CN211112723U

CN211112723U - Towel self-cleaning wringing machine

Info

Publication number: CN211112723U
Application number: CN201921359460.8U
Authority: CN
Inventors: 阚兴成; 杨金林
Original assignee: Zhejiang University of Technology ZJUT
Current assignee: Zhejiang University of Technology ZJUT
Priority date: 2019-08-21
Filing date: 2019-08-21
Publication date: 2020-07-28
Anticipated expiration: 2029-08-21

Abstract

An automatic towel cleaning and wringing machine comprises an external support frame, a towel lifting mechanism, a reciprocating towel scrubbing mechanism, a towel extruding and wringing mechanism and a single chip microcomputer, wherein the towel lifting mechanism is arranged on the outer side of the external support frame; the squeezing wringing driving mechanism drives the squeezing plate to further adjust the included angle between the squeezing plate and the scrubbing plate, then the scrubbing plate is driven by the scrubbing driving mechanism to reciprocate left and right, and the scrubbing function is realized by the friction force of the squeezing plate and the scrubbing plate on the towel; after the scrubbing is finished, the squeezing and wringing driving mechanism continues to drive the squeezing plate to squeeze the towel with the scrubbing plate, and the squeezing and wringing work of the towel is finished. The utility model provides a towel self-cleaning wringing machine which is high-efficient, clean and convenient to use.

Description

Towel self-cleaning wringing machine

Technical Field

The invention relates to an automatic towel cleaning and wringing machine.

Background

With technological advances and increasing levels of people's living, many countries around the world are stepping into (or have already stepped into) aging. The aged people generally have a series of problems of finger joint stiffness, joint cartilage degeneration, reduced stress injury resistance, increased activity strength, pain and the like. The old people need to regularly use the towel, wash the towel and twist the towel, which is a big problem in daily life of the old people. Meanwhile, the number of people with hand disabilities caused by various accidents in China is increasing. Such people often cannot independently complete a series of actions such as washing, wringing and the like of the towel due to the disabled hands, most of the people cannot be cared sufficiently, and the towel washing is troubled by many users.

The traditional cleaning device has been developed for a single time for many years, mainly aiming at cleaning some large clothes, such as household washing machines and large commercial cleaning devices, and the cleaning devices are usually large in size and suitable for multiple users. In addition, the traditional cleaning device also has many limitations and drawbacks, and cannot meet the high-frequency use of a single user. The use process is complicated, more manual operations are needed, and the automation degree is low. And the cleanliness of the clothes is difficult to guarantee, and the cleaning requirement of a user is difficult to meet.

In recent years, a wide variety of small cleaning devices, such as wall-mounted washing machines, have appeared on the market. The cleaning device has the advantages of small volume, simple structure and increased functions, and is convenient for users to clean small clothes to a certain extent. But the requirements of specific users still cannot be met, and the cleanliness cannot be ensured. In addition, the cleaning device has other disadvantages, such as high price, complex installation, overlong cleaning time, large water consumption and the like, is difficult to move after being installed, and has single function.

Disclosure of Invention

In order to overcome the defect that the towel in the existing towel cleaning device cannot be cleaned in a washing machine manner, the invention provides the automatic towel cleaning and wringing machine which is efficient and clean and convenient to use.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an automatic towel cleaning and wringing machine comprises an external support frame, a towel lifting mechanism, a reciprocating towel scrubbing mechanism, a towel extruding and wringing mechanism and a single chip microcomputer, wherein the towel lifting mechanism is arranged on the outer side of the external support frame;

the external supporting frame comprises a left side plate, a right side plate, a bottom plate, a front stress plate and a rear stress plate;

the reciprocating towel scrubbing mechanism comprises a scrubbing plate, two linear optical axis guide rails and a scrubbing driving mechanism, the two linear optical axis guide rails are transversely arranged and are vertically installed on the inner wall of the front stress plate at intervals, first sliding blocks are arranged on the two linear optical axis guide rails, the first sliding blocks and the linear optical axis guide rails form a left-right sliding pair, and the scrubbing plate is fixed on the first sliding blocks and is connected with the scrubbing driving mechanism;

the towel squeezing and wringing mechanism comprises a squeezing plate and a squeezing and wringing driving mechanism, the lower end of the squeezing plate is hinged with the bottom plate of the external support frame through a hinge, the squeezing and wringing driving mechanism is positioned behind the squeezing plate and connected with the squeezing plate, and the squeezing plate and the scrubbing plate are arranged in a V shape;

the towel lifting mechanism comprises a towel lifting motor, a first optical axis and two pulleys, the towel lifting motor is installed on the outer side of the front stress plate, the left end of the first optical axis is connected with a motor shaft of the towel lifting motor, the right end of the first optical axis is rotatably installed on the outer side of the front stress plate through a bearing seat, the two pulleys are respectively installed on the left side and the right side of the top end of the front stress plate, each pulley is wound with a nylon rope, one end of each nylon rope is connected with the first optical axis, the other end of each nylon rope is connected with a washing net, and the washing net is located in a V-shaped groove formed between the extrusion plate and the scrubbing plate; the upper ends of the left side plate and the right side plate of the external supporting frame are respectively provided with a water pump, the water inlet end of the water pump is connected with a water inlet pipe, and the water outlet end of the water pump is arranged towards the V-shaped groove;

the starting button is connected with the single chip microcomputer, and the single chip microcomputer is respectively connected with the scrubbing driving mechanism, the squeezing and wringing driving mechanism and the towel lifting motor;

putting a towel into a washing net, pressing a start button, driving a first optical axis to rotate by a towel lifting motor under the control of a single chip microcomputer, loosening a nylon rope wound on the first optical axis along a pulley to enable the washing net to descend between an extrusion plate and a scrubbing plate, working a water pump, spraying water to wet the towel and sink to the bottom of a V-shaped groove, driving the extrusion plate by an extrusion wringing driving mechanism to adjust an included angle between the extrusion plate and the scrubbing plate, driving the scrubbing plate to reciprocate left and right by a scrubbing driving mechanism, and realizing a scrubbing function through the friction force of the extrusion plate and the scrubbing plate on the towel; after the washing is finished, the squeezing and wringing driving mechanism continues to drive the squeezing plate to squeeze the squeezing plate and the washing plate to finish towel squeezing and wringing work, the towel squeezing and wringing mechanism resets, the towel lifting motor drives the first optical axis to rotate reversely, the nylon rope is retracted, the washing net and the towel are lifted, and the whole towel washing work is finished.

Further, the scrubbing driving mechanism comprises a scrubbing motor, a connecting rod and a flywheel, the scrubbing motor is installed on a cushion block through a motor support, the cushion block is installed on a left side plate of an external supporting frame, the flywheel is installed on a motor shaft of the scrubbing motor, the left end of the connecting rod is eccentrically hinged with the flywheel through a bolt, a strip-shaped hole is further formed in the left side plate, and the right end of the connecting rod penetrates through the strip-shaped hole and is connected with the left end of the scrubbing plate through a pin.

Still further, the extrusion wringing driving mechanism comprises an extrusion wringing motor, a driving chain wheel, a driven chain wheel, a chain, a second optical axis, two chain connecting blocks, two second sliding blocks, two supporting rods and an extrusion plate connecting block, the left end and the right end of the second optical axis are respectively provided with two vertical optical axis brackets which are rotatably arranged on the rear force application plate through a bearing seat with a bearing, the two vertical optical axis brackets are also arranged on the rear force application plate, the extrusion wringing motor is arranged on a power side aluminum square tube through a motor bracket, the power side aluminum square tube is arranged on a corresponding vertical optical axis bracket, the driving chain wheel is arranged on a motor shaft of the extruding and wringing motor, the driven chain wheel is rotatably arranged on the unpowered side aluminum square tube through a short shaft, the unpowered side aluminum square tube is mounted on a corresponding vertical optical axis support, and the driving chain wheel is connected with the driven chain wheel through a chain;

two chain connecting blocks are respectively fixedly installed on the front side and the rear side of the chain, two second sliders are installed on a second optical axis in a left-right sliding mode, the two second sliders are respectively fixed to the lower ends of the two chain connecting blocks, the rear ends of the two supporting rods are hinged to the two sliders through one supporting rod connecting block respectively, the front ends of the two supporting rods are hinged to one extrusion plate connecting block simultaneously, and the extrusion plate connecting block is fixed to the rear side face of the extrusion plate.

And furthermore, printing for efficient cleaning is arranged on the side surface of the scrubbing plate opposite to the extrusion plate.

Furthermore, the upper side of the washing net is fixed on the inner wall of the front stress plate, and the other end of each nylon rope is connected with the lower side of the washing net.

The invention has the following beneficial effects:

1. the towel is quickly and efficiently cleaned, the scrubbing plate and the extrusion plate form a V-shaped groove, the cleaning requirements of towels of various sizes are met, and meanwhile, the scrubbing plate with the printing performs reciprocating motion to realize efficient cleaning of the towels;

2. the towel squeezing and wringing mechanism is skillfully combined with a push rod mechanism by adopting chain transmission, a motor drives a chain, the chain drives a push rod, and the push rod pushes an extrusion plate, so that the towel squeezing work can be stably and reliably completed;

3. the towel lifting mechanism is driven by a small direct current motor, an optical axis is rotated to fold the nylon rope, and meanwhile, the washing net is folded, so that the towels in the net are lifted up and are convenient to take out; in addition, the laundry net is also used for limiting the position of the towel;

4. the operation is simple and convenient, the operation of professionals is not needed, and the device is suitable for nursing homes and common families;

5. the production cost is low, and the machine only needs about five hundred yuan after cost estimation, thereby meeting the premise of large-scale production and popularization;

6. a safe power supply is used, so that the power is low, the energy consumption is low, the safety and the reliability are realized, and the work is stable;

7. is convenient for fixing, placing, carrying and transporting;

8. the whole machine is of a modular structure, and is convenient to disassemble, clean and maintain.

Drawings

Fig. 1 is a top view of the present invention.

Fig. 2 is an assembly view of the towel lifting mechanism and the outer support frame.

FIG. 3 is a schematic structural view of the reciprocating towel scrubbing mechanism.

Fig. 4 is a top view of the towel press wringing mechanism.

Fig. 5 is a perspective view of the towel squeezing wringing mechanism.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 5, the automatic towel cleaning and wringing machine comprises an external support frame 6, a towel lifting mechanism 8, a reciprocating towel scrubbing mechanism 9, a towel squeezing and wringing mechanism 7 and a single chip microcomputer, wherein the towel lifting mechanism 8 is arranged on the outer side of the external support frame 6, the towel squeezing and wringing mechanism 7 is positioned behind the reciprocating towel scrubbing mechanism 9, and the towel squeezing and wringing mechanism 7 is arranged in the external support frame 6;

the external support frame 6 comprises left and right side plates, a bottom plate 21, a front stress plate 16 and a rear stress plate 10;

the reciprocating towel scrubbing mechanism 9 comprises a scrubbing plate, two linear optical

axis guide rails

32 and 33 and a scrubbing driving mechanism, the two linear optical

axis guide rails

32 and 33 are transversely arranged and are vertically installed on the inner wall of the front stress plate 16 at intervals, first sliding blocks are arranged on the two linear optical axis guide rails and form left and right sliding pairs with the linear optical axis guide rails, and the scrubbing plate 31 is fixed on the first sliding blocks and connected with the scrubbing driving mechanism;

the towel squeezing and wringing mechanism 7 comprises a squeezing plate and a squeezing and wringing driving mechanism, the lower end of the squeezing plate 23 is hinged with a bottom plate 21 of an external supporting frame through a hinge, the squeezing and wringing driving mechanism is positioned behind the squeezing plate 23 and connected with the squeezing plate 23, and the squeezing plate 23 and the scrubbing plate 31 are arranged in a V shape;

the towel lifting mechanism 8 comprises a towel lifting motor, a first optical axis 19 and two pulleys 17, the towel lifting motor is installed on the outer side of the front stress plate 16, the left end of the first optical axis 19 is connected with a motor shaft of the towel lifting motor, the right end of the first optical axis 19 is rotatably installed on the outer side of the front stress plate 16 through a bearing seat 18, the two pulleys 17 are respectively installed on the left side and the right side of the top end of the front stress plate 16, each pulley 17 is wound with a nylon rope, one end of each nylon rope is connected with the first optical axis 19, the other end of each nylon rope is connected with the washing net 12, and the washing net 12 is located in a V-shaped groove formed between the squeezing plate 23 and the washing plate 31; the upper ends of the left side plate and the right side plate of the external supporting frame 6 are respectively provided with a water pump 15, the water inlet end of the water pump 15 is connected with a water inlet pipe, and the water outlet end of the water pump faces towards the V-shaped groove;

the starting button is connected with a single chip microcomputer, and the single chip microcomputer is respectively connected with the scrubbing driving mechanism, the squeezing and wringing driving mechanism and the towel lifting motor.

Further, the scrubbing driving mechanism comprises a scrubbing motor, a connecting rod 37 and a flywheel 39, the scrubbing motor is mounted on a cushion block 28 through a motor support 29, the cushion block 28 is mounted on a left side plate 11 of the external supporting frame 6, the flywheel 39 is mounted on a motor shaft of the scrubbing motor, the left end of the connecting rod 37 is eccentrically hinged to the flywheel 39 through a bolt 38, a strip-shaped hole is further formed in the left side plate 11, and the right end of the connecting rod 37 penetrates through the strip-shaped hole and is connected with the left end of the scrubbing plate 31 through a pin 27.

Still further, the extruding and wringing driving mechanism comprises an extruding and wringing motor, a driving sprocket 54, a driven sprocket 56, a chain 45, a second optical axis 44, two chain connecting blocks, two second sliding blocks, two supporting rods and a squeezing plate connecting block 51, two vertical optical axis brackets are respectively installed at the left end and the right end of the second optical axis 44 and rotatably installed on the rear force application plate 10 through a bearing seat with a bearing, the two vertical optical axis brackets are also installed on the rear force application plate 10, the extruding and wringing motor is installed on a power side aluminum square tube 53 through a motor bracket, the power side aluminum square tube is installed on the corresponding vertical optical axis bracket, the driving sprocket 54 is installed on a motor shaft of the extruding and wringing motor, the driven sprocket 56 is rotatably installed on a power side aluminum square tube 42 through a short shaft 59, the power side aluminum square tube 42 is installed on the corresponding vertical optical axis bracket, the driving sprocket 54 is connected with the driven sprocket 56 through a chain 45;

two chain connecting blocks are respectively fixedly installed on the front side and the rear side of the chain 45, two second sliders are installed on the second optical axis 44 in a left-right sliding mode, the two second sliders are respectively fixed to the lower ends of the two chain connecting blocks, the rear ends of the two supporting rods are respectively hinged to the two sliders through one supporting rod connecting block, the front ends of the two supporting rods are hinged to one extrusion plate connecting block 51, and the extrusion plate connecting block 51 is fixed to the rear side face of the extrusion plate 23.

Still further, the side of the scrubbing plate 31 opposite to the extrusion plate 23 is provided with a printing for efficient cleaning.

Further, the upper side of the washing net 12 is fixed on the inner wall of the front stress plate 16, and the other end of each nylon rope is connected with the lower side of the washing net 12.

As shown in fig. 2, the bottom plate 21, the front stress plate 16, the rear stress plate 10, the left side plate 11 and the right side plate 14 are connected by an angle connector 13; four corners of the bottom plate 21 are connected with the stress plate 16, the force application plate 10, the left side plate 11 and the right side plate 14 through corner connectors 13; the front stress plate 16 and the left side plate 11, the rear stress plate 10 and the left side plate 11, and the front stress plate 16 and the left side plate 11 are connected by corner connector 13, and all corner connectors are fixed by bolts; the water pump fixing frame 22 is installed at the upper ends of the left side plate 11 and the right side plate 14, and the water pump 15 is fixed on the water pump fixing frame 22.

As shown in fig. 2, the towel lifting motor is a small dc motor 20, the small dc motor 20 and the bearing seat 18 are fixed at the left and right ends of the front force bearing plate 16, the small dc motor 20 is connected to a first optical axis 19, the pulleys 17 are installed at two sides of the upper end of the front force bearing plate 16, and the pulleys 17 are connected to the washing net 12 through nylon ropes.

As shown in fig. 3, the scrubbing motor is a direct current motor 30, the linear optical axis guide rails 32 and 33 are fixed on the inner wall of the front stressed plate 16 of the external support frame, one sides of the

first sliders

34, 35 and 36 are respectively fixed on the front side surface of the scrubbing plate 31, the other sides of the first sliders are respectively sleeved on the linear optical axis guide rails 32 and 33, the flywheel 39 is connected with the connecting rod 37 through a pin 38, the connecting rod 37 is connected with the scrubbing plate 31 through a pin 27, the

hinges

24, 25 and 26 are respectively and linearly installed on the bottom plate 21 of the external support frame, the squeezing plates 23 are respectively connected with the

hinges

24, 25 and 26, the cushion block 28 is installed on the left side plate 11 of the external support frame, the motor bracket 29 is installed on the side surface of the cushion block 28, the direct current motor 30 is connected with the motor support 29, and the direct current motor 30.

As shown in fig. 4 and 5, the squeezing and wringing motor is a L-type motor 48, the bearing blocks 55 and 40 are respectively fixed at the left and right ends of the rear force-applying plate 10 of the external support frame, the second optical axis 44 is connected with the bearing blocks 40 and 55 and can freely rotate, the vertical optical axis brackets 61 and 62 are respectively installed at the left and right ends of the second optical axis 44 near the bearing blocks 55 and 40, the vertical optical axis brackets 63 and 60 with vertical holes are distributed at the left and right ends of the second optical axis, the lower end of the power-side aluminum square tube 53 is connected with the vertical optical axis bracket 61 and the vertical optical axis bracket 63 with vertical holes, the upper end is connected with the L-type motor 48, the lower end of the unpowered-side aluminum square tube 42 is connected with the vertical optical axis bracket 62 and the vertical optical axis bracket 60 with vertical holes, the upper end is connected with the horizontal optical axis bracket 41, the short shaft 59 is connected with the horizontal optical axis bracket 41 and the vertical optical axis bracket 60, the driving sprocket 54 and the driven sprocket 56 are respectively fixed on the motor shaft L of the short shaft 48 and the short shaft 59, the chain 54 and the chain 56, the connecting block 57 is connected with the front side of the hinge connecting block 25, the squeezing and the hinge connecting block 25, the squeezing board 24, the hinge connecting block 58 is connected with the hinge connecting block 24, the squeezing board 24, the hinge connecting block 24, the squeezing board 24 and the hinge connecting block 24, the squeezing board connecting block 24, the hinge connecting block 46 are respectively, the hinge connecting block 25 connecting block 52, the hinge connecting block 24 and the hinge connecting block 23 connecting block.

The working principle of the invention is as follows:

a towel is put into a washing net, a start button is pressed, the washing net 12 penetrating through a nylon rope and the nylon rope descend to a position between the extrusion plate 23 and the scrubbing plate 31 together through the control of a single chip microcomputer 32, the small direct current motor 20 drives the first optical axis 19 to rotate, the nylon rope wound on the first optical axis 19 is loosened along the pulley 17, the washing net 12 penetrating through the nylon rope and the nylon rope descend to a position between the extrusion plate 23 and the scrubbing plate 31, the water pump 15 works, water is sprayed to wet the towel, the towel descends to the bottom of a V-shaped groove formed by the extrusion plate 23 and the scrubbing plate 31 under the action of gravity, at the moment, the L type motor 48 works to drive the driving chain wheel to rotate, the chain 45 drives the two chain connecting blocks 43 and 46 to rotate under the driving of the chain 45, accordingly, the effect of changing the included angles of the supporting rods 50 and 52 is achieved, the included angles of the extrusion plate 23 and the scrubbing plate 31 are adjusted, when the extrusion plate 23 and the scrubbing plate 31 form the V-shaped groove with proper angles, the L stops rotating, the direct current motor 30 starts to rotate, the direct current motor 30 drives the flywheel 39 to drive the flywheel 37 to drive the connecting rod 37 to push the scrubbing plate 31 to move linearly along the scrubbing plate 31.

After the towel is washed, the L-type motor 48 drives the driving sprocket to rotate again, the chain 45 drives the two

chain connecting blocks

43 and 46 to change the relative distance between the

chain connecting blocks

43 and 46 under the driving of the chain 45, so that the supporting

rods

50 and 52 are pushed, the squeezing plate 23 is squeezed by the thrust and the washing plate 31 to complete the towel squeezing and wringing operation, the L-type motor 48 rotates reversely after wringing, the V-shaped groove is opened, the reset of the towel squeezing and wringing mechanism is completed, the small direct-current motor 20 drives the first optical axis 19 to rotate reversely, the nylon rope is retracted and the washing net 12 is lifted, and the towel and the washing net 12 are sent to the upper end of the washing and wringing machine together to complete the whole towel washing operation.

The towel cleaning device is quick and convenient to operate, quick and efficient to clean and high in stability, the scrubbing plate and the extrusion plate form a V-shaped groove, the cleaning requirements of towels of various sizes are met, the scrubbing driving mechanism adopts a crank block mechanism, a motor drives a flywheel, the stability and the reliability of reciprocating motion of the scrubbing plate are ensured, and meanwhile, the scrubbing plate with the printing ensures efficient cleaning of the towels. The towel squeezing and wringing mechanism adopts the ingenious combination of chain transmission and a push rod mechanism, a motor drives a chain, the chain drives a push rod, the push rod pushes a squeezing plate, and then squeezing work of the towel can be stably and reliably completed, and then quick squeezing and wringing of the towel are completed.

The foregoing detailed description is intended to illustrate and not limit the invention, which is intended to be within the spirit and scope of the appended claims, and any changes and modifications that fall within the true spirit and scope of the invention are intended to be covered by the following claims.

Claims

1. The utility model provides a towel self-cleaning wringing machine which characterized in that: the towel washing machine comprises an external supporting frame, a towel lifting mechanism, a reciprocating towel scrubbing mechanism, a towel squeezing and wringing mechanism and a single chip microcomputer, wherein the towel lifting mechanism is arranged on the outer side of the external supporting frame;

2. The automatic towel cleaning and wringing machine of claim 1, wherein: the scrubbing driving mechanism comprises a scrubbing motor, a connecting rod and a flywheel, the scrubbing motor is mounted on a cushion block through a motor support, the cushion block is mounted on a left side plate of an external supporting frame, the flywheel is mounted on a motor shaft of the scrubbing motor, the left end of the connecting rod is eccentrically hinged with the flywheel through a bolt, a strip-shaped hole is further formed in the left side plate, and the right end of the connecting rod penetrates through the strip-shaped hole and is connected with the left end of the scrubbing plate through a pin.

3. An automatic towel cleaning wringer as in claim 1 or 2, wherein: the extrusion wringing driving mechanism comprises an extrusion wringing motor, a driving chain wheel, a driven chain wheel, a chain, a second optical axis, two chain connecting blocks, two second sliding blocks, two supporting rods and an extrusion plate connecting block, the left end and the right end of the second optical axis are respectively provided with two vertical optical axis brackets which are rotatably arranged on the rear force application plate through a bearing seat with a bearing, the two vertical optical axis brackets are also arranged on the rear force application plate, the extrusion wringing motor is arranged on a power side aluminum square tube through a motor bracket, the power side aluminum square tube is arranged on a corresponding vertical optical axis bracket, the driving chain wheel is arranged on a motor shaft of the extruding and wringing motor, the driven chain wheel is rotatably arranged on the unpowered side aluminum square tube through a short shaft, the unpowered side aluminum square tube is mounted on a corresponding vertical optical axis support, and the driving chain wheel is connected with the driven chain wheel through a chain;

4. An automatic towel cleaning wringer as in claim 1 or 2, wherein: and the side surface of the scrubbing plate opposite to the extrusion plate is provided with a printing for efficient cleaning.

5. An automatic towel cleaning wringer as in claim 1 or 2, wherein: the upper side of the washing net is fixed on the inner wall of the front stress plate, and the other end of each nylon rope is connected with the lower side of the washing net.