CN114960065A - Fabric cleaning machine - Google Patents

Abstract

The invention relates to a fabric cleaning machine, which comprises a suction component, a separation water tank, a fabric operation component, a hose and a fabric base provided with a sewage inlet; the cloth operation assembly is communicated with the sewage inlet through a hose; the suction assembly is provided with an air inlet and an air outlet and can enable air to flow from the air inlet to the air outlet; the cloth art base is provided with a suction connecting groove, the cloth art base is provided with a separation water tank, a water tank inlet and a water tank outlet are arranged in the separation water tank, the water tank inlet is communicated with the sewage inlet, the water tank outlet is communicated with the suction connecting groove, an inlet pipe, a water storage cavity and an outlet pipe are arranged in the separation water tank, and the water storage cavity is positioned between the inlet pipe and the outlet pipe; the separation water tank is inserted into the separation water tank groove, so that the inlet of the water tank groove is communicated with the inlet pipe, and the outlet of the water tank groove is communicated with the outlet pipe. The invention can realize the separation of sewage and air and is convenient for cleaning and maintaining the separated water tank.

Description

Fabric cleaning machine

Technical Field

The invention relates to the technical field of fabric cleaning machines, in particular to a fabric cleaning machine.

Background

CN 113818179A discloses a cloth art cleaning machine, main part formula frame as an organic whole, its inside modularized design that adopts, including the motor chamber of installation wet and dry motor, the water pump chamber of installation water pump, assembly admission machine construct receive the line chamber, the water purification chamber of installation water purification container and the sewage chamber of installation sewage collection box, motor chamber, water pump chamber and receive the line chamber design department in the middle of the formula frame, water purification chamber and sewage chamber distribute in the both sides of formula frame. The invention has the advantages that the modularized integrated design is adopted, the structure is compact, the volume is small, the use is convenient, the carrying, the storage and the arrangement are convenient, and different application scenes can be met; the working mode is clearly switched, the interference is avoided, the control is simple, and the operation is convenient; the waste water and sewage generated by cleaning can be collected externally, and a self-cleaning mode is arranged internally, so that the requirement on cleanness inside and outside can be met; the reasonable design of sealing and ventilation inside and outside the machine greatly reduces the loss of elements and improves the cleaning efficiency.

In summary, the prior art has at least the following technical problems,

firstly, the cloth art machine only has the function of the cloth art machine, and does not have other functions.

Secondly, the cleaning and maintenance of the sewage collecting box are troublesome.

Thirdly, the cloth operation is interfered by electric wires, water pipes and the like, which is inconvenient.

Disclosure of Invention

It is an object of the present invention to solve or alleviate the second technical problem mentioned above.

The invention adopts the measure that the cloth art cleaning machine comprises a suction component, a separation water tank, a cloth art operation component, a hose and a cloth art base provided with a sewage inlet; the suction assembly is provided with a suction power supply; the cloth operation assembly is communicated with the sewage inlet through a hose; the suction assembly is provided with an air inlet and an air outlet and can enable air to flow from the air inlet to the air outlet; the cloth art base is provided with a suction connecting groove, the cloth art base is provided with a separation water tank, a water tank inlet and a water tank outlet are arranged in the separation water tank, the water tank inlet is communicated with the sewage inlet, the water tank outlet is communicated with the suction connecting groove, an inlet pipe, a water storage cavity and an outlet pipe are arranged in the separation water tank, and the water storage cavity is positioned between the inlet pipe and the outlet pipe; the separation water tank is inserted into the separation water tank groove, so that the inlet of the water tank groove is communicated with the inlet pipe, and the outlet of the water tank groove is communicated with the outlet pipe.

The invention can realize the separation of sewage and air and is convenient for cleaning and maintaining the separation water tank.

According to the further technical scheme, the separation water tank is embedded into the separation water tank groove, the bottom end face of the separation water tank groove is a plane, and the inlet and the outlet of the water tank groove are both arranged on the bottom end face of the separation water tank groove.

After the separation water tank is drawn out from the separation water tank groove, even if water remains on the bottom end face of the separation water tank groove, the separation water tank groove is easy to clean through rag and the like.

According to a further technical scheme, the cross section of the separation water tank is in a non-rotational symmetry shape.

The separation water tank can be prevented from being reversely installed to cause no separation effect or poor separation effect.

Further technical scheme, the inlet tube top is provided with the water guide body, and the water guide body downwardly extending forms the water guide body lateral wall, is provided with the water guide clearance between water guide body lateral wall, the inlet tube lateral wall, and there is the part of overlapping water guide body lateral wall and inlet tube in the direction of height.

The possible splashing range of the sewage can be controlled.

According to the further technical scheme, the water separating tank comprises a water tank body, a water tank top cover and a water tank sealing cover; the water guide body is arranged on the water tank top cover, the water tank top cover is detachably arranged on the top of the water tank body, the water tank sealing cover is detachably connected with the water tank top cover, the water tank top cover and the water tank sealing cover surround to form a communicating cavity, and the water storage cavity is communicated with the outlet pipe through the communicating cavity.

The production of the water tank top cover and/or the water tank sealing cover is facilitated, and the cost can be reduced.

Further technical scheme, the entry of intercommunication chamber is provided with the separation filter groove, and the separation filter imbeds the separation filter groove.

Meanwhile, the water tank sealing cover can be opened, and the separation filter element is convenient to replace.

According to the further technical scheme, a baffle is arranged in the water tank body, and a gap is arranged between the baffle and the separation filter groove and is just opposite to the separation filter.

The separation filter can be prevented from falling due to vibration of the carrying time.

Further technical scheme, the bottom of water tank body is provided with water storage chamber diapire for the bottom in water storage chamber is sealed.

Can conveniently clear up the sewage in the water storage cavity and can ensure the cleanness of the separation water tank.

According to the further technical scheme, the top cover of the water tank is embedded into the top end of the water tank body.

Further technical scheme, the water tank top cap is provided with outlet pipe location reason, and outlet pipe location reason and the laminating of outlet pipe lateral wall.

The sealing performance can be improved, and the alignment of the outlet of the communication cavity and the outlet pipe can be ensured.

In conclusion, the invention can achieve the following technical effects,

1, the separation of sewage and air can be realized, and the separation of the water tank groove is convenient to clean and maintain.

2, after the separation water tank is drawn out from the separation water tank groove, even if water remains on the bottom end surface of the separation water tank groove, the separation water tank groove is easy to clean through rag and the like.

3, the situation that the separation water tank is reversely installed to cause no separation effect or poor separation effect can be avoided.

Drawings

Fig. 1 is a schematic perspective view of a multifunctional fabric washing machine of a first embodiment.

Figure 2 is a schematic view of the suction assembly 1 and the suction assembly 7 of the first embodiment.

Figure 3 is a schematic half-section view of the suction assembly 1 and the suction assembly 7 of the first embodiment.

Fig. 4 is a schematic half-section of the suction assembly 1 of the first embodiment.

Figure 5 is a perspective view of the suction assembly 1, the suction foot 8 and the suction assembly 7 of the first embodiment.

Fig. 6 is a schematic top view of the suction assembly 1, the cloth base 2 and the separation tank 3 of the second embodiment.

Fig. 7 is an exploded perspective view of the suction module 1, the cloth base 2, and the separation tank 3 of the second embodiment.

FIG. 8 is a schematic diagram of detail DTL 1.

Fig. 9 is a perspective view of the fabric base 2 of the second embodiment.

Fig. 10 is a schematic perspective view of a half section of the fabric base 2 of the second embodiment.

Figure 11 is a schematic diagram of detail two DTL 2.

Fig. 12 is an exploded perspective view of the separation tank 3 of the second embodiment.

Fig. 13 is a perspective view of a tank top cover 37 of the second embodiment.

FIG. 14 is a schematic representation of section one SEC 1; arrow ARR1 represents the general path of air flow; arrow two ARR2 indicates the general path of wastewater flow.

FIG. 15 is a schematic illustration of profile two SEC 2; the arrow ARR1 represents the general path of air flow.

Fig. 16 is a perspective view of the cloth handling assembly 4 of the second embodiment.

Fig. 17 is an exploded perspective view of the cloth handling assembly 4 of the second embodiment.

Fig. 18 is a schematic half-section view of the cloth handling assembly 4 of the second embodiment.

Arrow one ARR 1; arrow two ARR 2; section one SEC 1; section two SEC 2; detail one DTL 1; detail two DTL 2; a suction assembly 1; a suction carrier 11; an air inlet 111; an air outlet 112; a suction hood 113; a lower motor cover 114; an upper motor cover 115; a motor seal 116; an air inlet outer edge 119; a suction motor 19; a vane 191; a suction power source 192; an electrical interface 193; the operating device 194; a fabric base 2; a suction assembly groove 21; a suction connecting groove 211; a transition duct 22; a separation tank 23; a tank inlet 231; a tank outlet 233; a sewage inlet 239; a separation water tank 3; an inlet pipe 31; a water guide body 311; a water conductor sidewall 312; a water guide gap 313; a water storage chamber 32; the separation filter 321; a separation filter trough 322; a communication chamber 323; a communication chamber outlet 324; a baffle 328; an outlet pipe 33; a tank body 36; a bottom wall 369 of the water storage cavity; a tank top cover 37; an outlet tube positioning rim 371; a tank seal cover 38; operating the handle 39; a cloth art operating component 4; a water pumping port 41; an overrun spacing 419; a water jet 42; a water pump 43; a pump suction pipe 431; a water pump spray pipe 432; a cloth operation key 438; a water pump power source 439; a container 44; a fabric top cover 48; the hose is connected with the hose opening 49; a quick-mounting structure 5; a rotary lock 51; the rotation lock groove 52; a keyway inlet section 521; a keyway locking section 522; the compression ramp 53; the rotation locking groove 54; a dust collection assembly 7; a dust collection cover 71; a locking buckle 711; a locking collar 712; a dust collection end cap 72; a dust suction port 721; a locked portion 722; a dust collection screen assembly 79; a dust collection base 8; a hose 9.

Detailed Description

The following description will explain embodiments of the present invention with reference to the drawings.

The multifunctional cloth washing machine of the first embodiment includes a suction assembly 1, a separation tank 3, a cloth handling assembly 4, and a hose 9, and a cloth base 2 provided with a sewage inlet 239.

The suction assembly 1 is provided with a suction power source 192. The suction power source 192 may be a rechargeable secondary battery such as a lithium battery, or an external power source such as a conductive wire.

The separation tank 3 can separate sewage and air and is disposed on the fabric base 2, for example, fixed on the fabric base 2 in an integrally formed manner, so that the separation tank 3 is disposed on the fabric base 2. Of course, the separated water tank 3 can be arranged on the cloth art base 2 in other ways.

The cloth operation assembly 4 is communicated with the sewage inlet 239 through a hose 9. The hose 9 is a conventional, deformable tube.

The suction assembly 1 is provided with an air inlet 111 and an air outlet 112 and is capable of allowing air to flow from the air inlet 111 to the air outlet 112.

The suction assembly 1 can be used alone, thereby having at least a cloth cleaning function and an adsorption function.

As one specific embodiment, as shown in fig. 4, the suction assembly 1 includes a suction carrier 11 and a suction motor 19 having an output end on which a blade 191 is fixedly disposed, wherein the output end of the suction motor 19 drives the blade 191 to rotate to generate suction, so that air flows from the air inlet 111 to the air outlet 112. The suction carrier 11 includes a suction outer cover 113, a lower motor cover 114, and an upper motor cover 115, the suction motor 19 is embedded in a space (not shown in the drawings) surrounded by the lower motor cover 114 and the upper motor cover 115, and a flexible motor sealing ring 116 is disposed between the lower motor cover 114 and the upper motor cover 115, for example, the motor sealing ring 116 is made of rubber and the cross section of the motor sealing ring 116 is generally U-shaped. The lower motor cover 114 and the upper motor cover 115 are disposed in the suction housing 113 and fixed, for example, by interference fit or screw fastening. The gaps between the inner side wall of the suction hood 113 and the outer side walls of the lower motor hood 114 and the upper motor hood 115 can be used for air circulation. Note that the entire air flow path is not shown in fig. 4 because the cross section of fig. 4 does not cut through the through-hole. With the structure, the assembly of the suction assembly 1 is convenient without fasteners such as screws and the like, and the requirement of the suction motor 19 on waterproofness can be met.

The cloth art base 2 is provided with a suction connecting groove 211, and the suction connecting groove 211 and the sewage inlet 239 are respectively communicated with the separation water tank 3.

The suction assembly 1 is detachably connected with the fabric base 2, so that the air inlet 111 is communicated with the suction connecting groove 211.

As a specific implementation manner, the multifunctional fabric cleaning machine of the first embodiment further includes a quick-assembly structure 5, the fabric base 2 is provided with a suction component groove 21, the air inlet 111 is disposed on a bottom end surface of the suction component 1, the bottom end of the suction component 1 is inserted into the suction component groove 21, a cross section of the bottom end of the suction component 1 and a cross section of the suction component groove 21 are concentric circles, so that the suction component 1 can rotate after being inserted into the suction component groove 21, the bottom end of the suction component 1 and the suction component groove 21 are both provided with the quick-assembly structure 5, and the bottom end of the suction component 1 and the suction component groove 21 are connected through the quick-assembly structure 5. The quick-assembly structure 5 may be a screw thread or an elastic structure (a structure that realizes quick assembly by elastic deformation, for example, a structure that a buckle protrusion is clamped into a clamping groove by elastic deformation of the buckle protrusion). The suction assembly 1 is convenient to disassemble and assemble, and the suction assembly 1 is firmly connected with the cloth art base 2.

As one specific embodiment, the quick-assembly structure 5 includes a rotary lock catch 51 and a rotary lock slot 52, one of the rotary lock catch 51 and the rotary lock slot 52 is disposed at the bottom end of the suction assembly 1, and the other is disposed at the side wall of the suction assembly slot 21; the rotating keyway 52 comprises a keyway inlet section 521 and a keyway locking section 522 in communication with the keyway inlet section 521; the locking slot entrance section 521 is exposed from the bottom end surface of the suction assembly 1 or the top end of the suction assembly slot 21, and an included angle is formed between the locking slot locking section 522 and the suction assembly slot 21. For example, the included angle is an obtuse angle, a right angle, or an acute angle. When the suction assembly 1 is inserted into the suction assembly groove 21, the rotary lock catch 51 is inserted into the lock groove inlet section 521, and then the rotary lock catch 51 is screwed into the lock groove locking section 522 by rotating the suction assembly 1 by an angle less than three hundred and sixty degrees, so that the suction assembly 1 is connected with the fabric base 2, otherwise, the suction assembly 1 can be detached from the fabric base 2, and the suction assembly 1 can be rapidly and conveniently detached.

As one specific embodiment, the locking ends of the rotary lock catch 51 and the locking groove locking section 522 are provided with a pressing inclined surface 53; a flexible sealing ring (not shown in the drawing) is arranged between the bottom end surface of the suction assembly 1 and the section of the suction assembly groove 21. The rotation is less than the angle within three hundred sixty degrees and the suction assembly 1 enables the rotary lock catch 51 to be screwed into the locking groove locking section 522, and the pressing inclined plane 53 of the rotary lock catch 51 and the pressing inclined plane 53 of the locking groove locking section 522 are abutted to realize abdication, so that the suction assembly 1 is close to the end surface of the suction assembly groove 21 and presses the sealing ring when rotating, and the air tightness between the suction assembly 1 and the cloth art base 2 can be ensured.

As a specific embodiment, one of the rotary lock catch 51 and the rotary lock groove 52 is provided with a rotary lock groove 54, and the other is provided with a rotary lock projection (not shown) having elasticity. The section of the rotary locking bulge is triangular, trapezoidal or segmental. The rotation locking protrusion is inserted into the rotation locking groove 54, so that the stability of the connection between the suction assembly 1 and the fabric base 2 can be ensured.

In a specific embodiment, the air inlet 111 is provided with a convex outer edge 119 of the air inlet, the outer edge 119 of the air inlet is embedded in the suction connecting groove 211, and the outer wall of the outer edge 119 of the air inlet and the inner wall of the suction connecting groove 211 are both cylindrical surfaces. The air tightness between the suction assembly 1 and the fabric base 2 can be ensured.

As one specific embodiment, the dust suction assembly 7 further comprises a dust suction assembly 7, the dust suction assembly 7 is provided with a dust suction screen assembly 79, the dust suction screen assembly 79 is used for separating dust, debris such as a slice and the like from air, for example, the dust suction screen assembly 79 comprises a filter bowl (not shown in the drawing) provided with a filter screen to realize a function of separating the dust, debris such as a slice and the like from air, the dust suction assembly 7 is provided with a quick-assembly structure 5, and the quick-assembly structure 5 of the dust suction assembly 7 is the same as the quick-assembly structure 5 of the cloth art base 2. After the suction assembly 1 is detached from the fabric base 2, the suction assembly 1 and the dust collection assembly 7 can be connected through the quick-assembly structure 5, and the function of a dust collector is achieved.

In one embodiment, the dust suction assembly 7 includes a dust suction housing 71 and a dust suction end cap 72 hinged to the dust suction housing 71, the dust suction end cap 72 is provided with a dust suction port 721, and the dust suction screen assembly 79 is detachably disposed in the dust suction housing 71. The dust collection end cap 72 can be rotated open to detach the dust collection screen assembly 79, facilitating cleaning of the dust collection screen assembly 79.

In a specific embodiment, the dust collection cover 71 is hinged with a locking buckle 711 and/or a locking hoop 712, the dust collection end cover 72 is provided with a locked part 722, and the locking buckle 711 and/or the locking hoop 712 are matched with the locked part 722. For example, the locking protrusion of the locking clip 711 is inserted into the locked portion 722 that is a clip groove, and for example, the locking clip 712 is fitted over the locked portion 722 and abuts against the outside of the locked portion 722.

In one embodiment, the vacuum cleaner further comprises a hollow base 8, and the suction port 721 protrudes from the suction end cap 72 and can be inserted into the base 8. When the suction assembly 1 is used as a dust collector, the suction assembly 1 can be conveniently and vertically placed.

A second embodiment.

One difference of the multifunctional fabric washing machine of the second embodiment compared with the first embodiment is the position of the sewage inlet 239.

One difference of the multifunctional cloth washing machine of the second embodiment compared with the first embodiment is the outer shape of the cloth handling assembly 4.

In the multifunctional fabric washing machine of the second embodiment, the fabric base 2 is provided with the separation water tank 23, the separation water tank 23 is provided with a water tank inlet 231 and a water tank outlet 233, the water tank inlet 231 is communicated with the sewage inlet 239, and the water tank outlet 233 is communicated with the suction connecting groove 211, for example, through the transition pipe 22.

An inlet pipe 31, a water storage cavity 32 and an outlet pipe 33 are arranged in the separation water tank 3, and the water storage cavity 32 is positioned between the inlet pipe 31 and the outlet pipe 33.

The separation tank 3 is inserted into the separation tank 23 such that the tank inlet 231 communicates with the inlet pipe 31 and the tank outlet 233 communicates with the outlet pipe 33. For example, the sidewall of the separation tank 23 is opened, and the inlet pipe 31 and the outlet pipe 33 are respectively communicated with the sidewall opening of the separation tank 23, so that the tank inlet 231 is communicated with the inlet pipe 31, and the tank outlet 233 is communicated with the outlet pipe 33.

The working principle is as follows: when the cloth process operation is performed, the suction force generated by the suction assembly 1 causes the sewage (i.e. the mixture of the cloth velvet and the water) to sequentially pass through the cloth process operation assembly 4, the hose 9, the sewage inlet 239 and the inlet pipe 31, the sewage enters the water storage cavity 32 and is stored in the water storage cavity 32, and the air passes through the outlet pipe 33, the transition pipe 22, the suction connecting groove 211 and the air inlet 111 and is discharged from the air outlet 112. Can realize sewage, air separation, avoid sewage to get into suction subassembly 1 and cause suction subassembly 1 to damage. After the separation water tank 3 is sucked from the separation water tank 23, the water tank inlet 231 and the water tank outlet 233 are exposed, and the separation water tank 23 is convenient to clean and maintain.

As a specific embodiment, the separation tank 3 is inserted into the separation tank 23, the bottom end surface of the separation tank 23 is a plane, and the tank inlet 231 and the tank outlet 233 are both opened on the bottom end surface of the separation tank 23. Rubber rings can be arranged between the bottom end surface of the separation water tank 3 and the bottom end surface of the water tank groove inlet 231, and between the bottom end surface of the separation water tank 3 and the bottom end surface of the water tank groove outlet 233, so that the sealing effect is improved. After the separation tank 3 is drawn out from the separation tank 23, even if water remains on the bottom end surface of the separation tank 23, the water is relatively easily cleaned by a cleaning cloth or the like.

As a specific embodiment, the cross section of the separation tank 3 is non-rotationally symmetrical. For example, the cross section of the separation water tank 3 is a shape formed by splicing a segment shape and a rectangle, and the shape cannot be overlapped with itself after rotating one hundred eighty degrees. It is possible to avoid no separation effect or a poor separation effect caused by the reverse installation of the separation tank 3.

In a specific embodiment, a water guide body 311 is provided above the inlet pipe 31, the water guide body 311 extends downward to form a water guide side wall 312, a water guide gap 313 is provided between the water guide side wall 312 and the side wall of the inlet pipe 31, and a part where the water guide side wall 312 and the inlet pipe 31 overlap each other in the height direction is present. The sewage and the air output from the inlet pipe 31 enter the water storage cavity 32 after being blocked and guided by the water guide body 311, the possible splashing range of the sewage can be controlled, and the sewage is prevented from splashing everywhere. The top end connection of the water guide sidewall 312 is rounded to improve the guiding effect of the sewage and air output from the inlet pipe 31.

As one specific embodiment, the separation tank 3 comprises a tank body 36, a tank top cover 37 and a tank sealing cover 38; water guide body 311 sets up on water tank top cap 37, and water tank top cap 37 sets up on the top of water tank body 36 detachably, water tank sealing lid 38 and water tank top cap 37 releasable connection, and water tank top cap 37 encloses with water tank sealing lid 38 and forms intercommunication chamber 323, and water storage chamber 32 communicates with outlet pipe 33 through intercommunication chamber 323, and the entry in intercommunication chamber 323 is provided with separation filter groove 322, and separation filter 321 imbeds separation filter groove 322. The separation filter 321 is a member having fine pores such as filter cotton, and filters fine lint or the like so that air passing through the separation filter 321 is further cleaned. Water tank top cap 37 can imbed the top of water tank body 36, but water tank sealing lid 38 can imbed water tank top cap 37 and realize releasable connection, and water tank top cap 37, water tank sealing lid 38 are the cavity, need not to set up when moulding plastics and loose core etc. on injection mold, the production of water tank top cap 37 and/or water tank sealing lid 38 of being convenient for, can reduce cost, can open water tank sealing lid 38 simultaneously, be convenient for change the separation and strain piece 321.

In a specific embodiment, a baffle 328 is provided in the water tank body 36, and a gap is provided between the baffle 328 and the separation filter groove 322 and faces the separation filter 321. The baffle 328 abuts against the separation filter 321 or is close to the separation filter 321, and can prevent the separation filter 321 from falling due to vibration or the like during conveyance.

In one embodiment, a bottom end of the tank body 36 is provided with a bottom wall 369 of the water storage chamber 32 such that the bottom end is sealed. After the separation water tank 3 is entirely drawn out from the separation water tank 23, the sewage is stored in the water storage chamber 32 whose bottom end is sealed without flowing into the separation water tank 23, and the water storage chamber 32 can be poured out after the water tank top cover 37 is opened, in other words, the sewage in the water storage chamber 32 can be conveniently cleaned, and the cleanness of the separation water tank 23 can be ensured.

As one specific embodiment, the tank top cover 37 is fitted into the top end of the tank body 36 such that the tank top cover 37 is detachably disposed on the top end of the tank body 36.

As a specific embodiment, the tank top cover 37 is provided with an outlet pipe positioning rim 371, and the outlet pipe positioning rim 371 is attached to the side wall of the outlet pipe 33. The outlet tube positioning rim 371 is attached to the inner or outer wall of the outlet tube 33. The sealing performance can be improved and the alignment of the outlet of the communication chamber 323 (i.e., the communication chamber outlet 324) and the outlet pipe 33 can be ensured.

In the multifunctional fabric washing machine of the second embodiment, the fabric operating assembly 4 is provided with a water pumping port 41, a water spraying port 42, a hose connecting port 49, a water pump 43 and a water pump power source 439 connected with the water pump 43, and the water pump power source 439 is a secondary battery. The water pump power source 439 can also be an external power source such as an electric lead.

The water pump 43 communicates with the water jet 42.

The suction port 41 communicates with a hose connection port 49, and the hose connection port 49 communicates with the hose 9.

The working principle is as follows: the water pump 43 is connected to a water source via a water pipe before use, for example, in a manner described below.

When the water pump 43 is turned on, the water pump 43 delivers water to the water spout 42 and from the water spout 42 to the cloth, while suction is transmitted from the hose 9 to the water suction port 41. During the cloth process operation, the cloth process operation assembly 4 moves integrally, so that the water pumping port 41 passes through the area which the water spraying port 42 passes through, the suction force of the water pumping port 41 pumps water and cloth down from the water pumping port 41 to form sewage, and the sewage is conveyed to the sewage inlet 239 through the hose 9.

The cloth art operation component 4 can be conveniently moved to carry out cloth art operation without being interfered by the conducting wire. Of course, the cloth art operating assembly 4 can also be used by spraying water alone, for example, in a water spraying scene such as watering flowers.

In a specific embodiment, the front end surface of the cloth operation member 4 is a plane, and the water pumping port 41 is opened on the front end surface of the cloth operation member 4. The front end face of the cloth operation component 4 can be tightly attached to cloth to ensure the adsorption effect.

In one embodiment, the water jet 42 is disposed with an excess distance 419 from the front end of the fabric handling assembly 4, in other words, the water jet 42 is recessed from the front end of the fabric handling assembly 4. When the front end face of the cloth art operation component 4 is tightly attached to the cloth, the water spray opening 42 can not be blocked.

In one embodiment, the cloth operating assembly 4 includes a detachable cloth cover 48, and the thin wall of the cloth operating assembly 4 where the front end surface is located is disposed on the cloth cover 48. The cloth top cover 48 can be detached to facilitate cleaning of the thin wall on which the front end face of the cloth operating assembly 4 is located.

As a specific embodiment, the cloth operating assembly 4 is provided with a cloth operating key 438 electrically connected to the water pump 43. The cloth operating keys 438 are conventional microswitch light tubes, which can conveniently control the water pump 43.

In one embodiment, the cloth art operating assembly 4 further comprises a container 44, the container 44 is detachably connected with the cloth art operating assembly 4, and the water pump 43 is provided with a water pump suction pipe 431 extending into the container 44. The cloth art operation component 4 can be conveniently moved to carry out cloth art operation without being disturbed by the water pipe.

In one specific embodiment, the water pump 43 is provided with a water pump spout 432 that communicates with the spout 42.

As used in the present invention, the wording: first, second, etc. do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

As used in the present invention, the wording: one, etc. do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced item.

As used in the present invention, the term indicating orientation or position: top, bottom, side, longitudinal, lateral, middle, center, outer, inner, horizontal, vertical, left, right, above, below, and the like are intended to reflect relative positions, not absolute positions.

The term as used in the present invention: approximate, whole, approximate, close, etc., are words of definition that specify the presence of stated features but allow for certain deviations. The amount of tolerance for a certain deviation may vary depending on the particular context; for example, the specific context in which deviations from size may be relied upon includes, but is not limited to, national standards for dimensional tolerances.

Claims (10)

1. The fabric cleaning machine comprises a suction component (1), a separation water tank (3), a fabric operation component (4), a hose (9) and a fabric base (2) provided with a sewage inlet (239); the suction assembly (1) is provided with a suction power supply (192); the cloth operation assembly (4) is communicated with the sewage inlet (239) through a hose (9); the suction assembly (1) is provided with an air inlet (111) and an air outlet (112) and can enable air to flow from the air inlet (111) to the air outlet (112); the cloth art base (2) is provided with a suction connecting groove (211),

the cloth art base (2) is provided with a separation water tank (23), a water tank inlet (231) and a water tank outlet (233) are arranged in the separation water tank (23), the water tank inlet (231) is communicated with a sewage inlet (239), the water tank outlet (233) is communicated with a suction connecting groove (211), an inlet pipe (31), a water storage cavity (32) and an outlet pipe (33) are arranged in the separation water tank (3), and the water storage cavity (32) is located between the inlet pipe (31) and the outlet pipe (33); the separation tank (3) is inserted into the separation tank groove (23) so that the tank groove inlet (231) is communicated with the inlet pipe (31) and the tank groove outlet (233) is communicated with the outlet pipe (33).

2. The cloth art cleaning machine of claim 1, wherein the separation water tank (3) is embedded in the separation water tank groove (23), the bottom end surface of the separation water tank groove (23) is a plane, and the water tank groove inlet (231) and the water tank groove outlet (233) are both arranged on the bottom end surface of the separation water tank groove (23).

3. The cloth art cleaning machine of claim 1, characterized in that the cross section of the separation water tank (3) is non-rotationally symmetrical.

4. The cloth art cleaning machine as claimed in claim 2, characterized in that a water guide body (311) is arranged above the inlet pipe (31), the water guide body (311) extends downwards to form a water guide body side wall (312), a water guide gap (313) is arranged between the water guide body side wall (312) and the inlet pipe (31), and the water guide body side wall (312) and the inlet pipe (31) have overlapped parts in the height direction.

5. Cloth washing machine as in claim 4, characterized in that the separation tank (3) comprises a tank body (36), a tank top cover (37) and a tank sealing cover (38); water conservancy diversion body (311) sets up on water tank top cap (37), and water tank top cap (37) detachably set up on the top of water tank body (36), and water tank sealing lid (38) and water tank top cap (37) releasable connection, water tank top cap (37) and water tank sealing lid (38) surround and form intercommunication chamber (323), and water storage chamber (32) are through intercommunication chamber (323) and outlet pipe (33) intercommunication.

6. The multifunctional cloth washing machine as claimed in claim 5, wherein the inlet of the communicating chamber (323) is provided with a separating filter groove (322), and the separating filter (321) is inserted into the separating filter groove (322).

7. The cloth art cleaning machine of claim 6, wherein a baffle plate (328) is arranged in the water tank body (36), and a gap is arranged between the baffle plate (328) and the separating filter element groove (322) and is opposite to the separating filter element (321).

8. The cloth art washing machine as claimed in claim 2, wherein a bottom end of the water tank body (36) is provided with a bottom wall (369) of the water storage cavity so that the bottom end of the water storage cavity (32) is sealed.

9. The cloth art washing machine of claim 6, wherein the top cover (37) of the water tank is embedded into the top end of the water tank body (36).

10. The cloth washer as claimed in claim 8, wherein the top cover (37) of the water tank is provided with an outlet tube positioning rim (371), and the outlet tube positioning rim (371) is attached to the side wall of the outlet tube (33).

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