CN209975145U - Stepped water-saving washing machine - Google Patents

Abstract

The utility model relates to a step type water-saving rinsing machine, belonging to the technical field of rinsing machines, which comprises a frame, wherein a first rinsing bath, a second rinsing bath and a third rinsing bath which are sequentially raised in height and provided with a conveyer are sequentially arranged on the frame; the side wall that the second wash bowl is close to first wash bowl is last, the through-hole has all been seted up on the side wall that the third wash bowl is close to the second wash bowl, be provided with crowded water installation in the through-hole, crowded water installation includes crowded water frame, crowded water frame fixed mounting is on the inner wall of through-hole, crowded water frame includes horizon bar and vertical pole, the crowded water wheel of level is installed in rotating on the horizon bar of crowded water frame, rotate on the vertical pole of crowded water frame and install vertical crowded water wheel, form crowded mouth of a river between crowded water wheel of level and the vertical crowded water wheel. The utility model has the effect of avoiding mutual pollution of water between the rinsing tanks and saving water.

Description

Stepped water-saving washing machine

Technical Field

The utility model belongs to the technical field of the technique of rinsing machine and specifically relates to a cascaded water conservation rinsing machine is related to.

Background

At present, after the cloth is treated by an alkali deweighting machine, the cloth needs to be washed by a washing machine, alkali liquor remained in the cloth and impurities attached to the surface of the cloth are washed away, and then the cloth enters a dye vat for dyeing.

The existing cloth washing machine generally comprises a rack, a plurality of washing tanks, a water inlet pipe and a water outlet pipe, wherein the rack is sequentially provided with the plurality of washing tanks, the water inlet pipe and the water outlet pipe are arranged in the washing tanks, and the cloth which is processed by an alkali reduction machine is washed by a manual cloth placing mode, a manual cloth stirring mode and a manual cloth taking mode.

The above prior art solutions have the following drawbacks: although the water between a plurality of wash bowl is not circulated, but the workman when taking out the cloth from a wash bowl and putting into another wash bowl again, the sewage that remains in last wash bowl in the cloth can pollute the water in next wash bowl, lead to the cross contamination of adjacent wash bowl water, and the water in general wash bowl becomes clear step by step, the cross contamination of adjacent wash bowl water leads to wasing the cloth and needs more wash bowls, and when changing the water in the wash bowl, need change the water in whole wash bowls, the waste of water resource has been caused, consequently need one kind can avoid the purpose of the mutual water washing machine that pollutes of sewage in the adjacent wash bowl in order to reach the water conservation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cascaded water conservation rinsing machine that can wring the sewage in the cloth in order to avoid the sewage between the wash bowl to pollute each other to reach the purpose of water conservation.

The above object of the present invention can be achieved by the following technical solutions:

a stepped water-saving washing machine comprises a rack, wherein a first washing trough, a second washing trough and a third washing trough are sequentially mounted on the rack, the heights of the first washing trough, the second washing trough and the third washing trough are sequentially increased, the first washing trough, the second washing trough and the third washing trough are respectively provided with a conveying device, each conveying device comprises a first conveying roller, the first conveying rollers are rotatably mounted on the inner walls of the first washing trough, the second washing trough or the third washing trough, the conveying devices further comprise second conveying rollers, and the second conveying rollers are rotatably mounted on the upper surfaces of the first washing trough, the second washing trough or the third washing trough; the second wash bowl is close to first wash bowl and is higher than on the lateral wall of first wash bowl the third wash bowl is close to the second wash bowl and is higher than the through-hole has been seted up on the lateral wall of second wash bowl, be provided with crowded water installation in the through-hole, crowded water installation includes crowded water frame, crowded water frame fixed mounting be in on the inner wall of through-hole, crowded water frame includes horizon bar and vertical pole, rotate on the horizon bar and install the crowded water wheel of level, rotate on the vertical pole and install vertical crowded water wheel, the crowded water wheel of level with form crowded mouth of a river between the vertical crowded water wheel.

By adopting the technical scheme, the cloth is conveyed into the first rinsing bath by the first conveying roller, the water in the first rinsing bath is dirtiest, after the cloth in the first rinsing bath is cleaned, the cloth is pulled out of the first rinsing bath by the second conveying roller, the cloth enters the second rinsing bath through the through hole, the water squeezing device is arranged in the through hole, and the water squeezing ports formed among the four water squeezing wheels of the water squeezing device are smaller, so that when the cloth passes through the water squeezing device, the four water squeezing wheels rotate and squeeze the cloth to squeeze the sewage in the cloth and flow back to the first rinsing bath, the pollution of the sewage remained in the cloth to the water in the second rinsing bath is reduced, after the cloth is cleaned in the second rinsing bath, the cloth passes through the water squeezing device to enter the third rinsing bath, after the cloth is cleaned in the third rinsing bath, the sewage enters the next procedure through the through hole, and the pollution of the sewage in the previous rinsing bath to the water in the next rinsing bath is reduced, the frequency of cleaning cloth is reduced, the use amount of clean water is reduced, and the purpose of saving water is achieved.

The utility model discloses further set up to: and a through hole is also formed in the side wall of the third rinsing bath, which is far away from the second rinsing bath, and a water squeezing device is arranged in the through hole.

By adopting the technical scheme, after the cloth is cleaned by the third rinsing bath, the water remained in the cloth can be extruded by the water extruding device through the water extruding device and flows into the third rinsing bath, so that the pollution of the remained water on the cloth to the working environment is reduced.

The utility model discloses further set up to: the second wash bowl is close to on the lateral wall of first wash bowl with the third wash bowl is close to all be provided with the water jet pump on the lateral wall of second wash bowl, the water inlet of water jet pump with the second wash bowl or the third wash bowl is linked together, be provided with the water spray ring on the delivery port of water jet pump, the water spray ring is installed the second wash bowl is close to on the lateral wall of first wash bowl or the third wash bowl is close to on the lateral wall of second wash bowl, the radius of water spray ring is greater than the radius of through-hole, just the water spray ring with the through-hole is concentric circles.

Through adopting above-mentioned technical scheme, before the cloth in first wash bowl passes through the through-hole and gets into the second wash bowl, remaining sewage concentration is higher in the cloth, take out the water in the second wash bowl through the water jet pump this moment, and spray to the cloth through the water spray ring, dilute remaining sewage in the cloth, make the sewage concentration who remains in the cloth reduce, reduce the pollution to the water in the second wash bowl, before the cloth in the second wash bowl passes through the through-hole and gets into the third wash bowl, also through the water spray dilution, reduced and cleaned the abluent number of times that needs with the cloth, the use amount of clear water has been reduced, the purpose of water conservation has been reached.

The utility model discloses further set up to: the third wash bowl is kept away from also be provided with on the inside wall of second wash bowl the water spray ring, be provided with the inlet tube on the third wash bowl, the inlet tube with the third wash bowl is kept away from the water spray ring on the inside wall of second wash bowl is linked together.

By adopting the technical scheme, the water inlet pipe is arranged on the third rinsing bath, and the clean water in the water inlet pipe flows into the third rinsing bath after being sprayed and washed on the cloth through the water spraying ring, so that the cloth is further washed, the water in the third rinsing bath is pumped out by the water spraying pump to be sprayed and washed on the cloth and then flows into the second rinsing bath, and the water in the second rinsing bath is pumped out by the water spraying pump to be sprayed and washed on the cloth and then flows into the first rinsing bath; because the water in the third wash bowl is cleanest, the cloth can be used for cleaning the cloth in the second wash bowl after being cleaned, and the water in the second wash bowl is cleaner than the water in the first wash bowl, so that the cloth can be used for cleaning the cloth in the first wash bowl after being cleaned, the multi-stage utilization of water is realized, the use efficiency of water is improved, the use amount of water is reduced, and the purpose of water conservation is achieved.

The utility model discloses further set up to: the second rinsing bath is close to on the lateral wall of first rinsing bath, the third rinsing bath is close to on the lateral wall of second rinsing bath and the third rinsing bath is kept away from all be provided with the guide plate on the inside wall of second rinsing bath, the guide plate is located the below of through-hole.

Through adopting above-mentioned technical scheme, set up the guide plate between first wash bowl and the second wash bowl, set up the guide plate between second wash bowl and the third wash bowl, also set up the guide plate in the third wash bowl, consequently by the sewage of crowded water installation extrusion, the water that the water spray ring erupted, all flow into first wash bowl, second wash bowl and third wash bowl through the guide plate in, reduced water because the eminence drops and the possibility that splashes, not only reduced sewage to operational environment's pollution, also reduced the waste of water.

The utility model discloses further set up to: all rotate in first wash bowl, second wash bowl and the third wash bowl and install the washing cage, the washing cage includes the cage body, the centre of a circle fixedly connected with cage axle of cage side wall department, the cage axle runs through the lateral wall of first wash bowl, second wash bowl or third wash bowl, the one end of cage axle is provided with the washing motor, the pivot of washing motor with the cage hub connection, washing motor fixed mounting is in on the lateral wall of first wash bowl, second wash bowl or third wash bowl.

Through adopting above-mentioned technical scheme, when the cloth that remains alkali lye passes into first wash bowl, second wash bowl or third wash bowl via conveyer in, the washing motor starts, and the washing motor drives the cage body and rotates, frequently collides with the cloth and breaks up the cloth by the rope form when the cage body rotates, has increased the area of contact between cloth and the water, and the collision of cloth and cage body reaches the effect of kneading, has strengthened the cleaning performance of each wash bowl.

The utility model discloses further set up to: the water outlet pipe is arranged on the outer wall of one side, away from the second water washing tank, of the first water washing tank, communicated with the first water washing tank, and one end, away from the first water washing tank, of the water outlet pipe is connected to a sewage treatment system.

By adopting the technical scheme, the sewage concentration in the first rinsing bath is too high and can not be recycled, so that the sewage directly enters the sewage treatment system for sewage treatment, and the pollution to the working environment caused by sewage overflow is avoided.

The utility model discloses further set up to: cascaded water conservation rinsing machine still includes the coiling mechanism, the coiling mechanism includes the rolling frame, rolling frame fixed mounting is in the third rinsing bath is kept away from first rinsing bath one side in the frame, fixed mounting has rolling motor on the rolling frame, fixed mounting has first gear in rolling motor's the pivot, still rotate on the rolling frame and install the initiative wind-up roll, the initiative wind-up roll is close to rolling motor's one end fixed mounting has the second gear, rolling motor passes through first gear with the meshing of second gear drives the initiative wind-up roll rotates.

Through adopting above-mentioned technical scheme, the coiling motor starts, and fixed mounting is in the epaxial first gear rotation of coiling motor's pivot, and first gear drives the second gear rotation of meshing with it, and the second gear rotation drives initiative wind-up roll and rotates the rolling, and coiling mechanism simple structure, convenient operation.

The utility model discloses further set up to: a vertical sliding groove is further formed in the winding frame above the driving winding roller, a sliding block is slidably mounted in the sliding groove, a groove is formed in the sliding block, a bearing is connected to the inner clamping position of the groove, and a driven winding roller is sleeved in the bearing; one side fixed mounting that the rolling frame was kept away from the frame has the cylinder, the piston rod of cylinder with the sliding block is fixed continuous, passive wind-up roll is in under the promotion of cylinder with initiative wind-up roll butt forms rolling extrusion mouth.

Through adopting above-mentioned technical scheme, the piston rod of cylinder promotes the sliding block and slides in the sliding groove, and drive the motion of the passive wind-up roll of clamping connection on the sliding block, make passive wind-up roll and initiative wind-up roll butt form rolling extrusion mouth, with the cloth pressfitting between initiative wind-up roll and passive wind-up roll, when rolling motor starts, drag the cloth and carry out the rolling, and the extrusion through initiative wind-up roll and passive wind-up roll, carry out further extrusion dehydration to the cloth, the cylinder promotes passive wind-up roll and makes initiative wind-up roll and passive wind-up roll support tightly, can extrude the recovery once more with the moisture in the cloth, the water use ratio has been improved, the purpose of water conservation has been reached.

The utility model discloses further set up to: a water collecting tank is mounted on the rack below the driving wind-up roll, a transfer water pump is arranged on the outer wall of one side of the water collecting tank close to the third water washing tank and communicated with the water collecting tank, a transfer water pipe is arranged on a water outlet of the transfer water pump, and one end of the transfer water pipe, far away from the transfer water pump, is communicated with the third water washing tank; and a cloth collecting groove is also placed on the ground on one side, away from the third rinsing groove, of the winding device, and rollers are arranged on the lower surface of the cloth collecting groove.

By adopting the technical scheme, water obtained by extrusion of the winding device falls into the water collecting tank, the water in the water collecting tank is pumped out by the transfer water pump and is pumped into the third water washing tank by the transfer water pipe, and the water obtained by extrusion of the winding device is recycled, so that the utilization rate of the water is improved, and the purpose of saving water is achieved; and because the coiling mechanism can only drag the cloth, can not collect the lapping, consequently need to have a collection cloth groove, collect the cloth and be drawn into in the collection cloth groove, and the lower surface in collection cloth groove is provided with the gyro wheel, then whole collection cloth groove accessible gyro wheel motion is in order to transport the cloth, after the cloth rolling is accomplished, transports the cloth to next flow through collection cloth groove, has improved production efficiency

To sum up, the utility model discloses a beneficial technological effect does:

1. by arranging the plurality of stepped rinsing tanks and the water squeezing devices, when the cloth enters the next rinsing tank from one rinsing tank, the sewage remained on the cloth is squeezed out, so that the pollution to the water in the next rinsing tank is reduced, the times of cleaning the cloth are reduced, the replacement of the water in the rinsing tanks is reduced, the use amount of clear water is reduced, and the purpose of saving water is achieved;

2. by arranging the water spray pump and the water spray ring, the residual sewage in the cloth can be diluted to reduce the pollution to the water in the next washing tank, the multi-stage utilization of the water in each water tank is realized, the use efficiency of the water is improved, the use amount of the water is reduced, and the purpose of saving water is achieved;

3. through setting up extrusion drag formula coiling mechanism, water-collecting device and cloth collecting device, not only accomplished the rolling, still further extrude and reuse remaining moisture in the cloth, also reached the purpose of water conservation when having improved production efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a first rinsing bath according to the present invention;

FIG. 3 is a schematic structural view of the water washing cage of the present invention;

fig. 4 is a schematic structural diagram of the winding device of the present invention.

In the figure, 1, a frame; 11. a first rinsing bath; 111. a water outlet pipe; 12. a second rinsing bath; 13. a third rinsing bath; 131. a baffle plate; 14. a through hole; 15. a baffle; 16. a sewage treatment system; 2. a conveying device; 21. a first transfer roller; 22. a second transfer roller; 3. a water squeezing device; 31. a wringing frame; 311. a horizontal bar; 312. a vertical rod; 321. horizontally squeezing the water wheels; 322. vertically extruding a water wheel; 41. a water jet pump; 42. a water spray ring; 43. a water inlet pipe; 5. washing the cage with water; 51. a cage body; 52. a cage shaft; 53. washing the motor with water; 6. a winding device; 61. a winding motor; 611. a first gear; 62. an active wind-up roll; 621. a second gear; 63. a sliding groove; 64. a sliding block; 641. a groove; 65. a passive wind-up roll; 651. a bearing; 66. a cylinder; 67. a winding frame; 7. a water collection tank; 71. a transfer pump; 72. transferring the water pipe; 8. a cloth collecting groove; 81. and a roller.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the stepped water-saving rinsing machine disclosed by the present invention comprises a frame 1, wherein a first rinsing bath 11, a second rinsing bath 12 and a third rinsing bath 13 are sequentially mounted on the frame 1, and the heights of the first rinsing bath 11, the second rinsing bath 12 and the third rinsing bath 13 are sequentially increased and abutted against each other; the first rinsing bath 11, the second rinsing bath 12 and the third rinsing bath 13 are all internally provided with a conveying device 2, the conveying device 2 comprises a first conveying roller 21, the first conveying roller 21 is rotatably arranged on the inner wall of the first rinsing bath 11, the second rinsing bath 12 or the third rinsing bath 13, the conveying device 2 further comprises a second conveying roller 22, and the second conveying roller 22 is rotatably arranged on the upper surface of the first rinsing bath 11, the second rinsing bath 12 or the third rinsing bath 13; the cloth is sequentially fed into a first rinsing bath 11, a second rinsing bath 12 and a third rinsing bath 13 from the previous process through a conveying device 2 for rinsing.

A through hole 14 is formed in the side wall of the second rinsing bath 12, which is close to the first rinsing bath 11 and is higher than the side wall of the first rinsing bath 11, a through hole 14 is formed in the side wall of the third rinsing bath 13, which is close to the second rinsing bath 12 and is higher than the second rinsing bath 12, a baffle 131 is arranged on the side wall of the third rinsing bath 13, which is far away from the second rinsing bath 12, and the baffle 131 is higher than the third rinsing bath 13 and is provided with the through hole 14; the inner wall of the through hole 14 is provided with the wringing device 3, and the cloth enters the next rinsing bath from the previous rinsing bath through the wringing device 3 in the through hole 14.

As shown in fig. 3, the wringing device 3 comprises a wringing frame 31, the wringing frame 31 is fixedly installed on the inner wall of the through hole 14, the wringing frame 31 comprises a horizontal rod 311 and a vertical rod 312, and the horizontal rod 311 and the vertical rod 312 are vertically crossed; horizontal water squeezing wheels 321 are rotatably mounted on the two horizontal rods 311, vertical water squeezing wheels 322 are rotatably mounted on the two vertical rods 312, water squeezing ports are formed between the horizontal water squeezing wheels 321 and the vertical water squeezing wheels 322, and the cloth is not easily clamped and embedded between the horizontal water squeezing wheels 321 and the vertical water squeezing wheels 322 due to the small gap between the horizontal water squeezing wheels 321 and the vertical water squeezing wheels 322; the cloth enters the next rinsing bath from the previous rinsing bath through the wringing device 3, and the water on the cloth is squeezed out by the wringing device 3.

As shown in fig. 1 and 2, the outer side wall of the second rinsing bath 12 close to the first rinsing bath 11 and the outer side wall of the third rinsing bath 13 close to the second rinsing bath 12 are both provided with a water spray pump 41, a water inlet of the water spray pump 41 is communicated with the second rinsing bath 12 or the third rinsing bath 13, a water spray ring 42 is arranged at a water outlet of the water spray pump 41, the water spray ring 42 is installed on the outer side wall of the second rinsing bath 12 close to the first rinsing bath 11 or the outer side wall of the third rinsing bath 13 close to the second rinsing bath 12, the water spray ring 42 and the through hole 14 are concentric circles, and the radius of the water spray ring 42 is larger than that of the through hole 14; a water spraying ring 42 is also arranged on one side of the baffle 131 close to the third rinsing bath 13, a water inlet pipe 43 is arranged on the water spraying ring 42, and the water spraying ring 42 is communicated with the water inlet pipe 43; before the cloth enters the next rinsing bath through the through holes 14, the water spraying ring 42 sprays and dilutes the sewage in the cloth.

The guide plates 15 are arranged on the outer side wall of the second rinsing bath 12 close to the first rinsing bath 11, on the outer side wall of the third rinsing bath 13 close to the second rinsing bath 12 and on one side of the baffle 131 close to the third rinsing bath 13, the guide plates 15 are positioned below the through holes 14, and the guide plates 15 guide water sprayed by the water spraying rings 42 and water extruded by the water extruding device 3.

A water outlet pipe 111 is arranged on the side wall of the first water washing tank 11 far away from the second water washing tank 12, the water outlet pipe 111 is communicated with the first water washing tank 11, and one end of the water outlet pipe 111 far away from the first water washing tank 11 is connected to a sewage treatment system 16.

The first rinsing tank 11, the second rinsing tank 12 and the third rinsing tank 13 are all provided with a rinsing cage 5, the rinsing cage 5 comprises a rinsing motor 53, and the rinsing motor 53 is fixedly arranged on the outer wall of the first rinsing tank 11, the second rinsing tank 12 or the third rinsing tank 13; the water washing cage 5 further comprises a cage shaft 52, the cage shaft 52 is rotatably installed on the inner wall of the first water washing tank 11, the second water washing tank 12 or the third water washing tank 13, the shaft center of the cage shaft 52 and the shaft center of the first conveying roller 21 are located on the same horizontal plane, one end of the cage shaft 52 is in key connection with a rotating shaft of a water washing motor 53, a cage body 51 is further arranged on the cage shaft 52, and the cage body 51 is a cylindrical frame.

As shown in fig. 1 and 4, winding device 6 is further disposed on frame 1, winding device 6 includes a winding frame 67, winding frame 67 is fixedly mounted on frame 1 on one side of third rinsing bath 13 far away from first rinsing bath 11, winding motor 61 is fixedly mounted on winding frame 67, first gear 611 is fixedly mounted on a rotating shaft of winding motor 61, driving winding roller 62 is further rotatably mounted on winding frame 67, second gear 621 is fixedly mounted at one end of driving winding roller 62 close to winding motor 61, and winding motor 61 drives driving winding roller 62 to rotate through engagement of first gear 611 and second gear 621.

A vertical sliding groove 63 is further formed in the winding frame 67 on the side, away from the rack 1, of the driving winding roller 62, a sliding block 64 is slidably mounted in the sliding groove 63, a groove 641 is formed in the sliding block 64, a bearing 651 is connected to the groove 641 in a clamping mode, and a driven winding roller 65 is connected to the bearing 651 in a sleeved mode; one end of the winding frame 67, which is far away from the rack 1, is fixedly provided with an air cylinder 66, a piston rod of the air cylinder 66 is fixedly connected with the sliding block 64, and the driven winding roller 65 is pushed by the air cylinder 66 to abut against the driving winding roller 62 to form a winding extrusion opening.

A water collecting tank 7 is mounted on the rack 1 below the driving wind-up roll 62, a transfer water pump 71 is arranged on the outer wall of one side, close to the third water washing tank 13, of the water collecting tank 7, a water inlet of the transfer water pump 71 is communicated with the water collecting tank 7, a transfer water pipe 72 is arranged on a water outlet of the transfer water pump 71, and one end, far away from the transfer water pump 71, of the transfer water pipe 72 is communicated with the third water washing tank 13.

The cloth collecting groove 8 is placed on the ground of one side, far away from the third rinsing groove 13, of the winding device 6, and the lower surface of the cloth collecting groove 8 is provided with a roller 81.

The implementation principle of the embodiment is as follows:

the first conveying roller 21 draws the cloth to enter the first rinsing bath 11, the second rinsing bath 12 and the third rinsing bath 13 in sequence, and draws the cloth from the first rinsing bath 11, the second rinsing bath 12 and the third rinsing bath 13 in sequence through the second conveying roller 22. When the cloth is in first wash bowl 11, second wash bowl 12 and third wash bowl 13, washing motor 53 rotates, and washing motor 53 rotates and drives cage 51 and rotate, collides many times between cage 51 and the cloth and breaks up the cloth by the rope form in order to strengthen the cleaning performance.

Before the cloth gets into second wash bowl 12 by first wash bowl 11, water in the second wash bowl 12 is extracted to water jet pump 41, and spray to the cloth via water spray ring 42, with the sewage concentration in the dilution cloth, then through the wringing device 3 in the through-hole 14, the cavity that forms between horizontal wringing wheel 321 and the vertical wringing wheel 322 is less, therefore when the cloth passes through wringing device 3, four wringing wheels rotate, and give the cloth extrusion force, extrude the sewage in the cloth, and the water that is extruded by wringing device 3 in the water that water spray ring 42 erupted and the cloth falls into first wash bowl 11 via guide plate 15 water conservancy diversion.

Before the cloth enters the third washing tank 13 from the second washing tank 12, the water in the third washing tank 13 is extracted by the water spraying pump 41 and sprayed onto the cloth through the water spraying ring 42 to dilute the concentration of the sewage in the cloth, then the sewage in the cloth is extruded through the water extruding device 3, and the water sprayed by the water spraying ring 42 and the water extruded by the water extruding device 3 in the cloth are guided by the guide plate 15 to fall into the second washing tank 12.

When the cloth is pulled out from the third rinsing bath 13, the clear water in the water inlet pipe 43 is sprayed onto the cloth through the water spraying ring 42 to dilute the concentration of the sewage in the cloth, then the sewage in the cloth is extruded through the water extruding device 3, and the water sprayed by the water spraying ring 42 and the water extruded by the water extruding device 3 in the cloth are guided by the guide plate 15 to fall into the third rinsing bath 13.

After the cloth is washed with water, the cloth is wound by the winding device 6. At the moment, the air cylinder 66 is started, and a piston rod of the air cylinder 66 pushes the sliding block 64 to move along the sliding groove 63, so that the driven take-up roller 65 which is rotatably connected in the sliding block 64 is abutted against the driving take-up roller 62, and cloth is pressed between the driving take-up roller 62 and the driven take-up roller 65; the winding motor 61 is started, the winding motor 61 drives the driving winding roller 62 to rotate, the driving winding roller 62 drives the cloth to rotate, the cloth rotates to drive the driven winding roller 65 to rotate, and the cloth is wound and secondarily extruded and dehydrated.

In the process of cloth winding and secondary extrusion dehydration, water extruded by extrusion falls into the water collecting tank 7, and the water in the water collecting tank 7 is extracted by the transfer water pump 71 and is conveyed into the third rinsing tank 13 through the transfer water pipe 72; the cloth that the secondary dehydration was accomplished falls into collection cloth groove 8, and after the rolling was accomplished, promotes collection cloth groove 8 and sends the cloth into next process.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a cascaded water conservation rinsing machine, includes frame (1), its characterized in that: the washing machine is characterized in that a first rinsing bath (11), a second rinsing bath (12) and a third rinsing bath (13) are sequentially mounted on the rack (1), the heights of the first rinsing bath (11), the second rinsing bath (12) and the third rinsing bath (13) are sequentially increased, the first rinsing bath (11), the second rinsing bath (12) and the third rinsing bath (13) are respectively provided with a conveying device (2), each conveying device (2) comprises a first conveying roller (21), the first conveying rollers (21) are rotatably mounted on the inner walls of the first rinsing bath (11), the second rinsing bath (12) or the third rinsing bath (13), each conveying device (2) further comprises a second conveying roller (22), and the second conveying rollers (22) are rotatably mounted on the upper surfaces of the first rinsing bath (11), the second rinsing bath (12) or the third rinsing bath (13); second wash bowl (12) are close to first wash bowl (11) and are higher than on the lateral wall of first wash bowl (11), third wash bowl (13) are close to second wash bowl (12) and are higher than through-hole (14) have been seted up on the lateral wall of second wash bowl (12), be provided with crowded water installation (3) in through-hole (14), crowded water installation (3) are including crowded water frame (31), crowded water frame (31) fixed mounting is in on the inner wall of through-hole (14), crowded water frame (31) are including horizon bar (311) and vertical pole (312), rotate on horizon bar (311) and install horizontal crowded water wheel (321), rotate on vertical pole (312) and install vertical crowded water wheel (322), horizontal crowded water wheel (321) with form crowded mouth of a river between the vertical crowded water wheel (322).

2. The stepped, water-saving washing machine according to claim 1, characterized in that: the side wall of the third rinsing bath (13) far away from the second rinsing bath (12) is also provided with a through hole (14), and a water squeezing device (3) is arranged in the through hole (14).

3. The stepped, water-saving washing machine according to claim 1, characterized in that: second wash bowl (12) are close to on the lateral wall of first wash bowl (11) with third wash bowl (13) are close to all be provided with water jet pump (41) on the lateral wall of second wash bowl (12), the water inlet of water jet pump (41) with second wash bowl (12) or third wash bowl (13) are linked together, be provided with water spray ring (42) on the delivery port of water jet pump (41), water spray ring (42) are installed second wash bowl (12) are close to on the lateral wall of first wash bowl (11) or third wash bowl (13) are close to on the lateral wall of second wash bowl (12), the radius of water spray ring (42) is greater than the radius of through-hole (14), just water spray ring (42) with through-hole (14) are concentric circles.

4. The stepped, water-saving washing machine according to claim 3, characterized in that: the third wash bowl (13) is kept away from also be provided with on the inside wall of second wash bowl (12) water spray ring (42), be provided with inlet tube (43) on third wash bowl (13), inlet tube (43) with third wash bowl (13) are kept away from water spray ring (42) on the inside wall of second wash bowl (12) are linked together.

5. The stepped, water-saving washing machine according to claim 4, characterized in that: the second rinsing bath (12) is close to the outer side wall of the first rinsing bath (11), the third rinsing bath (13) is close to the outer side wall of the second rinsing bath (12) and the inner side wall of the second rinsing bath (12) far away from the third rinsing bath (13) are provided with guide plates (15), and the guide plates (15) are located below the through holes (14).

6. The stepped, water-saving washing machine according to claim 1, characterized in that: all rotate in first wash bowl (11), second wash bowl (12) and third wash bowl (13) and install washing cage (5), washing cage (5) are including the cage body (51), fixedly connected with cage axle (52) are located to the centre of a circle of the cage body (51) lateral wall, cage axle (52) run through the lateral wall of first wash bowl (11), second wash bowl (12) or third wash bowl (13), the one end of cage axle (52) is provided with washing motor (53), the pivot of washing motor (53) with cage axle (52) key-type connection, washing motor (53) fixed mounting be in on the lateral wall of first wash bowl (11), second wash bowl (12) or third wash bowl (13).

7. The stepped, water-saving washing machine according to claim 1, characterized in that: an outlet pipe (111) is installed on the outer wall of one side, away from the second water washing tank (12), of the first water washing tank (11), the outlet pipe (111) is communicated with the first water washing tank (11), and one end, away from the first water washing tank (11), of the outlet pipe (111) is connected to a sewage treatment system (16).

8. The stepped, water-saving washing machine according to claim 1, characterized in that: stepped water conservation rinsing machine still includes coiling mechanism (6), coiling mechanism (6) are including rolling frame (67), rolling frame (67) fixed mounting is in third rinsing bath (13) are kept away from first rinsing bath (11) one side on frame (1), fixed mounting has rolling motor (61) on rolling frame (67), fixed mounting has first gear (611) in the pivot of rolling motor (61), it installs initiative wind-up roll (62) still to rotate on rolling frame (67), initiative wind-up roll (62) are close to the one end fixed mounting of rolling motor (61) has second gear (621), rolling motor (61) pass through first gear (611) with second gear (621) meshing drives initiative wind-up roll (62) rotate.

9. The stepped, water-saving washing machine according to claim 8, characterized in that: a vertical sliding groove (63) is further formed in the winding frame (67) above the driving winding roller (62), a sliding block (64) is installed in the sliding groove (63) in a sliding mode, a groove (641) is formed in the sliding block (64), a bearing (651) is connected to the inner portion of the groove (641) in a clamping mode, and a driven winding roller (65) is sleeved in the bearing (651); one side fixed mounting that rolling frame (67) kept away from frame (1) has cylinder (66), the piston rod of cylinder (66) with sliding block (64) are fixed continuous, passive wind-up roll (65) are in under the promotion of cylinder (66) with initiative wind-up roll (62) butt forms rolling extrusion mouth.

10. The stepped, water-saving washing machine according to claim 9, characterized in that: a water collecting tank (7) is mounted on the rack (1) below the driving wind-up roll (62), a transfer water pump (71) is arranged on the outer wall of one side, close to the third rinsing bath (13), of the water collecting tank (7), the transfer water pump (71) is communicated with the water collecting tank (7), a transfer water pipe (72) is arranged at a water outlet of the transfer water pump (71), and one end, far away from the transfer water pump (71), of the transfer water pipe (72) is communicated with the third rinsing bath (13); the cloth collecting groove (8) is further placed on the ground on one side, far away from the third rinsing groove (13), of the winding device (6), and rollers (81) are arranged on the lower surface of the cloth collecting groove (8).

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