阅读说明：本技术 清洗机 (Cleaning machine ) 是由 马世起 于 2020-06-17 设计创作，主要内容包括：本发明公开了一种清洗机,包括机身、上盖、排水阀体、电解组件、涡流组件、多路水电分离集成模组；在排水时,排水阀体内的排水活塞朝向排水管做往复运动,使废水不断被强行推入排水管中,使水流不断冲击排水管中的菜叶等杂物,避免菜叶等杂物的堆积,造成排水管的堵塞；水箱中的水利用电解装置产生阴离子、阳离子,让水先后呈酸性和碱性,以中和酸性农药和碱性农药,利用涡流组件与喷盖使水流喷射到水箱内壁上并通过水箱内壁改变流动方向,以使水流持续环绕以形成涡流,并使阴离子、阳离子快速分布在水中,进一步增强清洗效果,多路水电分离集成模组集成有溢水排水、进水、UV消毒功能,实现溢水排出、水箱注水以及UV杀菌。(The invention discloses a cleaning machine which comprises a machine body, an upper cover, a drainage valve body, an electrolysis assembly, a vortex assembly and a multi-path water-electricity separation integrated module, wherein the upper cover is arranged on the machine body; during drainage, a drainage piston in the drainage valve body reciprocates towards the drainage pipe, so that the wastewater is continuously and forcibly pushed into the drainage pipe, water flow continuously impacts sundries such as vegetable leaves in the drainage pipe, and the blockage of the drainage pipe due to the accumulation of the sundries such as the vegetable leaves is avoided; the water in the water tank utilizes the electrolytic device to produce anion, cation, let water successively be acidity and basicity, with neutralization acid pesticide and basicity pesticide, utilize vortex subassembly and spout the lid and make rivers spray on the water tank inner wall and change the flow direction through the water tank inner wall, so that rivers continuously encircle in order to form the vortex, and make anion, cation quick distribution in aquatic, further strengthen the cleaning performance, multichannel water and electricity separation integrated module is integrated with the overflow drainage, intake, the UV disinfection function, realize the overflow discharge, water tank water injection and UV disinfect.)

1. A cleaning machine, comprising:

the water tank is characterized by comprising a machine body (100), wherein a water tank (200) is arranged in the machine body (100), a water outlet (210) is formed in the bottom plate of the water tank (200), and a water path unit mounting position (220) is formed in the side wall of the water tank (200);

the upper cover (300) is rotationally covered at the opening at the top of the water tank (200);

the drainage valve body (400), the drainage valve body (400) is arranged at the bottom of the drainage port (210), a drainage pipe (410) is arranged on the drainage valve body (400), a drainage piston (420) is arranged in the drainage valve body (400), and the drainage piston (420) moves towards the drainage pipe (410) in a reciprocating manner;

the electrolytic assembly (500), the said electrolytic assembly (500) is fixed to the inside wall of the said water tank (200);

the vortex assembly (600) is arranged on the inner side wall of the water tank (200), the vortex assembly (600) is provided with a spray cover (610), the spray cover (610) is provided with a spray head (620), the inner channel of the spray head (620) inclines by 70 degrees, and the spray head (620) can flush water flow to the inner side wall of the water tank (200) on the inclined opposite side;

multichannel water and electricity separation integrated module (700), multichannel water and electricity separation integrated module (700) adorn in on water route unit installation position (220), be equipped with mutually independent water injection cavity (710), overflow passageway (720), lamp cavity (730) in multichannel water and electricity separation integrated module (700), water injection cavity (710) communicates with each other with water tank (200) inner chamber, overflow passageway (720) communicate with each other and through the pipeline with drainage valve body (400) intercommunication with water tank (200) inner chamber, UV lamp plate (731) are equipped with in lamp cavity (730).

2. The cleaning machine as claimed in claim 1, wherein a piston pump (430) is mounted on the drain valve body (400) and is opposite to the drain pipe (410), a piston rod of the piston pump (430) extends into the drain valve body (400) and is connected with the drain piston (420), a sealing sleeve (440) is mounted on the piston rod of the piston pump (430), and a spring (450) is sleeved on the piston rod of the piston pump (430); an overflow pipe (411) is branched from the drain pipe (410), and the overflow pipe (411) is communicated with the overflow channel (720) through a pipeline.

3. The cleaning machine of claim 1, wherein the drain opening (210) is provided with a screen plate (211), and the screen plate (211) is covered with a drain filter cover (212); drainage valve body (400) with waterproof circle (213) are equipped with between water tank (200), waterproof circle (213) bottom is equipped with sealing washer piece (214), drainage valve body (400) top is equipped with water inlet (401), water inlet (401) outer fringe is equipped with annular seal groove (402), annular seal groove (402) are used for packing into sealing washer piece (214).

4. The cleaning machine according to claim 1, characterized in that the electrolytic assembly (500) comprises a first fixed grid plate (510), a second fixed grid plate (520), an insulating grid plate (530) and an electrode mesh (540), wherein two pieces of the electrode mesh (540) are clamped between the first fixed grid plate (510) and the second fixed grid plate (520), the two pieces of the electrode mesh (540) are separated by the insulating grid plate (530), and the electrode mesh (540) is connected with a circuit; the top of the first fixed grid plate (510) is provided with air holes (512); be equipped with public buckle (513) on first fixed grid board (510), be equipped with on second fixed grid board (520) with female buckle (522) of public buckle (513) cooperation.

5. The cleaning machine according to claim 4, characterized in that the first fixed grid plate (510) is provided with a tight-fitting structural column (511), the second fixed grid plate (520) is provided with a tight-fitting structural hole (521), and the tight-fitting structural column (511) is inserted into the tight-fitting structural hole (521).

6. The washing machine as claimed in claim 1, wherein the vortex assembly (600) further comprises a base (630), the base (630) is fixed on the water tank (200), a water pump (640) is fixed at the rear end of the base (630), a water suction port (612) matched with the water pump (640) is arranged on the spraying cover (610), a convex block (611) is arranged at the outer edge of the spraying cover (610), and a sliding groove (631) matched with the convex block (611) is arranged on the base (630).

7. The washing machine as claimed in claim 1, wherein the waterway unit mounting location (220) is provided with a spillway inlet (221) and a UV lamp holder (222), the UV lamp holder (222) extends downwards to form a water filling inlet (223), the UV lamp holder (222) is positioned below the spillway inlet (221), the lamp chamber (730) is arranged in the UV lamp holder (222), the spillway channel (720) is positioned at the rear side of the spillway inlet (221) and communicated, and the water filling chamber (710) is positioned at the rear side of the water filling inlet (223) and communicated; a front cover plate (740) connected with the multi-channel water and electricity separation integrated module (700) is installed on the waterway unit installation position (220), and an overflow concave position (741) matched with the overflow port (221) and a water outlet gap position (742) matched with the water injection port (223) are respectively arranged on the inner side of the front cover plate (740); a reflector (770) positioned on the front side of the UV lamp panel (731) is arranged in the lamp cavity (730), a downward inclined light reflecting port (771) is formed in the reflector (770), the light reflecting port (771) is matched with a lamp bead on the UV lamp panel (731) in position, a light-transmitting glass sheet (750) is arranged on the front cover plate (740), and the light-transmitting glass sheet (750) covers the opening of the lamp cavity (730); a sealing ring (760) is arranged between the multi-path water and electricity separation integrated module (700) and the wall of the water tank (200), a power supply hole (732) and an air hole (733) are arranged at the back of the lamp cavity 730, and a breathable waterproof film (734) is adhered to the air hole (733).

8. The cleaning machine according to claim 1, wherein the machine body (100) comprises a bottom shell (110), a main body (120) and a sealing plate (130), a bottom fixing column (111) and a supporting column (112) are arranged on a bottom plate of the bottom shell (110), an upper fixing column (121) is arranged in the main body (120), and the upper fixing column (121) is inserted into the lower fixing column (111) for fixing; edge plate (201) has been extended outward to water tank (200) top edge level, big body (120) open-top and opening edge are equipped with concave position (122), water tank (200) are put into through the opening at big body (120) top, make edge plate (201) place in on concave position (122), and will banding board (130) lid in on edge plate (201), support column (112) support water tank (200).

9. The cleaning machine of claim 1, wherein the upper cover (300) is provided with a rotating shaft (310), and the rotating shaft (310) is mounted on a shaft seat (140) arranged at the top of the machine body (100).

10. A washing machine according to claim 1, characterized in that the tank (200) is equipped with a sonotrode (800) at the bottom.

Technical Field

The invention relates to the technical field of washing appliances, in particular to a cleaning machine.

Background

People often wash fruits, vegetables or dishes manually in daily life, but pesticide residues on the fruits, vegetables or dishes cannot be thoroughly removed, so people use a washing machine to wash the daily fruits, vegetables or dishes, the existing washing machine often washes the fruits, vegetables or dishes in a mode that washing water generates vortex, but the vortex generated by the existing washing machine is concentrated in the middle of a water tank, the fruits, vegetables or dishes cannot be thoroughly washed, the washing effect is influenced, sundries such as vegetable leaves are easily mixed in the sewage after washing, and a drain pipe is easily blocked during drainage.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a cleaning machine which can enable vortex to be uniformly distributed in a water tank, improve the cleaning effect and ensure the smooth drainage of a drainage pipe.

The cleaning machine comprises a machine body, an upper cover, a drainage valve body, an electrolysis assembly, a vortex assembly and a multi-path water-electricity separation integrated module, wherein the upper cover is arranged on the machine body; a water tank is arranged in the machine body, a water outlet is formed in a bottom plate of the water tank, and a waterway unit mounting position is formed in the side wall of the water tank; the upper cover is rotatably covered on the opening at the top of the water tank; the drainage valve body is arranged at the bottom of the drainage outlet, a drainage pipe is divided from the drainage valve body, a drainage piston is arranged in the drainage valve body, and the drainage piston moves towards the drainage pipe in a reciprocating manner; the electrolytic component is arranged on the inner side wall of the water tank; the vortex assembly is arranged on the inner side wall of the water tank, the vortex assembly is provided with a spray cover, the spray cover is provided with a spray head, a channel in the spray head is inclined by 70 degrees, and the spray head flushes water flow to the inner side wall of the water tank on the inclined opposite side; the integrated module of multichannel water and electricity separation adorns in on the water route unit installation position, be equipped with mutually independent water injection cavity, overflow passageway, lamp cavity in the integrated module of multichannel water and electricity separation, the water injection cavity communicates with each other with the water tank inner chamber, overflow passageway and water tank inner chamber communicate with each other and through the pipeline with drain valve body intercommunication, the indoor UV lamp plate that is equipped with of lamp cavity.

The cleaning machine provided by the embodiment of the invention has at least the following beneficial effects:

1. the bottom of an upper drainage port of a water tank bottom plate is provided with a drainage valve body, a drainage pipe is divided from the drainage valve body, and a drainage piston in the drainage valve body reciprocates towards the drainage pipe during drainage, so that waste water is continuously forced into the drainage pipe, water flow continuously impacts sundries such as vegetable leaves in the drainage pipe, and the blockage of the drainage pipe due to the accumulation of the sundries such as the vegetable leaves is avoided;

2. the electrolytic component and the eddy current component are arranged on the inner side wall of the water tank, and water in the water tank generates anions and cations by using the electrolytic device, so that the water is acidic and alkaline in sequence, and can neutralize acidic pesticides and alkaline pesticides and kill viruses; utilize the vortex subassembly with adorn spout the lid on the vortex subassembly and spray rivers to the water tank in, be equipped with the shower nozzle on spouting the lid, make rivers spray on the water tank inner wall and change the flow direction through the water tank inner wall to make rivers continuously encircle and form the vortex, and make anion, cation fast distribution in aqueous, further reinforcing cleaning performance.

3. Multichannel water and electricity separation integrated module integration has the overflow drainage, intake, UV disinfection function, adorn multichannel water and electricity separation integrated module on the water route unit installation position of water tank, be equipped with mutually independent water injection cavity in multichannel water and electricity separation integrated module, the overflow passageway, the lamp cavity, the water injection cavity passes through the pipeline and communicates with water pipe, make the running water pass through water injection cavity and get into in the water tank, when the water level is too high, water passes through the internal discharge of overflow passageway entering drain valve, be equipped with the UV lamp plate in the lamp cavity, disinfect the disinfection in to the water tank through the UV lamp plate.

According to some embodiments of the invention, a piston pump is installed on the drain valve body and is opposite to the drain pipe, a piston rod of the piston pump extends into the drain valve body and is connected with the drain piston, a sealing sleeve is installed on the piston rod of the piston pump, and a spring is sleeved on the piston rod of the piston pump; and an overflow pipe is branched from the water discharge pipe and is communicated with the overflow channel through a pipeline.

According to some embodiments of the invention, a filter screen plate is mounted on the drain opening, and a drain filter cover covers the filter screen plate; the drainage valve body with waterproof circle is equipped with between the water tank, waterproof circle bottom is equipped with the sealing washer piece, drainage valve body top is equipped with the water inlet, the water inlet outer fringe is equipped with annular seal groove, annular seal groove is used for packing into the sealing washer piece.

According to some embodiments of the invention, the electrolytic assembly comprises a first fixed grid plate, a second fixed grid plate, an insulating grid plate and an electrode net, wherein two pieces of the electrode net are clamped between the first fixed grid plate and the second fixed grid plate, the two pieces of the electrode net are separated by the insulating grid plate, and the electrode net is connected with a circuit; the top of the first fixed grid plate is provided with air holes; the first fixed grid plate is provided with a male buckle, and the second fixed grid plate is provided with a female buckle matched with the male buckle.

According to some embodiments of the invention, the first fixed grid plate is provided with a close-fitting structural column, the second fixed grid plate is provided with a close-fitting structural hole, and the close-fitting structural column is inserted into the close-fitting structural hole.

According to some embodiments of the present invention, the vortex assembly further includes a base, the base is fixed on the water tank, the water pump is fixed at the rear end of the base, the spray cover is provided with a water suction port matched with the water pump, the outer edge of the spray cover is provided with a projection, and the base is provided with a fixed chute matched with the projection.

According to some embodiments of the present invention, the waterway unit installation site is opened with a spillway gate and a UV lamp socket, the UV lamp socket extends downward with a water filling port, the UV lamp socket is located below the spillway gate, the lamp chamber is installed in the UV lamp socket, the spillway channel is located at the rear side of the spillway gate and communicated with the water filling port, and the water filling chamber is located at the rear side of the water filling port and communicated with the water filling port; a front cover plate connected with the multi-path water and electricity separation integrated module is arranged on the waterway unit installation position, and an overflow concave position matched with the overflow port and a water outlet gap position matched with the water injection port are respectively arranged on the inner side of the front cover plate; a reflecting cover positioned on the front side of the UV lamp panel is arranged in the lamp cavity, a downward inclined reflecting opening is formed in the reflecting cover, the reflecting opening is matched with the position of a lamp bead on the UV lamp panel, a light-transmitting glass sheet is arranged on the front cover plate, and the light-transmitting glass sheet covers the opening of the lamp cavity; the multi-path water and electricity separation integrated module and the water tank wall are provided with a sealing ring, the back of the lamp cavity is provided with a power supply hole and an air hole, and a breathable waterproof film is pasted on the air hole.

According to some embodiments of the invention, the machine body comprises a bottom shell, a main body and an edge sealing plate, wherein a bottom plate of the bottom shell is provided with a lower fixing column and a supporting column, an upper fixing column is arranged in the main body, and the upper fixing column is inserted into the lower fixing column for fixing; the edge of the top of the water tank extends horizontally to form a side plate, the edge of the top of the large body is provided with a concave position, the water tank is placed into the opening at the top of the large body, the side plate is placed on the concave position, the edge sealing plate covers the side plate, and the support column supports the water tank.

According to some embodiments of the invention, the upper cover is provided with a rotating shaft, and the rotating shaft is arranged on a shaft seat arranged at the top of the machine body.

According to some embodiments of the invention, the tank bottom is equipped with an ultrasonic generator.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is a schematic top view of an embodiment of the present invention;

FIG. 3 is a diagram I illustrating the use state of the water tank;

FIG. 4 is a schematic view of a water tank in use;

FIG. 5 is a schematic view showing the combination state of the electrolytic assembly, the vortex assembly, the multi-path water and electricity separation integrated module and the water tank;

FIG. 6 is a schematic top view of the combination of the multi-channel water and electricity separation integrated module and the water tank;

FIG. 7 is a schematic view of the combination of the multi-channel water and electricity separation integrated module and the water tank;

FIG. 8 is a schematic cross-sectional view of a multi-channel water and electricity separation integrated module and a water tank;

FIG. 9 is a schematic view of the installation position of the multi-path water and electricity separation integrated module and the waterway unit;

FIG. 10 is a schematic view of a water tank;

fig. 11 is a schematic diagram of explosion states of the multi-channel water and electricity separation integrated module, the UV lamp panel, the front cover plate, the reflector, the light-transmitting glass sheet and the sealing ring;

FIG. 12 is a schematic sectional view of a multi-path water and electricity separation integrated module in use;

FIG. 13 is a schematic view of a multi-channel water and electricity separation integrated module;

FIG. 14 is a schematic view of a front cover plate;

FIG. 15 is a schematic view showing the combination of the electrolytic module, the vortex module and the water tank;

FIG. 16 is a schematic cross-sectional view of an electrolytic assembly;

FIG. 17 is a schematic view of an electrolytic assembly in an exploded state;

FIG. 18 is a schematic view of the lid and base;

FIG. 19 is a schematic view showing the combination of the spray cap and the water pump;

fig. 20 is a schematic longitudinal sectional view of the drain valve body;

fig. 21 is a schematic view showing an exploded state of the drain valve body;

FIG. 22 is a schematic cross-sectional view of the drain valve body;

FIG. 23 is a schematic view of a waterproof ring;

FIG. 24 is a schematic view of the fuselage and water tank in an exploded condition;

FIG. 25 is a sectional view of the assembled state of the body and the water tank;

fig. 26 is a schematic view of the upper cover.

The device comprises a machine body 100, a bottom shell 110, a lower fixing column 111, a supporting column 112, a main body 120, an upper fixing column 121, a concave position 122, an edge sealing plate 130 and a shaft seat 140; a water tank 200, a water outlet 210, a filter screen plate 211, a water outlet filter cover 212, a waterproof ring 213, a seal ring block 214, a water path unit installation position 220, an overflow port 221, a UV lamp port 222, a water injection port 223 and a side plate 201; an upper cover 300, a rotating shaft 310; a drain valve body 400, a drain pipe 410, an overflow pipe 411, a drain piston 420, a piston pump 430, a sealing sleeve 440, a spring 450, a water inlet 401 and an annular sealing groove 402; the electrolytic component 500, the first fixed grid plate 510, the tight-fitting structural column 511, the air hole 512, the male buckle 513, the second fixed grid plate 520, the tight-fitting structural hole 521, the female buckle 522, the insulating grid plate 530 and the electrode grid 540; vortex assembly 600, spray cover 610, projection 611, spray head 620, base 630, fixed chute 631, water pump 640, and blades 650; the water-electricity separation integrated module 700 comprises a multi-path water-electricity separation integrated module 700, a water injection cavity 710, an overflow channel 720, a lamp cavity 730, a UV lamp panel 731, a front cover plate 740, an overflow concave part 741, a water outlet shortage part 742, a light-transmitting glass sheet 750, a sealing ring 760, a reflecting cover 770, a light reflecting opening (771), a first area partition 701, a second area partition 702 and a third area partition 703; an ultrasonic generator 800; the cover web 900 is decorated.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

Referring to fig. 1, a cleaning machine includes a machine body 100, an upper cover 300, a drain valve body 400, an electrolysis assembly 500, a vortex assembly 600, and a multi-path water and electricity separation integrated module 700; the water tank 200 is arranged in the machine body 100, and the upper cover 300 is rotatably covered on the top opening of the water tank 200; be equipped with the water route unit installation position 220 that is used for installing multichannel water and electricity separation integrated module 700 on the water tank 200 lateral wall, multichannel water and electricity separation integrated module 700 is integrated to have the overflow drainage, intake, UV disinfection function, be equipped with mutually independent water injection cavity 710 in the multichannel water and electricity separation integrated module 700, overflow passageway 720, lamp cavity 730, wherein water injection cavity 710 passes through the pipeline and water pipe intercommunication, make the running water pass through in water injection cavity 710 gets into water tank 200, when the water level is too high, water gets into drainage valve body 400 through overflow passageway 720 and discharges, be equipped with UV lamp plate 731 in the lamp cavity 730, disinfect through UV lamp plate 731 in to water tank 200.

The electrolysis assembly 500 and the vortex assembly 600 are installed on the side wall of the water tank 200, the electrolysis device enables water in the water tank 200 to generate anions and cations, the water is made to be acidic and alkaline sequentially, the acidic pesticide and the alkaline pesticide are neutralized, the vortex assembly 600 and a spray cover 610 installed on the vortex assembly 600 are used for spraying water flow into the water tank 200, a spray head 620 is arranged on the spray cover 610, the included angle between the inner wall of a channel of the spray head 620 and the horizontal plane is A, the angle of the A is 70 degrees, the channel of the spray head 620 is inclined, the water flow is sprayed onto the inner wall of the water tank 200, the flow direction of the water flow is changed through the inner wall of the water tank 200, the water flow continuously surrounds to form a vortex, the anions and the cations are rapidly distributed in.

The water outlet 210 is arranged on the bottom plate of the water tank 200, the water outlet valve body 400 is arranged at the bottom of the water outlet 210, sundries such as vegetable leaves and the like are easily mixed in the washed waste water, so that the water outlet pipe 410 is easily blocked, the water outlet piston 420 is arranged in the water outlet valve body 400, the surface of the water outlet piston 420 is spherical, the water outlet piston 420 continuously reciprocates towards the water outlet pipe 410, the waste water is forcibly pushed into the water outlet pipe 410, meanwhile, the inner wall of the water outlet pipe is spherical, so that the water flow continuously impacts the sundries such as vegetable leaves and the like in the water outlet pipe 410, and the blockage of the water outlet pipe 410 caused.

In order to further improve the cleaning effect, the ultrasonic generator 800 is installed at the bottom of the water tank 200, and the ultrasonic generator 800 adopts a maximum of four.

Referring to fig. 5 to 14, a water overflow port 221 and a UV lamp socket 222 are formed on the waterway unit mounting position 220, a water filling port 223 is formed in the UV lamp socket 222 in a downward extending manner, and the UV lamp socket 222 is located below the water overflow port 221.

A lamp cavity 730 is arranged in the multi-path water-electricity separation integrated module 700, a first area partition plate 701 is arranged above the lamp cavity 730, a second area partition plate 702 and a third area partition plate 703 are arranged below the lamp cavity 730, and a water injection cavity 710 positioned below the lamp cavity 730 is enclosed by the second area partition plate 702 and the third area partition plate 703; the overflow channel 720 is enclosed by the first area partition 701 and the second area partition 702 in the inner cavity of the multi-path water and electricity separation integrated module 700, and the first overflow channel 720 has two embodiments according to different positions of the first area partition 701: