CN211130912U - Self-squeezing mop with self-cleaning function - Google Patents

Abstract

The utility model provides a self-squeezing mop with self-cleaning function, belonging to the technical field of mops. The mop comprises a mop body and a mop rod connected with the top of the mop body, wherein the bottom of the mop body is connected with a mop head, a water storage cavity is arranged in the mop body, the mop rod is connected with a plurality of connecting rods capable of reciprocating along a straight line, the end parts of the connecting rods penetrate through the water storage cavity, are connected with the top of the mop head, can pull the mop head to be matched with the bottom of the mop body for self-squeezing, and the connecting rods are arranged inside the water storage cavity and are provided with self-cleaning mechanisms. Connecting rod pulling mop head can be crowded dry with the mop head, and the connecting rod can drive self-cleaning mechanism simultaneously and utilize the water of water storage intracavity to clean the mop head, the utility model discloses can clean the mop head anytime and anywhere when using, need not to keep the clean of mop head with the help of outside water source, improve the efficiency and the reinforcing of mopping ground effect.

Description

Self-squeezing mop with self-cleaning function

Technical Field

The utility model belongs to the technical field of the mop, a self-squeezing dry mop with self-cleaning function is related to.

Background

In the prior art, the self-wringing mop can wring out a wet mop head conveniently and laborsavingly, but the self-wringing mop still needs to be cleaned firstly after being used, and when the self-wringing mop is far away from a water source during use, the time and labor are wasted when the mop is repeatedly cleaned.

In order to overcome the defects of the prior art, people continuously explore and provide various solutions, for example, a Chinese patent discloses a mop capable of being automatically squeezed, and the application number is as follows: (CN200520040554.0) comprising a handle, a planker and sponge cloth; the carriage comprises a plastic folding plate, the plastic folding plate comprises a middle supporting part, folding parts at two sides and a bending part between the supporting part and the folding parts, and springs are arranged on the folding parts at two sides; the handle is provided with a squeezing device, the squeezing device comprises a movable handle, a push rod and a connecting rod, the movable handle is sleeved on the handle and can move on the handle, the movable handle is connected with the connecting rod through the push rod, the connecting rod is of a frame-shaped bending structure, the other end of the connecting rod is fixed on the folding plate, and the other end of the connecting rod is pressed outside the supporting part of the folding plate. The mop head squeezing device has the advantage that the mop head can be squeezed conveniently, but the defect of inconvenient cleaning exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem, provide a self-squeezing dry mop with self-cleaning function.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a mop is done by squeezing certainly with self-cleaning function, includes mop main part and the mop pole that links to each other with mop main part top, even has the mop head bottom of mop main part, is equipped with the water storage chamber in the mop main part, the mop pole on even have a plurality of connecting rods that can follow straight reciprocating motion, the connecting rod tip passes the water storage chamber and links to each other with mop head top and can pull the mop head and carry out the self-wringing with mop main part bottom cooperation, the connecting rod be located water storage intracavity portion and be equipped with self-cleaning mechanism.

In the self-squeezing mop with the self-cleaning function, the self-cleaning mechanism comprises a plurality of drainage runners arranged in the mop main body, the bottom of the mop main body is also provided with a plurality of water outlet drainage runners, one end of each drainage runner is connected with the top of the water storage cavity, the other end of each drainage runner is connected with the water outlet, a pressure valve is further arranged at the end, connected with the water storage cavity, of each drainage runner, and the self-cleaning mechanism further comprises a drainage assembly used for enabling water pressure in the water storage cavity to enter the drainage runners.

In the self-cleaning mop, the drainage assembly comprises a plurality of isolation pipes which are arranged in the water storage cavity and correspond to the drainage flow channels one by one, the end parts of the connecting rods are inserted into the top parts of the isolation pipes and penetrate out of the bottoms of the isolation pipes, the connecting rods are movably connected with the isolation pipes, and the connecting rods are connected with pistons which are used for pressing water in the isolation pipes into the drainage flow channels.

In the self-squeezing mop with the self-cleaning function, the side wall of the piston is in close fit with the isolation pipe, the piston can reciprocate along the isolation pipe, the side wall of the isolation pipe is provided with a water inlet hole, when the mop head connected with the end part of the connecting rod is in a working state, the water inlet hole is positioned above the piston, and the isolation pipe is also internally provided with an isolation part for preventing water in the water storage cavity from flowing into the isolation pipe when the piston drains water.

In the above self-cleaning mop, the isolation member includes a slot at the top of the water inlet, the bottom of the water inlet is provided with an isolation plate slot, and the isolation plate slot is movably connected with an isolation plate which can move along the isolation plate slot to the slot and prevent the water in the water storage cavity from flowing into the isolation pipe.

In the self-cleaning mop, the isolation part further comprises a limit groove arranged on one side of the isolation plate groove close to the piston, one end of the isolation plate close to the piston is connected with a driving block which is in close fit with the piston and can reciprocate in the limit groove along a straight line, the bottom of the driving block is fixedly connected with a spring, and one end of the spring, far away from the driving block, is connected with the bottom of the limit groove.

In the self-drying mop with the self-cleaning function, the bottom of the mop main body is provided with the two support assemblies which are symmetrically arranged along the central line of the mop main body, each support assembly comprises a plurality of fixing supports which are arranged linearly, the water outlet hole is arranged on each fixing support, and a self-drying component for drying the mop head is arranged between the two support assemblies.

In the self-drying mop with self-cleaning function, the self-drying component comprises a drying groove arranged between two bracket components, the fixed bracket is movably connected with a plurality of rotating shafts, the end parts of the rotating shafts penetrate through the fixed brackets which are arranged in a straight line, and the rotating shafts are connected with a plurality of cleaning gears which are used for drying the mop head and cleaning the mop head.

In the self-cleaning mop, the end of the connecting rod, which is far away from the mop head, is movably connected with a wrench, the end part of the wrench is connected with the mop rod and can rotate around the connection part of the wrench and the mop rod, and a handle is arranged at the end of the wrench, which is far away from the connection part of the wrench and the mop rod.

In the self-cleaning mop, the sealing rings are arranged in the water storage cavity at the joint of the connecting rod and the isolating pipe, the decontamination grooves are uniformly distributed on the surface of the mop head, the top of the mop body is provided with an irrigation opening, and the irrigation opening is internally provided with a thread matched with the bottom of the mop rod.

Compared with the prior art, the utility model has the advantages of:

1. connecting rod pulling mop head can be crowded dry with the mop head, and the connecting rod can drive self-cleaning mechanism simultaneously and utilize the water of water storage intracavity to clean the mop head, the utility model discloses can clean the mop head anytime and anywhere when using, need not to keep the clean of mop head with the help of outside water source, improve the efficiency and the reinforcing of mopping ground effect.

2. The apopore sets up can be when the piston upwards moves the intraductal water of isolation towards the mop head on the fixed bolster, and a plurality of fixed bolster that is the straight line and arranges can fix self-wringing part, and self-wringing part can be when connecting rod pulling mop head upward movement with the water in the mop head the spot on mop head surface get rid of.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

fig. 2 is a left side view of the present invention;

FIG. 3 is a schematic view of the internal structure of the mop body;

fig. 4 is an enlarged schematic view at a in fig. 3.

In the figure, a mop main body 1, a mop rod 2, a mop head 3, a water storage cavity 4, a connecting rod 5, a self-cleaning mechanism 6, a drainage flow channel 7, a water outlet hole 8, a pressure valve 9, a drainage component 10, an isolation pipe 11, a piston 12, a water inlet hole 13, an isolation component 14, a clamping groove 15, an isolation plate groove 16, an isolation plate 17, a limiting groove 18, a spring 20, a driving block 19, a bracket component 21, a fixed bracket 22, a self-squeezing component 23, a squeezing groove 24, a rotating shaft 25, a cleaning gear 26, a wrench 27, a handle 28, a sealing ring 29, a decontamination groove 30 and a water filling port 31 are arranged.

Detailed Description

As shown in figures 1 and 3, the self-squeezing mop with the self-cleaning function comprises a mop main body 1 and a mop rod 2 connected with the top of the mop main body 1, wherein the bottom of the mop main body 1 is connected with a mop head 3, a water storage cavity 4 is arranged in the mop main body 1, the mop rod 2 is connected with a plurality of connecting rods 5 capable of reciprocating along a straight line, the end parts of the connecting rods 5 penetrate through the water storage cavity 4 and are connected with the top of the mop head 3, the mop head 3 can be pulled to be matched with the bottom of the mop main body 1 for self-squeezing, and the connecting rods 5 are arranged inside the water storage cavity 4 and are provided with self-cleaning mechanisms 6.

In this embodiment, linear reciprocating motion can be followed to connecting rod 5, and connecting rod 5 stimulates mop head 3 can be crowded dry with mop head 3, and connecting rod 5 can drive automatically cleaning mechanism 6 simultaneously and utilize the water in the water storage chamber 4 to clean mop head 3, the utility model discloses can clean mop head 3 anytime and anywhere when using, need not to keep mop head 3's clean with the help of outside water source, improve the efficiency and the reinforcing mopping effect of mopping.

It should be understood by those skilled in the art that the water in the water storage chamber 4 may be tap water, commercially available washing liquid, or the like, and preferably, a mixed liquid fully mixed with the commercially available washing liquid is selected in this embodiment.

The self-cleaning mechanism 6 comprises a plurality of drainage flow channels 7 arranged in the mop main body 1, the bottom of the mop main body 1 is further provided with a plurality of water outlets 8, one ends of the drainage flow channels 7 are connected with the top of the water storage cavity 4, the other ends of the drainage flow channels 7 are connected with the water outlets 8, one ends of the drainage flow channels 7, which are connected with the water storage cavity 4, are further provided with pressure valves 9, and the self-cleaning mechanism 6 further comprises a drainage assembly 10 for enabling water pressure in the water storage cavity 4 to enter the drainage flow channels 7.

In this embodiment, as shown in fig. 3, the drainage channel 7 communicates with the top of the water storage chamber 4 and the water outlet hole 8, the drainage assembly 10 can flush the mop head 3 by injecting water from the water outlet hole 8 into the drainage channel 7 under the action of the water pressure in the water storage chamber 4, and the pressure valve 9 can prevent the water in the water storage chamber 4 from flowing out from the water outlet hole when the drainage assembly 10 does not work.

It will be appreciated by those skilled in the art that the pressure valve may be a commercially available product such as the A27W-10T/16 spring loaded safety valve manufactured by Shanghai Lu valve, Inc.

The drainage component 10 comprises a plurality of isolation pipes 11 which are arranged in the water storage cavity 4 and correspond to the drainage flow channels 7 one by one, the end parts of the connecting rods 5 are inserted from the top parts of the isolation pipes 11 and penetrate out from the bottoms of the isolation pipes 11, the connecting rods 5 are movably connected with the isolation pipes 11, and the connecting rods 5 are connected with pistons 12 which are used for enabling water pressure in the isolation pipes 11 to flow into the drainage flow channels 7.

In this embodiment, as shown in fig. 3, the isolation tube 11 can be tightly fitted with the piston 12 and a drainage cavity is formed in the isolation tube 11, so that the piston 12 can press the water in the isolation tube 11 into the drainage channel 7 when moving upward.

The lateral wall of the piston 12 is closely fitted with the isolation pipe 11, the piston 12 can reciprocate along the isolation pipe 11, the lateral wall of the isolation pipe 11 is provided with a water inlet hole 13, when the mop head 3 connected with the end part of the connecting rod 5 is in a working state, the water inlet hole 13 is positioned above the piston 12, and the isolation pipe 11 is also internally provided with an isolation component 14 for preventing water in the water storage cavity 4 from flowing into the isolation pipe 11 when the piston drains water.

In this embodiment, as shown in fig. 3 and 4, when the mop head 3 connected to the end of the connecting rod 5 is in an operating state, the water inlet 13 is located above the piston 12 to enable water in the water storage cavity 4 to enter the isolation tube 11, when the piston 12 moves upward, the water in the isolation tube 11 can be discharged and used for flushing the mop head 3, and the isolation component 14 can prevent the water in the water storage cavity 4 from flowing into the isolation tube 11 when the piston 12 moves upward, so that the piston 12 cannot be reset due to the isolation tube 11.

The isolation component 14 comprises a clamping groove 15 arranged at the top of the water inlet hole 13, an isolation plate groove 16 is arranged at the bottom of the water inlet hole 13, and an isolation plate 17 which can move to the position inserted into the clamping groove 15 along the isolation plate groove 16 and is used for preventing water in the water storage cavity 4 from flowing into the isolation pipe 11 is movably connected in the isolation plate groove 16.

In this embodiment, as shown in fig. 3 and 4, the isolation plate 17 is movably connected to the isolation plate slot 16 and can move along the isolation plate slot 16 to the insertion slot 15, and the isolation plate 17 is inserted into the insertion slot 15 to block the water inlet 13, so as to prevent the water in the water storage cavity 4 from flowing into the isolation pipe 11 when the piston 12 moves upward.

The isolation component 14 further comprises a limiting groove 18 arranged on one side, close to the piston 12, of the isolation plate groove 16, a driving block 19 which is in close fit with the piston 12 and can do reciprocating motion in the limiting groove 18 along a straight line is connected to one end, close to the piston 12, of the isolation plate 17, a spring 20 is fixedly connected to the bottom of the driving block 19, and one end, far away from the driving block 19, of the spring 20 is connected to the bottom of the limiting groove 18.

In this embodiment, as shown in fig. 3 and 4, the driving block 19 can be engaged with the piston 12, the piston 12 can drive the driving block 19 to move downward, when the piston 12 is disengaged from the driving block 19, the spring 20 can drive the driving block 19 to move upward, and the driving block 19 can drive the isolating plate slot 16 to move into the inserting slot 15 by the upward movement.

The bottom of mop main part 1 is equipped with two bracket components 21, and two bracket components 21 set up along mop main part 1's central line symmetry, and bracket component 21 is including being a plurality of fixed bolster 22 that the straight line was arranged, apopore 8 set up at fixed bolster 22, be equipped with between two bracket components 21 and be used for the crowded dry part 23 of autoextruding with mop head 3.

In this embodiment, as shown in fig. 1 to 3, the water outlet 8 is disposed on the fixing bracket 22 and can flush the water in the isolation pipe 11 toward the mop head 3 when the piston 12 moves upward, the fixing brackets 22 arranged in a straight line can fix the self-drying component 23, and the self-drying component 23 can remove the water in the mop head 3 from the stains on the surface of the mop head 3 when the connecting rod 5 pulls the mop head 3 to move upward.

The self-drying component 23 comprises a drying groove 24 arranged between the two bracket components 21, a plurality of rotating shafts 25 are movably connected to the fixing brackets 22, the end parts of the rotating shafts 25 penetrate through the fixing brackets 22 which are linearly arranged, and a plurality of cleaning gears 26 which are used for drying the mop head 3 and cleaning the mop head 3 are connected to the rotating shafts 25.

In this embodiment, as shown in fig. 1 and fig. 2, the squeezing groove 24 can squeeze water from the mop head 3 pulled into the squeezing groove 24 by the connecting rod 5, the cleaning gear 26 can rotate along with the rotating shaft 25, and when the mop head 3 moves into the squeezing groove 24, the cleaning gear 26 can contact with the surface of the mop head 3 and remove stains on the surface of the mop head 3.

One end of the connecting rod 5, which is far away from the mop head 3, is movably connected with a wrench 27, the end part of the wrench 27 is connected with the mop rod 2 and can rotate around the connection part of the wrench 27 and the mop rod 2, and a handle 28 is arranged at one end of the wrench 27, which is far away from the connection part of the wrench 27 and the mop rod 2.

In this embodiment, as shown in fig. 1 and 2, the handle 27 can be rotated around the connection point of the handle 27 and the handle bar 2 by pulling the handle 28, and the connecting bar 5 is pulled to move upward.

Sealing rings 29 are arranged at the joints of the connecting rods 5 and the isolating pipes 11 in the water storage cavity 4, decontamination grooves 30 are uniformly distributed on the surface of the mop head 3, an irrigation opening 31 is arranged at the top of the mop body 1, and threads matched with the bottom of the mop rod 2 are arranged in the irrigation opening 31.

In this embodiment, as shown in fig. 2 and 3, the sealing ring 29 can prevent water in the water storage cavity 4 from overflowing, the dirt removing groove 30 can increase contact with the ground, increase the area of the surface of the mop head 3 for absorbing dirt, and improve the cleaning effect, the bottom of the mop rod 2 is connected with the irrigation opening 31 through the screw thread, water can be added into the water storage cavity 4 from the irrigation opening 31, and the bottom of the mop rod 2 is connected with the irrigation opening 31 through the screw thread, so that the connection stability between the mop rod 2 and the irrigation opening 31 can be improved, and water in the water storage cavity 4 can be prevented from leaking.

The working principle of the utility model is that cleaning water is added into the water storage cavity 4 from the irrigation opening 31, when the mop is used for mopping, after the surface of the mop head 3 becomes dirty, the handle 28 is pulled to enable the wrench 27 to rotate around the connection part of the wrench 27 and the mop rod 2, the connecting rod 5 is driven to move upwards, the connecting rod 5 drives the mop head 3 to move towards the squeezing groove 24, the mop head 3 moves towards the squeezing groove 24, the cleaning gear 26 can be in surface contact with the mop head 3 and can remove stains on the surface of the mop head 3, when the connecting rod 5 drives the mop head 3 to move, the connecting rod 5 drives the piston 12 to move upwards and can drive the water pressure in the isolating pipe 11 to enter the drainage flow passage 7, then the water is sprayed from the water outlet hole 8 to the mop head 3 through the drainage flow passage 7, the stains on the surface of the mop head 3 are washed, when the piston 12 moves upwards, the spring 20 can drive the driving block 19 to move upwards, the driving block 19 moves upwards to drive the isolation plate groove 16 to move into the insertion groove 15, water in the water storage cavity 4 is prevented from flowing into the isolation pipe 11, the handle 28 can be pulled repeatedly to clean the mop head 3, after the mop head is used up, the mop body 1 is separated from the mop rod 2, water in the water storage cavity 4 is poured out, and the handle 28 is pulled to squeeze the mop head 3.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the mop body 1, the mop rod 2, the mop head 3, the water storage cavity 4, the connecting rod 5, the self-cleaning mechanism 6, the drainage flow passage 7, the water outlet hole 8, the pressure valve 9, the drainage assembly 10, the isolation pipe 11, the piston 12, the water inlet hole 13, the isolation member 14, the clamping groove 15, the isolation plate groove 16, the isolation plate 17, the limiting groove 18, the spring 20, the driving block 19, the bracket assembly 21, the fixing bracket 22, the self-drying member 23, the wringing groove 24, the rotating shaft 25, the cleaning gear 26, the wrench 27, the handle 28, the sealing ring 29, the decontamination groove 30, the water filling port 31, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a mop of squeezing out water certainly with self-cleaning function, includes mop main part (1) and mop pole (2) that link to each other with mop main part (1) top, its characterized in that, even there is mop head (3) mop main part (1) bottom, is equipped with water storage chamber (4) in mop main part (1), mop pole (2) on even have a plurality of connecting rods (5) that can follow straight reciprocating motion, connecting rod (5) tip pass water storage chamber (4) and link to each other with mop head (3) top and can pull mop head (3) and mop main part (1) bottom cooperation and carry out the wringing out water certainly, connecting rod (5) be located water storage chamber (4) internal portion and be equipped with self-cleaning mechanism (6).

2. The self-squeezing mop with self-cleaning function according to claim 1, wherein the self-cleaning mechanism (6) comprises a plurality of drainage channels (7) arranged in the mop body (1), the bottom of the mop body (1) is further provided with a plurality of water outlet holes (8), one end of each drainage channel (7) is connected with the top of the water storage cavity (4), the other end of each drainage channel (7) is connected with the corresponding water outlet hole (8), one end of each drainage channel (7) connected with the corresponding water storage cavity (4) is further provided with a pressure valve (9), and the self-cleaning mechanism (6) further comprises a drainage assembly (10) for pressing water in the water storage cavity (4) into the corresponding drainage channel (7).

3. The self-wringing mop with the self-cleaning function according to claim 2, wherein the drainage assembly (10) comprises a plurality of isolation pipes (11) which are arranged in the water storage chamber (4) and correspond to the drainage flow channels (7) one by one, the end parts of the connecting rods (5) are inserted from the top parts of the isolation pipes (11) and penetrate out from the bottom parts of the isolation pipes (11), the connecting rods (5) are movably connected with the isolation pipes (11), and the connecting rods (5) are connected with pistons (12) which are used for pressing the water in the isolation pipes (11) into the drainage flow channels (7).

4. The self-squeezing mop with the self-cleaning function according to claim 3, wherein the side wall of the piston (12) is tightly fitted with the isolation tube (11) and the piston (12) can reciprocate along the isolation tube (11), the side wall of the isolation tube (11) is provided with a water inlet hole (13), when the mop head (3) connected with the end of the connecting rod (5) is in the working state, the water inlet hole (13) is positioned above the piston (12), and the isolation tube (11) is further provided with an isolation component (14) for preventing water in the water storage cavity (4) from flowing into the isolation tube (11) when the piston drains water.

5. The self-squeezing mop with self-cleaning function according to claim 4, wherein the partition member (14) comprises a clamping groove (15) formed at the top of the water inlet (13), a partition plate groove (16) is formed at the bottom of the water inlet (13), and a partition plate (17) which can move along the partition plate groove (16) to be inserted into the clamping groove (15) and is used for preventing the water in the water storage cavity (4) from flowing into the partition pipe (11) is movably connected in the partition plate groove (16).

6. The self-squeezing mop with the self-cleaning function according to claim 5, wherein the isolation member (14) further comprises a limiting groove (18) disposed at one side of the isolation plate groove (16) close to the piston (12), one end of the isolation plate (17) close to the piston (12) is connected with a driving block (19) which is in close fit with the piston (12) and can reciprocate in the limiting groove (18) along a straight line, a spring (20) is fixedly connected to the bottom of the driving block (19), and one end of the spring (20) far away from the driving block (19) is connected with the bottom of the limiting groove (18).

7. The self-cleaning mop according to claim 2, wherein the mop body (1) has two support assemblies (21) at the bottom, the two support assemblies (21) are symmetrically disposed along the center line of the mop body (1), the support assemblies (21) comprise a plurality of fixing brackets (22) arranged in a straight line, the water outlet (8) is disposed on the fixing brackets (22), and a self-drying component (23) for drying the mop head (3) is disposed between the two support assemblies (21).

8. The self-cleaning mop according to claim 7, wherein the self-drying member (23) comprises a drying groove (24) disposed between the two support members (21), the fixing support (22) is movably connected with a plurality of rotating shafts (25), the ends of the rotating shafts (25) penetrate through the plurality of fixing supports (22) arranged linearly, and the rotating shafts (25) are connected with a plurality of cleaning gears (26) for drying the mop head (3) and cleaning the mop head (3).

9. The self-cleaning mop according to claim 8, wherein a wrench (27) is movably connected to the end of the connecting rod (5) away from the mop head (3), the end of the wrench (27) is connected to the mop rod (2) and can rotate around the connection between the wrench (27) and the mop rod (2), and a handle (28) is disposed at the end of the wrench (27) away from the connection between the wrench (27) and the mop rod (2).

10. The self-squeezing mop with the self-cleaning function according to claim 3, wherein sealing rings (29) are arranged in the water storage cavity (4) at the joints of the connecting rods (5) and the isolating pipes (11), dirt removing grooves (30) are uniformly distributed on the surface of the mop head (3), an irrigation opening (31) is formed in the top of the mop body (1), and threads matched with the bottom of the mop rod (2) are arranged in the irrigation opening (31).

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