CN113974513A - Water-saving mop cleaning device - Google Patents

Abstract

The invention belongs to the technical field of mop cleaning, and relates to a water-saving mop cleaning device, which comprises: the cleaning cavity is used for the mop head to move up and down; the water storage cavity is filled with cleaning water; the wringing mechanism comprises a scraper arranged opposite to the wiping surface of the mop head; the mop head cleaning device comprises a water storage tank, a plurality of water spraying ports are formed in one side of the water storage tank, and water in the water storage tank is sprayed to a mop head cleaning surface through the water spraying ports; and the cleaning water in the water storage cavity is transferred into the water storage tank through the transfer mechanism. The water-saving mop cleaning device provided by the invention can greatly save the water consumption for cleaning the mop, and the cleaning water is more uniformly distributed on the mop head wiping materials.

Description

Water-saving mop cleaning device

Technical Field

The invention belongs to the technical field of mop cleaning, and relates to a water-saving mop cleaning device.

Background

To facilitate cleaning of the flat mop, chinese patent application 201711119340.6 discloses a squeeze flat mop cleaning implement. The mop comprises a mop barrel and a flat mop, wherein the flat mop comprises a mop rod and a hard flat mop head movably connected to the mop rod, and wiping materials are arranged on the flat mop head; the mop bucket is provided with an extrusion frame, an opening is formed in the extrusion frame, an extruder is arranged on the extrusion frame on one side of the opening, and an extrusion opening is formed between the extruder and the other side of the opening; the mop bucket comprises a squeezing area and a water containing area which are positioned at different positions, a squeezing frame is positioned above the squeezing area, and the squeezing frame or the squeezer is provided with a water channel for leading out water squeezed by the wiping materials; the squeezer is movably connected to the squeezing frame, and when the flat mop head is pressed down, the wiper drives the squeezer to move to a narrow position, so that the squeezing opening is smaller; when the flat mop head is pulled upwards, the wiping object drives the squeezer to move towards the direction far away from the narrow position, so that the squeezing opening is enlarged.

Above-mentioned patent is with mop bucket design pressing zone and flourishing water zone, and extrusion frame or squeezer have the waterway passageway of drawing forth the water that the wiper was extruded simultaneously, consequently when wasing and wringing the wiper on the dull and stereotyped mop head, washing operation and wringing operation can accomplish in same region promptly the pressing zone: when the mop is cleaned, water is contained in the squeezing area, then the water on the wiper is squeezed out and flows to the water containing area through the reciprocating motion of the flat mop, the wiper absorbs water after squeezing out the water, most of the water in the squeezing area can be transferred to the water containing area by repeating the processes, and the cleaning operation and the squeezing operation are also completed simultaneously in the process. When the cleaning water tank is used, dirty water on the wiper can flow back to the water containing area for saving water, so that the cleaning degree of subsequent cleaning is influenced, and the water in the water containing area needs to be replaced after repeated times, thereby causing water waste.

In order to further save water, chinese patent application 201810621367.3 discloses a flat mop cleaning tool comprising a mop and a mop bucket cooperating with the mop, the mop comprising a mop rod; a mop head; a wipe; the mop bucket comprises a bucket body; the water squeezing port is used for inserting the mop head; the water squeezing piece is used for squeezing the mop head after the mop head is inserted into the water squeezing port; the water squeezing cavity is arranged in the barrel, and the mop head can move up and down in the water squeezing cavity; and the water spraying device is used for driving water in the water squeezing cavity to be sprayed onto the wiping objects in the process that the mop moves from the high position to the low position.

Because the mop is in a vertical state when spraying water, the water sprayed on the mop can flow downwards, and in order to ensure that the cleaning water is uniformly distributed on the mop head wiping material, the spraying time of the upper end of the mop head wiping material is longer than that of the lower end. The water spray device in the above patent sprays equally on the mop head wipe in real time as the mop moves, inevitably resulting in uneven distribution of the cleaning water on the mop head wipe.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the water-saving mop cleaning device, which can greatly save the water consumption for cleaning the mop and ensure that the cleaning water is more uniformly distributed on the mop head wiping material.

In order to solve the above technical problems, the object of the present invention is achieved by the following technical solutions:

a water saving mop cleaning device, the device comprising:

the cleaning cavity is used for the mop head to move up and down;

the water storage cavity is filled with cleaning water;

the wringing mechanism comprises a scraper arranged opposite to the wiping surface of the mop head;

the mop head cleaning device comprises a water storage tank, a plurality of water spraying ports are formed in one side of the water storage tank, and water in the water storage tank is sprayed to a mop head cleaning surface through the water spraying ports;

and the cleaning water in the water storage cavity is transferred into the water storage tank through the transfer mechanism.

In the above water-saving mop cleaning device, the device comprises a mop bucket, a partition board is arranged in the mop bucket, the partition board divides an inner cavity of the mop bucket into a cleaning cavity and a water storage cavity, a mounting seat is arranged on the mop bucket, and the water squeezing mechanism and the water storage tank are both arranged on the mounting seat.

In the above water-saving mop cleaning device, the mounting seat is provided with a mop opening for the mop head to enter and exit, the water squeezing mechanism and the water storage tank are arranged on one side of the mop opening and distributed up and down, and the side of the mop opening opposite to the water squeezing mechanism and the water storage tank is provided with the roller in contact connection with the mop head. The rollers are installed on the installation base through roller shafts, the number of the rollers is preferably a pair, and when the mop head moves up and down, the rollers roll.

In the above water-saving mop cleaning device, the water squeezing mechanism comprises a rectangular frame with openings at two sides, a scraper in contact connection with the wiping surface of the mop head is arranged on the upper side of the rectangular frame, a water guide cover is arranged above the rectangular frame, a plurality of water guide holes are formed in the water guide cover, a water guide groove for guiding water into the cleaning cavity is formed in the lower side of the water squeezing mechanism, the rectangular frame and the water guide holes are communicated with the water guide groove, and a drain plug is arranged at the bottom of the cleaning cavity. The wringing mechanism can also use other structures, such as those used in the background art, but the technical effect is inferior to the above structure.

The scraper can use a plurality of scraping teeth which are in contact connection with the wiping surface of the mop head, and preferably, the scraping teeth are perpendicular to the wiping surface of the mop head; the scraper can also be a scraper which is in contact connection with the wiping surface of the mop head, preferably, the scraper is perpendicular to the wiping surface of the mop head, and more preferably, the scraper is made of flexible materials. Different scrapers can be directed to different mop head wipes, the scraping teeth are directed to fibrous structured mop head wipes, and the scraper is directed to collodion structured mop head wipes.

In the above water-saving mop cleaning device, one side of the water storage tank close to the mop head cleaning surface is provided with a plurality of water spraying teeth, water spraying openings are formed among the water spraying teeth, and the bottom of the water storage tank is provided with a plane inclined towards the water spraying teeth. Preferably, the water spraying teeth are vertically arranged.

In the above water-saving mop cleaning device, the structure of the transfer mechanism is as follows: the mop is characterized in that a sliding groove is formed in the partition plate, a sliding plate which can move up and down is slidably arranged on the sliding groove, a driving plate matched with the lower end of the mop head is arranged on one side of the sliding plate, a piston structure is arranged on the other side of the sliding plate, a piston cavity communicated with the water storage cavity in a one-way mode is arranged in the water storage cavity, the piston structure is assembled in the piston cavity in a sliding mode up and down, and a water guide pipe and a water storage groove are arranged at the bottom of the piston cavity in a communicated mode. The transfer mechanism may be any other mechanism for introducing the washing water into the water storage tank, such as a micro-pump, but the transfer mechanism has a technical effect inferior to that of the above-described transfer mechanism. Preferably, the water guide pipe is connected to the higher side of the bottom of the water storage tank.

In foretell water conservation mop belt cleaning device, be provided with first check valve between piston chamber and the water storage chamber, be provided with the second check valve between piston chamber and the aqueduct, the washing water is through first check valve by the one-way circulation of water storage chamber to piston chamber, is through the one-way circulation of second check valve by piston chamber to aqueduct.

In the above water-saving mop cleaning device, a return spring is arranged between the piston structure and the bottom of the piston cavity or between the driving plate and the bottom of the cleaning cavity, and the return spring is compressed when the mop head moves downwards.

In the above water-saving mop cleaning device, the cleaning cavity is internally provided with a guide plate adapted to the mop head, the top end of the guide plate is provided with an overflow port facing the cleaning cavity, and preferably, the guide plate and the partition plate are connected into a whole; and the top end of the piston cavity is provided with an overflow port facing the water storage cavity. The top end of the guide plate can be set to be in an inclined state through the overflow port, and a plurality of overflow holes can be formed in the upper end of the guide plate. The piston cavity overflow is similar in structure to the overflow of the guide plate.

In the above water-saving mop cleaning device, the piston structure comprises a piston plate or a piston column.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention improves the spraying device of the existing mop cleaning device, and is provided with a water storage tank, and cleaning water is temporarily stored in the water storage tank and then is poured when the device is used, so that a structure for delaying pouring is formed. In the process that the mop head moves downwards, the pouring time of the upper end of the mop head wiping material is longer than that of the lower end of the mop head wiping material, and after the mop head stops moving, pouring can still be carried out for a period of time, so that the cleaning water is more uniformly distributed on the mop head wiping material.

2. The mop head cleaning device has a good water-saving effect, wipes on the mop head are wetted by a pouring mode, and then the wiping is squeezed by the scraper, so that the mop can be cleaned by only 200-400 ml of cleaning water. Meanwhile, the water storage and the cleaning are separated, and the cleaning water in the water storage cavity is always clean, so that the cleaning cleanliness is improved to a certain extent.

3. The invention provides a simple and efficient transfer mechanism, which takes the downward movement of a mop head as a driving force and synchronously drives the transfer of cleaning water through only one sliding plate, and has the advantages of simple structure, low cost and convenient use.

Drawings

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

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a partial cross-sectional view of the present invention;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is a perspective view of the mop bucket of the present invention;

FIG. 6 is a perspective view of the wringing mechanism of the present invention;

FIG. 7 is a perspective view of a portion of the mounting base of the present invention;

FIG. 8 is a perspective view of the skateboard of the present invention;

reference numerals: 1. a cleaning chamber; 2. a water storage cavity; 3. a scraper; 4. a water storage tank; 5. a mop bucket; 6. a partition plate; 7. a mounting seat; 8. a roller; 9. a rectangular frame; 10. a water guide cover; 11. a water guide hole; 12. a water chute; 13. a drain plug; 14. water spraying teeth; 15. a slide plate; 16. a drive plate; 17. a piston structure; 18. a piston cavity; 19. a water conduit; 20. a first check valve; 21. a second one-way valve; 22. a return spring; 23. a guide plate.

Detailed Description

The invention is further described in the following with specific embodiments in conjunction with the accompanying drawings, see fig. 1-8:

the utility model provides a water conservation mop belt cleaning device, the device includes mop bucket 5, be provided with baffle 6 in the mop bucket 5, baffle 6 cuts apart into two independent cavitys with mop bucket 5 inner chamber: supply the mop head to reciprocate wash chamber 1 and water storage chamber 2 that the splendid attire was equipped with the washing water, be provided with mount pad 7 on the mop bucket 5, be provided with crowded water mechanism and aqua storage tank 4 on the mount pad 7, crowded water mechanism includes cleans the scraper 3 that the face set up relatively with the mop head, one side of aqua storage tank 4 is provided with a plurality of mouths of drenching, and the water in the aqua storage tank 4 drenches to the mop head via drenching the mouth of a river and cleans the face, still is provided with the transfer mechanism in the mop bucket 5, the washing water in the water storage chamber 2 via the transfer mechanism shifts to in the aqua storage tank 4.

Referring to fig. 3, a mop opening for the mop head to enter and exit is formed in the mounting base 7, the water squeezing mechanism and the water storage tank 4 are arranged on one side of the mop opening and distributed up and down, and when the mop head moves at the mop opening, the water squeezing mechanism and the water storage tank 4 simultaneously act on the mop head wiping materials; the opposite side of the mop mouth, the water squeezing mechanism and the water storage tank 4 is provided with the roller 8 in contact connection with the mop head, the roller 8 is installed on the installation seat 7 through a roller shaft, the number of the roller 8 is preferably a pair, when the mop head moves up and down, the roller 8 rolls, and the roller 8 can reduce friction, so that the mop head can move up and down more smoothly.

Referring to fig. 3 and fig. 6, the wringing mechanism comprises a rectangular frame 9 with openings at two sides, a scraper 3 in contact connection with the wiping surface of the mop head is arranged at the upper side of the rectangular frame 9, when the mop head moves upwards, the scraper 3 acts on the wiping surface of the mop head to squeeze out water in the wiping material, a water guide cover 10 is arranged above the rectangular frame 9, a plurality of water guide holes 11 are arranged on the water guide cover 10, a water chute 12 for guiding water into the cleaning cavity 1 is arranged below the water squeezing mechanism, the rectangular frame 9 and the water guide hole 11 are communicated with the water chute 12, when in use, part of the water extruded by the water extruding mechanism directly flows into the cleaning cavity 1, part of the water flows into the water chute 12 through the rectangular frame 9, part of the water flows into the water chute 12 through the water guide hole 11 on the water guide cover 10, the water squeezing structure can enable all sewage to flow into the cleaning cavity 1, and the sewage is prevented from overflowing or flowing into the water storage cavity 2; the bottom of the cleaning cavity 1 is provided with a drain plug 13, and sewage in the cleaning cavity 1 can be discharged after the drain plug 13 is opened.

Furthermore, the scraper 3 can use a plurality of scraping teeth in contact connection with the wiping surface of the mop head, and preferably, the scraping teeth are arranged perpendicular to the wiping surface of the mop head; the scraper 3 can also be a scraper which is in contact connection with the wiping surface of the mop head, preferably, the scraper is arranged perpendicular to the wiping surface of the mop head, and more preferably, the scraper is made of flexible materials. Different scrapers 3 can be directed to different mop head wipes, the scraping teeth are directed to fibrous structured mop head wipes and the scraper is directed to collodion structured mop head wipes.

Referring to fig. 7, a plurality of water spraying teeth 14 are arranged on one side of the water storage tank 4 close to the mop head wiping surface, water spraying openings are formed among the water spraying teeth 14, and a plane inclined towards the water spraying teeth 14 is arranged at the bottom of the water storage tank 4. Preferably, the water spraying teeth 14 are vertically arranged.

Referring to fig. 3, 4 and 8, the structure of the transfer mechanism is as follows: be provided with the spout on the baffle 6, slide on the spout and be equipped with the slide 15 that reciprocates, slide 15 in the drawing is strides the structure of establishing the inverted U-shaped on baffle 6, and both sides form and spout complex recess, one side of slide 15 be provided with mop head lower extreme complex drive plate 16, the opposite side is provided with piston structure 17, be provided with in the water storage chamber 2 with the piston chamber 18 of 2 one-way intercommunications in water storage chamber, piston structure 17 slides the assembly from top to bottom in piston chamber 18, piston chamber 18 bottom is provided with aqueduct 19 and aqua storage tank 4 intercommunication, and during the use, the mop head pushes down, and drive plate 16 moves along with it, and drive plate 16 drives slide 15 and piston structure 17 downstream, and piston structure 17 extrudes piston chamber 18 makes the water in the piston chamber 18 get into aqua storage tank 4 by aqueduct 19. Preferably, the water guide pipe 19 is connected to a side of the water storage tank 4 at a lower portion.

Further, be provided with first check valve 20 between piston chamber 18 and the water storage chamber 2, be provided with second check valve 21 between piston chamber 18 and the aqueduct 19, wash water is through first check valve 20 by the one-way circulation of water storage chamber 2 to piston chamber 18, through second check valve 21 by piston chamber 18 to the one-way circulation of aqueduct 19, be provided with reset spring 22 between piston structure 17 and the piston chamber 18 bottom or between drive plate 16 and the washing chamber 1 bottom, compress reset spring 22 when the mop head moves down, preferably, reset spring 22 installs on the spring holder. When the mop head is pressed down, the first one-way valve 20 is closed, the second one-way valve 21 is opened, water in the piston cavity 18 enters the water storage tank 4 through the water guide pipe 19, and meanwhile, the return spring 22 is compressed; when the mop head moves upwards, the return spring 22 drives the sliding plate 15 to move upwards, the first one-way valve 20 is opened, the second one-way valve 21 is closed, and water in the water storage cavity 2 enters the piston cavity 18 to replenish cleaning water for the piston cavity 18.

Referring to fig. 5, a guide plate 23 adapted to the mop head is arranged in the cleaning chamber 1, and an overflow opening facing the cleaning chamber 1 is arranged at the top end of the guide plate 23, preferably, the guide plate 23 is integrally connected with the partition plate 6, and the overflow opening prevents the mop head from taking out water when moving upwards; the top end of the piston cavity 18 is provided with an overflow opening facing the direction of the water storage cavity 2, the piston structure 17 and the piston cavity 18 can be sealed or unsealed, when the piston structure is unsealed, a small amount of cleaning water enters the upper portion of the piston structure 17, and the overflow opening can prevent the residual water from overflowing. The top end of the guide plate 23 may be inclined, or a plurality of overflow holes may be formed at the upper end of the guide plate 23. The structure of the overflow of the piston chamber 18 is similar to that of the guide plate 23.

The piston structure 17 comprises a piston plate or a piston post, which is easier to manufacture and which has a higher structural strength.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. A water saving mop cleaning device, the device comprising:

the cleaning cavity (1) is used for the mop head to move up and down;

the water storage cavity (2), the water storage cavity (2) is filled with cleaning water;

the wringing mechanism comprises a scraper (3) which is arranged opposite to the wiping surface of the mop head;

characterized in that the device further comprises:

the mop head cleaning device comprises a water storage tank (4), wherein a plurality of water spraying ports are formed in one side of the water storage tank (4), and water in the water storage tank (4) is sprayed to a mop head cleaning surface through the water spraying ports;

a transfer mechanism, through which the cleaning water in the water storage cavity (2) is transferred into the water storage tank (4).

2. The water-saving mop cleaning device according to claim 1, characterized in that the device comprises a mop barrel (5), a partition plate (6) is arranged in the mop barrel (5), the partition plate (6) divides an inner cavity of the mop barrel (5) into a cleaning cavity (1) and a water storage cavity (2), a mounting seat (7) is arranged on the mop barrel (5), and the water squeezing mechanism and the water storage tank (4) are both arranged on the mounting seat (7).

3. The water-saving mop cleaning device according to claim 2, wherein a mop opening for the mop head to enter and exit is arranged on the mounting seat (7), the water squeezing mechanism and the water storage tank (4) are arranged on one side of the mop opening and distributed up and down, and a roller (8) in contact connection with the mop head is arranged on one side of the mop opening opposite to the water squeezing mechanism and the water storage tank (4).

4. The water-saving mop cleaning device according to claim 1, wherein the water squeezing mechanism comprises a rectangular frame (9) with openings at two sides, a scraper (3) in contact with the wiping surface of the mop head is arranged on the upper side of the rectangular frame (9), a water guide cover (10) is arranged above the rectangular frame (9), a plurality of water guide holes (11) are formed in the water guide cover (10), a water guide groove (12) for guiding water into the cleaning cavity (1) is formed below the water squeezing mechanism, the rectangular frame (9) and the water guide holes (11) are communicated with the water guide groove (12), and a drain plug (13) is arranged at the bottom of the cleaning cavity (1).

5. The water-saving mop cleaning device according to claim 1, characterized in that a plurality of water spraying teeth (14) are arranged on one side of the water storage tank (4) close to the mop head wiping surface, water spraying openings are formed among the water spraying teeth (14), and a plane inclined towards the water spraying teeth (14) is arranged at the bottom of the water storage tank (4).

6. The water saving mop cleaning device according to claim 2, wherein the transfer mechanism is configured to: be provided with the spout on baffle (6), slide on the spout and be equipped with slide (15) that reciprocate, one side of slide (15) be provided with mop head lower extreme complex drive plate (16), the opposite side is provided with piston structure (17), be provided with in water storage chamber (2) with piston chamber (18) of water storage chamber (2) one-way intercommunication, piston structure (17) slide the assembly from top to bottom in piston chamber (18), piston chamber (18) bottom is provided with aqueduct (19) and aqua storage tank (4) intercommunication.

7. The water-saving mop cleaning device according to claim 6, wherein a first one-way valve (20) is arranged between the piston cavity (18) and the water storage cavity (2), a second one-way valve (21) is arranged between the piston cavity (18) and the water guide pipe (19), and the cleaning water flows from the water storage cavity (2) to the piston cavity (18) in one-way through the first one-way valve (20) and flows from the piston cavity (18) to the water guide pipe (19) in one-way through the second one-way valve (21).

8. A water saving mop cleaning device according to claim 6 characterized in that a return spring (22) is provided between the piston structure (17) and the bottom of the piston chamber (18) or between the drive plate (16) and the bottom of the cleaning chamber (1).

9. The water-saving mop cleaning device according to claim 6, characterized in that a guide plate (23) matched with the mop head is arranged in the cleaning cavity (1), and the top end of the guide plate (23) is provided with an overflow port facing the cleaning cavity (1); the top end of the piston cavity (18) is provided with an overflow port facing the water storage cavity (2).

10. A water saving mop cleaning device according to claim 6 characterized in that the piston structure (17) comprises a piston plate or a piston post.

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