lower box body is internally divided into a plurality of rinsing baths, adjacent rinsing baths are connected through a cloth feeding pipe, the rear box body is internally provided with a power transmission part, the power transmission part drives the adjustable roller part to drive the fabric to move so as to relax and smooth the fabric, and the fabric continues to move towards the next rinsing bath through the cloth feeding pipe.

In a preferred embodiment of the present invention, the adjustable roll unit includes a driving sprocket, a driving roll, an upper press roll, a fulcrum and a driven sprocket,

a driving motor and a driving chain wheel are arranged at one end of a roll shaft of the driving roll, a driven chain wheel is connected at one end of the support shaft, chains are wound on the driving chain wheel and the driven chain wheel, an upper compression roll is arranged above the driving roll and is vertically parallel to the driving roll, a gap for the fabric to pass through is arranged between the upper compression roll and the driving roll,

a first gear is arranged on the fulcrum shaft, a second gear is arranged on a roll shaft of the upper press roll, the first gear is in meshing transmission with the second gear, the fulcrum shaft is in transmission connection with the upper press roll through the first gear and the second gear,

after the fabric enters from the fabric feeding end, the fabric is introduced between the upper pressing roller and the driving roller through the fabric guide roller, the driving roller is driven to rotate by the power transmission part, the driving sprocket is connected with the driven sprocket through a chain to drive a support shaft connected with the driven sprocket to rotate, the support shaft drives the upper pressing roller to rotate through the transmission of the first gear and the second gear, and the synchronous rotation of the upper pressing roller and the driving roller is realized.

In a preferred embodiment of the invention, the device further comprises an air cylinder for driving the upper compression roller to move up and down, one end of the air cylinder is hinged on an air cylinder seat, an output shaft of the air cylinder is hinged on a support arm, the upper compression roller is hinged on the support arm, the support arm is connected on a support rod of the machine frame, and the output shaft of the air cylinder moves downwards or upwards to push the support arm to rotate so as to drive the upper compression roller to press downwards or lift upwards.

In a preferred embodiment of the invention, each rinsing bath is also correspondingly provided with a cloth guide ring which is matched with the adjustable roller part for lifting the fabric, the cloth guide ring is connected with a rotating shaft, the other end of the rotating shaft is connected with a balancing weight through a balancing weight connecting rod, the lower part of the balancing weight is abutted against the proximity switch,

the balancing weight and the cloth guide ring are arranged on the same side, one side of the balancing weight and the cloth guide ring is also provided with a limiting rod and a second limiting rod, one end of the second limiting rod is connected with the rotating shaft, the other end of the second limiting rod is arranged in contact with the first limiting rod,

when the fabric normally works, the fabric can normally pass through the fabric guide ring, the balancing weight is abutted against the proximity switch by virtue of the first limiting rod and the second limiting rod, and the fabric enters the water washing tank for normal washing;

when the fabric is knotted, the cloth guide ring is taken up, the rotating shaft connected with the cloth guide ring rotates along with the cloth guide ring, and meanwhile, the balancing weight connected to the rotating shaft is driven to move upwards to leave the proximity switch, so that the shutdown alarm is realized.

In a preferred embodiment of the invention, the cloth placing end of the washing tank is provided with a cloth placing component, the cloth placing component comprises an eccentric wheel, a driving connecting rod, a swinging arm, a swinging shaft and a cloth placing bucket, the eccentric wheel is eccentrically connected with one end of the driving connecting rod, the other end of the driving connecting rod is hinged with the swinging arm, the other end of the swinging arm is connected with the cloth placing bucket through the swinging shaft,

the eccentric wheel is driven by the power transmission part to rotate, the eccentric wheel drives the driving connecting rod to move up and down, and the driving connecting rod drives the cloth swinging hopper to swing left and right through the swinging arm and the swinging shaft, so that the fabrics are stacked left and right in the water tank.

In a preferred embodiment of the invention, the cross section of the rinsing bath is L-shaped, the rinsing bath comprises a bottom plate and a side wall, the side wall surrounds the periphery of the bottom plate to form a cloth containing cavity with an opening at the upper part, a first cloth containing area and a second cloth containing area are formed inside the cloth containing cavity, the cloth containing height in the cloth containing cavity is gradually reduced from the first cloth containing area to the second cloth containing area, and the whole cloth containing cavity is arranged in an inclined manner from a cloth inlet end to a cloth falling end.

In a preferred embodiment of the invention, the rear end and the front end of the rinsing bath are respectively provided with a pull-out detection part and a cloth blockage detection component,

the cloth-blocking detection assembly is used for detecting a transmission cloth-blocking signal and controlling cloth discharging to accelerate from the rear end of the rinsing bath.

In a preferred embodiment of the invention, the emptying detection assembly comprises a rear limit baffle plate, a limit seat, a spring, a limit sleeve, a limit rod, a locking nut and an emptying proximity switch which are positioned at the rear end of the rinsing bath,

the rear limiting baffle is hinged at the rear end of the rinsing bath, a limiting sleeve is arranged in a limiting groove hole of the limiting seat, the rear end of the limiting rod is inserted into the limiting sleeve and extends backwards to be contacted with the rear limiting baffle, the front end of the limiting rod extends out of the limiting sleeve, a locking nut is also arranged at the front end of the limiting rod,

the limiting rod is sleeved with a spring which is positioned in an axial gap between the limiting rod and the limiting sleeve, the pull-out proximity switch is arranged near the limiting rod and is connected with the limiting rod in an induction way,

when the pull-out mechanism is pulled out, the rear limiting baffle is pulled forward by the cloth to drive the limiting rod in contact with the rear limiting baffle to pull forward, and the limiting rod pulls forward to touch the pull-out proximity switch to send out a pull-out signal.

In a preferred embodiment of the invention, the cloth blockage detection component comprises a front limit baffle plate, a stainless steel cable, a pin shaft, a pulley block, a heavy hammer, a guide post and a cloth blockage proximity switch which are positioned at the front end of the rinsing bath,

the front limit baffle is hinged at the front end of the rinsing bath, the front limit baffle is connected with a front limit baffle connector through a hinge, one end of a stainless steel cable is connected with the front limit baffle connector, the other end of the stainless steel cable is connected with a heavy hammer, the heavy hammer can slide up and down along a guide post, a cloth blocking proximity switch is arranged near the heavy hammer and is connected with the heavy hammer in a sensing way,

when the cloth is blocked, the cloth pushes the front limit baffle, the front limit baffle rotates to drive the front limit baffle connector to rotate, the stainless steel cable slides along a stainless steel cable channel on the pulley block to drive a heavy hammer outside the pulley block to slide along the guide pillar, and the cloth blocking proximity switch is triggered to send a cloth blocking signal.

In a preferred embodiment of the invention, the cloth feeding end and the cloth discharging end of the main body part are respectively provided with a cloth feeding frame and a cloth discharging frame, a cloth feeding roller and a driving roller for realizing cloth feeding motion are arranged in the cloth feeding frame, a cloth discharging press roller and a cloth discharging roller for realizing cloth discharging motion are arranged in the cloth discharging frame, and the number of the water washing boxes between the cloth feeding frame and the cloth discharging frame can be freely overlapped.

The invention has the beneficial effects that: the number of the washing tanks of the loose washing machine can be freely overlapped according to needs, the loose washing machine is more flexible to use, the fabric is not easy to fall off when the fabric is conveyed in a continuous operation mode, the fabric storage amount in the washing tank is normal, the washing efficiency is improved, and the washing effect is ensured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a front view of a preferred embodiment of the loose water washer of the present invention;

FIG. 2 is a side view of a preferred embodiment of the loose water washer of the present invention;

FIG. 3 is a schematic structural view of another preferred embodiment of the loose water washing machine of the present invention;

FIG. 4 is a schematic diagram of the construction of the rinsing bath of the loose water washer of the present invention;

FIG. 5 is a schematic view of the adjustable roll assembly of the loose water washing machine of the present invention;

FIG. 6 is a schematic view of the A-direction structure of FIG. 5;

FIG. 7 is a schematic view of the working principle of the adjustable roll component of the loose water washing machine of the present invention;

FIG. 8 is a schematic structural view of a knotting automatic stop component of the loose water washing machine of the present invention;

FIG. 9 is a schematic structural view of the cloth swinging component of the loose water washing machine of the present invention;

FIG. 10 is a schematic view of the detection component of the loose water washing machine;

FIG. 11 is a schematic structural view of a cloth jam detecting component of the loose-type washing machine of the present invention;

FIG. 12 is a schematic view showing a plurality of washing tanks of the loose water washing machine of the present invention connected;

the parts in the drawings are numbered as follows: 100. a cloth feeding frame 110, a cloth feeding roller 120, a driving roller 200, a cloth discharging frame 210, a cloth discharging press roller 220, a cloth discharging roller 300, a washing box 310, an upper box body 320, a lower box body 330, a rear box body 340, a washing tank 341, a bottom plate 342, a side wall 343, a cloth containing cavity 344, a first cloth containing area 345, a second cloth containing area 350 and a cloth moving pipe,

400. an adjustable roller component 401, a driving motor 402, a driving chain wheel 403, a driving roller 404, an upper pressing roller 405, a fulcrum shaft 406, a driven chain wheel 407, a cloth guide roller 408, a first gear 409, a second gear 410, a support rod 411, a support arm 412, a cylinder 413, a cylinder seat,

500. knotting automatic stop component 510, cloth guide ring 520, rotating shaft 530, bearing seat 540, first limiting rod 550, second limiting rod 560, balancing weight 570, balancing weight connecting rod,

600. a cloth swinging component 610, an eccentric wheel 620, a driving connecting rod 630, a swinging arm 640, a swinging shaft 650, a cloth swinging bucket,

700. a pull-empty detection part 710, a rear limit baffle 720, a limit seat 730, a spring 740, a limit sleeve 750, a limit rod 760, a lock nut 770 and a pull-empty proximity switch,

800. the cloth blocking detection device comprises a cloth blocking detection part 810, a front limit baffle 820, a front limit baffle connector 830, a stainless steel cable 850, a pulley block 860, a heavy hammer 870, a guide post 880 and a cloth blocking proximity switch.

Detailed Description

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

Referring to fig. 1 to 12, an embodiment of the present invention includes:

a loose water washer comprising: the main part, the main part is formed by connecting a plurality of washing casees 300 side by side, and the cloth feeding end and the cloth discharging end of the main part are respectively provided with a cloth feeding frame 100 and a cloth discharging frame 200, and the quantity of the washing casees 300 between the cloth feeding frame 100 and the cloth discharging frame 200 can be freely superposed as required, so that the washing machine is more flexible to use.

The cloth feeding frame 100 is internally provided with a cloth feeding roller 110 and a driving roller 120 for realizing cloth feeding movement, and the cloth discharging frame 200 is internally provided with a cloth discharging pressing roller 210 and a cloth discharging roller 220 for realizing cloth discharging movement.

The washing tank 300 comprises an upper tank body 310, a lower tank body 320 and a rear tank body 330, wherein an adjustable roller part 400 which drives the gray fabric to move forwards and applies pressure to the gray fabric is arranged in the upper tank body 310, a plurality of washing tanks 340 are formed in the lower tank body 320 in a separated mode, the adjacent washing tanks 340 are connected through a fabric walking pipe 350, a power transmission part is arranged in the rear tank body 330 and drives the adjustable roller part 400 to drive the fabric to move so as to relax and smooth the fabric, and the fabric continuously moves towards the next washing tank 340 through the fabric walking pipe 350.

The adjustable roller component 400 comprises a driving sprocket 402, a driving roller 403, an upper pressing roller 404, a fulcrum 405 and a driven sprocket 406, wherein one end of a roller shaft of the driving roller 403 is provided with a driving motor 401 and the driving sprocket 402, one end of the fulcrum 405 is connected with the driven sprocket 406, chains are wound on the driving sprocket 402 and the driven sprocket 406, the upper pressing roller 404 is arranged above the driving roller 403 and is arranged in an up-and-down parallel manner with the driving roller 403, a gap for a fabric to pass through is arranged between the upper pressing roller 404 and the driving roller 403,

a first gear 408 is arranged on the fulcrum 405, a second gear 409 is arranged on the roller shaft of the upper pressing roller 404, the first gear 408 is in meshed transmission with the second gear 409, the fulcrum 405 is in transmission connection with the upper pressing roller 404 through the first gear 408 and the second gear 409,

after entering from a cloth feeding end, the fabric is introduced between an upper press roll 404 and a drive roll 403 through a cloth guide roll 407, the drive roll 403 is driven to rotate by a drive motor 401, a drive sprocket 402 is connected with a driven sprocket 406 through a chain to drive a fulcrum 405 connected with the driven sprocket 406 to rotate, the fulcrum 405 drives the upper press roll 404 to rotate through the transmission of a first gear 408 and a second gear 409, and the synchronous rotation of the upper press roll 404 and the drive roll 403 is realized.

The adjustable roller component 400 further comprises an air cylinder 412 for driving the upper pressing roller 404 to move up and down, one end of the air cylinder 412 is hinged to an air cylinder seat 413, an output shaft of the air cylinder 412 is hinged to a support arm 411, the upper pressing roller 401 is hinged to the support arm 411, the support arm 411 is connected to a support rod 410 of the rack, the output shaft of the air cylinder 412 moves downwards or upwards, the support arm 411 is pushed to rotate to drive the upper pressing roller 401 to press downwards or lift upwards, the fabric is relaxed and smoothed, then the fabric falls into the next rinsing bath, and finally the fabric is output by the fabric outlet frame 200.

The upper press roll 404 and the drive roll 403 can both rotate actively, the rotating speed is kept consistent, the upper press roll 404 can be used for normal rotation of the upper press roll 404, the upper press roll 404 can also be used for normal operation when the upper press roll 404 presses down wrinkles when sensitive fabrics pass through, the fabric falling phenomenon is not easy to occur, and the continuity of conveying is ensured.

Each rinsing bath 340 is correspondingly provided with a cloth guide ring 510 which is matched with the adjustable roller part 400 and used for lifting fabrics, a knotting automatic stop part 500 is arranged near the cloth guide ring 510, the knotting automatic stop part 500 comprises a rotating shaft 520 connected with the cloth guide ring 510, the rotating shaft 520 is supported through a bearing seat 530, the other end of the rotating shaft 520 is connected with a balancing weight 560 through a balancing weight connecting rod 570, and the lower part of the balancing weight 560 abuts against a knotting proximity switch.

The balancing weight 560 is disposed on the same side as the cloth guide ring 510, a first limiting rod 540 and a second limiting rod 550 are further disposed on one side of the balancing weight 560 and the cloth guide ring 510, one end of the second limiting rod 550 is connected to the rotating shaft 520, and the other end of the second limiting rod 550 is in contact with the first limiting rod 540.

When the fabric normally works, the fabric can normally pass through the fabric guide ring, the balancing weight 560 is abutted against the knotting proximity switch by virtue of the first limiting rod 540 and the second limiting rod 550, and the fabric enters the rinsing bath for normal rinsing;

when the fabric is knotted, the cloth guide ring 510 is taken up, the rotating shaft 520 connected with the cloth guide ring 510 rotates along with the cloth guide ring 510, and meanwhile, the balancing weight 560 connected to the rotating shaft 520 is driven to move upwards to leave the knotting proximity switch, so that shutdown alarm is realized.

The cloth swinging part 600 is arranged at the cloth falling end of the washing tank, the cloth swinging part 600 comprises an eccentric wheel 610, a driving connecting rod 620, a swinging arm 630, a swinging shaft 640 and a cloth swinging hopper 650, the eccentric wheel 610 is eccentrically connected with one end of the driving connecting rod 620, the other end of the driving connecting rod 620 is hinged with the swinging arm 630, the other end of the swinging arm 630 is connected with the cloth swinging hopper 650 through the swinging shaft 640,

the eccentric wheel 610 is driven by the power transmission part to rotate, the eccentric wheel 610 drives the driving connecting rod 620 to move up and down, and the driving connecting rod 620 drives the cloth swinging hopper 650 to swing left and right through the swinging arm 630 and the swinging shaft 640, so that the fabrics are stacked left and right in the rinsing bath 340.

The rinsing tank 340 comprises a bottom plate 341 and a side wall 342, the side wall 342 surrounds the periphery of the bottom plate 341 to form a cloth accommodating cavity 343 with an upper opening, a first cloth accommodating area 344 and a second cloth accommodating area 345 are formed inside the cloth accommodating cavity 343, the cloth accommodating height in the cloth accommodating cavity 343 is gradually reduced from the first cloth accommodating area 344 to the second cloth accommodating area 345, and the whole cloth accommodating cavity 343 is arranged in an inclined manner from a cloth feeding end to a cloth dropping end.

Preferably, the inclination angle of the vertical axis at the separation of the first cloth containing region 344 and the second cloth containing region 345 to the bottom end face of the second cloth containing region 345 is 91.82 °.

The cross-sectional shape of wash bowl 340 is the L type, and L type basin more is suitable for the normal forward operation of cloth, and unlike U type basin, the operation of cloth is by the extrusion easily breaking down, and L type basin has certain inclination, more does benefit to the forward propelling movement of cloth.

The rear end and the front end of the rinsing bath 340 are respectively provided with a pulling-empty detection component 700 and a cloth-blocking detection component 800, the pulling-empty detection component 700 is used for detecting a transmission pulling-empty signal and controlling the cloth feeding to accelerate from the front end of the rinsing bath 340, and the cloth-blocking detection component 800 is used for detecting a transmission cloth-blocking signal and controlling the cloth feeding to accelerate from the rear end of the rinsing bath 340.

The emptying detection assembly 700 comprises a rear limit baffle 710, a limit seat 720, a spring 730, a limit sleeve 740, a limit rod 750, a lock nut 760 and an emptying proximity switch 770 which are positioned at the rear end of the rinsing bath 340,

the rear limiting baffle 710 is hinged to the rear end of the rinsing bath 340, a limiting sleeve 740 is mounted in a limiting groove hole of the limiting seat 720, the rear end of the limiting rod 750 is inserted into the limiting sleeve 740 and extends backwards to be in contact with the rear limiting baffle 710, the front end of the limiting rod 750 extends out of the limiting sleeve 740, a locking nut 760 is further mounted at the front end of the limiting rod 750, a spring 730 is sleeved on the limiting rod 750, the spring 730 is located in an axial gap between the limiting rod 750 and the limiting sleeve 740, and a pull-out proximity switch 770 is arranged near the limiting rod 750 and is in inductive connection with the limiting rod 750;

when the air is drawn, the rear limiting baffle 710 is drawn forwards by the cloth to drive the limiting rod 750 contacting with the rear limiting baffle 710 to draw forwards, and the limiting rod 750 draws forwards to trigger the air-drawing proximity switch 770 to send an air-drawing signal.

The cloth blockage detection component 800 comprises a front limit baffle 810 positioned at the front end of the washing tank 340, a stainless steel cable 830, a pulley block 850, a heavy hammer 860, a guide post 870 and a cloth blockage proximity switch 880,

the front limit baffle 810 is hinged at the front end of the rinsing bath 340, the front limit baffle 810 is connected with a front limit baffle connector 820 through a hinge, one end of a stainless steel cable 830 is connected with the front limit baffle connector 820, the other end is connected with a heavy hammer 860, the heavy hammer 860 can slide up and down along a guide post 870, a cloth blocking approach switch 880 is arranged near the heavy hammer 860 and is connected with the heavy hammer 860 in an induction way,

when cloth is blocked, the cloth pushes the front limit baffle 810, the front limit baffle 810 rotates to drive the front limit baffle connector 820 to rotate, the stainless steel cable 830 slides along a stainless steel cable channel on the pulley block 850 to drive a heavy hammer 860 outside the pulley block 850 to slide along a guide column, and the cloth blocking proximity switch is triggered to send 880 a cloth blocking signal.

The loose type washing machine has the beneficial effects that:

the quantity of the water washing tanks can be freely superposed as required, the use is more flexible, the fabric is not easy to fall off in the continuous operation during the fabric conveying, the fabric quantity in the water washing tank is normal, the water washing efficiency is improved, and the water washing effect is ensured.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.