CN214712447U - Water squeezing device and mop cleaning barrel - Google Patents

Abstract

The utility model is suitable for a burnisher technical field provides a water squeezing device for carry out crowded water to the mop, water squeezing device includes: the mounting piece is detachably connected in the mop bucket; two wringing pieces, two the wringing piece set up relatively in on the installed part, and form the extrusion space between the two, at least one wringing piece with installed part swing joint, so that wringing piece atress can be for the installed part activity is close to another simultaneously wringing piece, two wringing piece is common to wringing mop in the extrusion space. The water squeezing device is detachably connected to the mop bucket, and is flexible and convenient to use. The utility model discloses provide a mop cleaning barrel simultaneously.

Description

Water squeezing device and mop cleaning barrel

Technical Field

The application belongs to the technical field of cleaning tools, and particularly relates to a water squeezing device and a mop cleaning barrel.

Background

Mops are common cleaning tools used in daily life and are usually squeezed after being washed.

Some existing mop cleaning buckets include a bucket body and two squeeze rollers provided in the bucket body, squeeze to dry water by pushing a wiping member of a mop between the two squeeze rollers, however, the squeeze rollers must be installed in the bucket body, and are poor in flexibility and inconvenient to clean the bucket body below the squeeze rollers.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water squeezing device and a mop cleaning barrel, which solve the technical problems of poor flexibility of a squeezing roller and inconvenient cleaning of a barrel body in the prior art.

The embodiment of the utility model provides a crowded water installation, crowded water installation includes: the mounting piece is detachably connected in the mop bucket; two wringing pieces, two the wringing piece set up relatively in on the installed part, and form the extrusion space between the two, at least one wringing piece with installed part swing joint, so that wringing piece atress can be for the installed part activity is close to another simultaneously wringing piece, two wringing piece is common to wringing mop in the extrusion space.

In one embodiment, each of the wringing members comprises a pressing part and a supporting part connected to the pressing part, the pressing parts of the two wringing members are oppositely arranged on the mounting part, and the pressing space is formed between the two wringing members; the supporting parts of the two water squeezing pieces are arranged at the bottom of the squeezing space, and the corresponding squeezing parts can be driven by the supporting parts to be close to the other water squeezing piece together under the stress.

In one embodiment, the supporting parts of each water squeezing piece are arranged at intervals, and the supporting parts of the two water squeezing pieces are mutually crossed.

In one embodiment, two adjacent supporting parts form a movable gap between the two supporting parts through two opposite side surfaces, and the movable gap of one supporting part of the water squeezing piece is matched with the movable gap of the other supporting part of the water squeezing piece.

In one embodiment, the pressing portion is smoothly and transitionally connected with the supporting portion.

In one embodiment, the pressing part has a guide part at one end thereof for guiding the mop into the pressing space.

In one embodiment, the pressing portion and the supporting portion are both plate-shaped, the pressing portion is vertically arranged, and the supporting portion is horizontally arranged.

In one embodiment, the mounting member includes a body and two guide members oppositely disposed on the body, and a distance between the two guide members gradually decreases along a depth direction of the extrusion space;

the two water squeezing pieces are in one-to-one corresponding sliding connection with the two guide pieces.

In one embodiment, the guide part is a guide diagonal rod, and the inclination directions of two oppositely arranged guide diagonal rods are opposite;

one end of the water squeezing piece is provided with a sleeving part which is sleeved on the corresponding guide inclined rod in a sliding manner.

In one embodiment, the water squeezing device further comprises an elastic member, the elastic member is sleeved on the guide member, one end of the elastic member is fixed, the other end of the elastic member abuts against the water squeezing member, the elastic member is compressed during water squeezing, and the elastic member recovers elastic deformation after water squeezing to drive the water squeezing member to reset.

In an embodiment, the wringing device further comprises a limiting plate, the limiting plate is located on one side of the wringing piece away from the inlet of the extrusion space, and the limiting plate is used for limiting the moving distance of the wringing piece.

The embodiment of the utility model provides a clean bucket of mop is proposed simultaneously, include:

a barrel body, and

the wringing device of any preceding embodiment, wherein the wringing device is disposed in the bucket body, and the mounting member is detachably connected to the bucket body.

In one embodiment, a partition plate is arranged in the barrel body and divides the barrel body into a water squeezing area and a cleaning area, the water squeezing device is arranged in the water squeezing area, and the cleaning area is communicated with the bottom of the water squeezing area, so that water can flow between the water squeezing area and the cleaning area.

In one embodiment, a cleaning area and a water squeezing area are arranged in the barrel body, an opening of the cleaning area is obliquely arranged, and the edge of the opening far away from the water squeezing area is lower than the edge of the opening close to the water squeezing area.

When the water squeezing device is used, the mop can be arranged in the squeezing space between the two water squeezing pieces, at least one water squeezing piece is stressed to move relative to the mounting piece and is close to the other water squeezing piece, and therefore the two water squeezing pieces squeeze water of the mop in the squeezing space together. Therefore, the wringing device can wring the mop, and is simple to operate and convenient to use; in addition, the mounting piece of the water squeezing device is detachably connected into the mop bucket, and the water squeezing device can be mounted in the mop bucket through the mounting piece, so that the mop bucket can contain water squeezed by the two water squeezing pieces; and the installed part can be conveniently dismantled from the mop bucket, and on the one hand, the wringing device can be used independently, and on the other hand, after the wringing device is dismantled from the mop bucket, the mop bucket is convenient for wash. Compare the clean bucket of mop among the prior art, the wringing device of this application can independent utility or install and use in the mop bucket, uses in a flexible way, convenient. The mop cleaning barrel can squeeze water and clean a mop, is convenient to clean and high in practicability.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic perspective view of a wringing device according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of the wringing device and mop shown in FIG. 1;

FIG. 3 is a perspective view of a mop bucket according to an embodiment of the present invention;

FIG. 4 is a perspective view of the mop cleaning bucket of FIG. 3 with the partition removed.

The designations in the figures mean:

1. a mop cleaning bucket; 100. a water squeezing device; 10. a mounting member; 11. a body; 12. a guide member; 20. a water squeezing piece; 21. a pressing section; 22. a support portion; 23. a guide portion; 24. a housing portion; 30. an elastic member; 40. a limiting plate; 200. a barrel body; 210. a partition plate; 220. a water squeezing zone; 230. a cleaning zone; 2. a mop; 3. a wiper member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention will be further described in detail with reference to the accompanying drawings, which are examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, is not to be considered as limiting.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

To explain the technical solution of the present invention, the following description is made with reference to the specific drawings and examples.

The application provides a water squeezing device and a mop cleaning barrel with the water squeezing device, which are used for squeezing water from a mop.

Referring to fig. 1, the wringing device 100 includes a mounting member 10 and two wringers 20. The mounting member 10 is adapted to be removably attached to the interior of a mop bucket so that the wringing device 100 can be removably mounted to the interior of the mop bucket by the mounting member 10.

Two water squeezing pieces 20 are oppositely arranged on the mounting piece 10, a squeezing space P is formed between the two water squeezing pieces, at least one water squeezing piece 20 is movably connected with the mounting piece 10, so that the water squeezing piece 20 can move relative to the mounting piece 10 under stress and is close to the other water squeezing piece 20, and the two water squeezing pieces 20 squeeze the water of the mop in the squeezing space P together.

Referring to fig. 1 and 2, in use, when the mop 2 is placed in the squeezing space P between the two squeezing members 20, at least one of the squeezing members 20 is forced to move relative to the mounting member 10 and simultaneously approaches the other squeezing member 20, so that the two squeezing members 20 squeeze the mop 2 in the squeezing space P together. Therefore, the water squeezing device 100 can squeeze water from the mop 2, and is simple to operate and convenient to use; moreover, since the mounting member 10 of the water squeezing device 100 is detachably connected to the inside of the mop bucket, the water squeezing device 100 can be mounted in the mop bucket through the mounting member 10, so that the mop bucket can contain water squeezed by the two water squeezing members 20; and, the mounting member 10 can be conveniently detached from the mop bucket, on one hand, the wringing device 100 can be used independently, and on the other hand, after the wringing device 100 is detached from the mop bucket, the mop bucket is convenient to clean. Compared with a mop 2 cleaning barrel in the prior art, the water squeezing device 100 can be independently used or mounted in the mop barrel for use, and is flexible and convenient to use.

Wherein, the two water squeezing pieces 20 can be movably connected with the mounting piece 10, and at the moment, the two water squeezing pieces 20 can be close to each other after being stressed; or, one of the wringing members 20 is movably connected with the mounting member 10, and the other wringing member 20 is fixedly connected with the fixing member, so that the wringing member 20 movably connected with the mounting member 10 is close to the other wringing member 20, and effective wringing can still be performed.

It is understood that the mounting member 10 may be configured in a plate shape, a frame shape, etc., and the present application is not limited thereto.

In one embodiment, each of the wringers 20 includes a pressing portion 21 and a supporting portion 22 connected to the pressing portion 21, the pressing portions 21 of the two wringers 20 are oppositely disposed on the mounting member 10, and a pressing space P is formed therebetween; the supporting portions 22 of the two wringing members 20 are disposed at the bottom of the squeezing space P, and the supporting portions 22 are forced to drive the corresponding squeezing portions 21 to approach the other wringing member 20.

Because the supporting parts 22 of the two wringing members 20 are arranged at the bottom of the squeezing space P, the supporting parts 22 of the two wringing members 20 can support the mop 2 together during wringing, so that the mop 2 is prevented from being squeezed under the squeezing part 21, and the wiping member 3 of the mop 2 is prevented from being torn. Therefore, the water squeezing device 100 has a simple structure, can squeeze water from the mop 2, can prevent the wiping piece 3 of the mop 2 from being torn, is convenient to use, and prolongs the service life of the mop 2.

In one embodiment, the supporting portion 22 of each of the water squeezing members 20 is provided in plurality and spaced apart, and the supporting portions 22 of the two water squeezing members 20 cross each other. In this manner, when one of the wringing members 20 moves closer to the other wringing member 20, the support portions 22 of the two wringing members 20 can simultaneously approach each other, so that the width of the bottom of the pressing space P becomes smaller to facilitate wringing of the mop 2.

Alternatively, two adjacent supporting parts 22 form a movable gap therebetween through opposite side surfaces thereof, and the movable gap of the supporting part 22 of one wringing member 20 is matched with that of the supporting part 22 on the other wringing member 20. At this time, the supporting portions 22 of the two wringing members 20 are similar to fingers, the movable gap in the supporting portion 22 of one wringing member 20 can play a role in avoiding the supporting portion 22 of the other wringing member 20, the opposite side surfaces of the two supporting portions 22 of one wringing member 20 can also play a role in guiding the supporting portion 22 of the other wringing member 20 between the two side surfaces, at this time, the gap between the two side surfaces and the supporting portion 22 between the two side surfaces is small, the supporting area of the plurality of supporting portions 22 on the wiping member 3 of the mop 2 is larger, and the supporting effect is better.

In one embodiment, the pressing portion 21 and the supporting portion 22 are smoothly connected to each other to adapt to the shape of the wiping member 3 of the mop 2, so as to prevent the wiping member 3 from being torn due to the formation of corners during the pressing process.

In one embodiment, the pressing part 21 has a guide part 23 at one end thereof, and the guide part 23 is used to guide the mop 2 into the pressing space P. Thus, the mop 2 can smoothly enter the pressing space P along the guide 23, wherein the guide 23 may be a slant surface or an arc surface.

In one embodiment, the pressing portion 21 and the supporting portion 22 are both plate-shaped, the pressing portion 21 is vertically disposed, and the supporting portion 22 is horizontally disposed. Thus, the pressing part 21 is located at the side of the pressing space P and the supporting part 22 is located at the bottom of the pressing space P, and it can be understood that the pressing part 21 may extend along the lengthwise direction of the wiper 3 of the mop 2. The squeezing space P can receive the entire wiper 3 of the mop 2 for squeezing water.

It is understood that the supporting portion 22 and the pressing portion 21 may have a predetermined angle therebetween, such as an obtuse angle, an acute angle or a right angle, but not limited thereto. The supporting portion 22 and the pressing portion 21 are integrally formed, and may also be fixedly connected by a connecting member, which is not limited herein.

In one embodiment, the mounting member 10 includes a body 11 and two guides 12 oppositely disposed on the body 11, and a distance between the two guides 12 is gradually decreased along a depth direction of the pressing space P; the two wringers 20 are slidably connected with the two guide members 12 in a one-to-one correspondence.

Since the two wringing members 20 are slidably connected with the two guide members 12 in a one-to-one correspondence, when the mop 2 enters the squeezing space P, the two wringing members 20 can be moved together and brought close to each other to further improve the wringing efficiency.

As shown in fig. 1 and 2, in the present embodiment, the guide 12 is a guide diagonal rod, and the two oppositely disposed guide diagonal rods have opposite inclination directions; one end of the water squeezing piece 20 is provided with a sleeve part 24, and the sleeve part 24 is slidably sleeved on the corresponding guide inclined rod. The wringing members 20 are slidably connected to the corresponding guide diagonal rods through the sleeving parts 24, so that the guide diagonal rods can guide the movement of the wringing members 20, and the movement of the wringing members 20 is stable.

It is to be understood that the structure of the guide 12 is not limited thereto. For example, in another embodiment, the guide member 12 is a guide chute, and the two oppositely disposed guide chutes are inclined in opposite directions, and one end of the wringer member 20 is slidably connected to the guide chute.

In one embodiment, the wringing device 100 further includes an elastic member 30, the elastic member 30 is sleeved on the guide member 12, one end of the elastic member 30 is fixed, the other end of the elastic member abuts against the wringing member 20, the elastic member 30 is compressed during wringing, and the elastic member 30 recovers elastic deformation after wringing to drive the wringing member 20 to reset. The elastic element 30 can accumulate elastic potential energy during squeezing water, and after the mop 2 moves out of the squeezing space, the elastic element 30 can recover elastic deformation to drive the squeezing element 20 to reset. The elastic member 30 may be a spring, but is not limited thereto.

In one embodiment, the wringing device 100 further comprises a limiting plate 40, the limiting plate 40 is located on the side of the wringing member 20 away from the entrance of the squeezing space P, and the limiting plate 40 is used for limiting the moving distance of the wringing member 20, so as to prevent the mop 2 from descending too much and contacting the sewage below the limiting plate 40. Optionally, the limiting plate 40 is fixedly disposed on the guiding diagonal rod, and two ends of the elastic member 30 respectively abut against the limiting plate 40 and the wringing member 20.

Referring to fig. 1 to 4, the present application also provides a mop cleaning bucket 1, which includes a water squeezing device 100 and a bucket body 200, wherein the water squeezing device 100 is disposed in the bucket body 200, and a mounting member 10 is detachably connected to the bucket body 200. Therefore, the tub 200 can be installed with the wringing device 100 and can receive water squeezed by the wringing device 100.

In one embodiment, a partition 210 is disposed in the tub 200, the partition 210 divides the tub 200 into a wringing area 220 and a rinsing area 230, the wringing device 100 is disposed in the wringing area 220, and the rinsing area 230 communicates with the bottom of the wringing area 220, so that water can flow between the wringing area 220 and the rinsing area 230.

The barrel body 200 is provided with a cleaning area 230 and a water squeezing area 220, an opening of the cleaning area 230 is obliquely arranged, and the edge of the opening far away from the water squeezing area 220 is lower than the edge of the opening close to the water squeezing area 220. Specifically, the opening of the cleaning region 230 extends from the top end of the partition 210 toward the side far away from the squeezing region 220, and the edge of the opening far away from the squeezing region 220 is close to the bottom of the barrel 200. Therefore, the mop 2 can enter the cleaning area 230 for cleaning more conveniently from the obliquely arranged opening, and is placed in the water squeezing area 220 for squeezing water after cleaning, so that the mop has two purposes and is convenient to use. It is understood that the openings may also be circular, square, or other shapes, without limitation.

The mop cleaning bucket 1 can be used to wring the wiper 3 of a mop 2, as follows:

as shown in fig. 2, in the initial state, the two wringers 20 together form a nip space P. The wiping piece 3 of the mop 2 is placed into the squeezing space P, the wiping piece 3 pushes the water squeezing pieces 20 to move along the guide pieces, the two water squeezing pieces 20 are close to each other, and the distance between the two squeezing parts 21 is gradually reduced; at the same time, the elastic member 30 is compressed.

As shown in fig. 1, the two supporting portions 22 abut against the limiting plate 40, and the supporting portions 22 arranged in a crossed manner support the wiper 3; the two extrusion parts 21 respectively extrude the two sides of the wiping piece 3 in the length direction, the shape of the wiping piece 3 is integrally reduced during water extrusion, and the problem that the wiping piece 3 is torn due to extrusion is avoided; water squeezed out of the wipe 3 falls into the squeeze area 220.

After squeezing, the mop 2 is moved upward to drive the squeezing member 20 to move along the guide member 12 toward the upper portion of the tub 200, and at the same time, the elastic member 30 recovers elastic deformation and drives the squeezing member 20 to return by elastic restoring force.

In the present embodiment, the wringing device 100 is connected to the barrel 200 through the mounting member 10, and it is understood that in other embodiments, the wringing device 100 can be disposed outside the barrel 200, or separately installed for use, and need not be disposed inside the barrel 200.

The mop cleaning bucket 1 and the water squeezing device 100 squeeze the wiping piece 3 of the mop 2 through the squeezing parts 21 of the two water squeezing pieces 20 to realize the water squeezing function; meanwhile, the bottom of the wiper 3 is supported by the support portions 22 of the two wringers 20 together, so that the wiper 3 can be prevented from being squeezed under the squeezing portions 21, and the wiper 3 can be prevented from being torn. Therefore, the mop 2 cleaning barrel and the water squeezing device thereof have the advantages of simple structure, low cost and convenient use, are not easy to damage the wiping piece 3 of the mop 2, and prolong the service life of the wiping piece 3 and the mop 2.

The mop cleaning barrel 1 and the water squeezing device 100 can squeeze water and clean the mop 2, are convenient to use and have strong practicability. The wringing device 100 is detachably connected to the bucket body 200 through the mounting part 10, so that the wringing device 100 can be independently used, and is flexible and convenient; and, after the wringing device 100 is detached from the tub 200, the tub 200 can be conveniently cleaned.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (14)

1. A water squeezing device is used for squeezing water from a mop and is characterized in that: the wringing device comprises:

the mounting piece is detachably connected in the mop bucket;

two wringing pieces, two the wringing piece set up relatively in on the installed part, and form the extrusion space between the two, at least one wringing piece with installed part swing joint, so that wringing piece atress can be for the installed part activity is close to another simultaneously wringing piece, two wringing piece is common to wringing mop in the extrusion space.

2. The wringing device of claim 1, wherein each wringing member comprises a pressing portion and a support portion connected to the pressing portion, the pressing portions of the two wringing members being oppositely disposed on the mounting member with the pressing space formed therebetween; the supporting parts of the two water squeezing pieces are arranged at the bottom of the squeezing space, and the corresponding squeezing parts can be driven by the supporting parts to be close to the other water squeezing piece together under the stress.

3. The wringing device of claim 2, wherein the support portion of each wringing member is provided in plurality and spaced apart, and the support portions of two wringing members intersect with each other.

4. The wringing device of claim 3, wherein adjacent two of the support portions form a clearance gap therebetween through opposite side surfaces thereof, and the support portion of one wringing member matches the clearance gap of the support portion of the other wringing member.

5. The wringing device of claim 2, wherein the pressing portion is smoothly transitionally connected with the support portion.

6. The wringing device of claim 2, wherein the squeezing portion has a guide portion at one end thereof for guiding a mop into the squeezing space.

7. The wringing device of claim 2, wherein the pressing portion and the support portion are each plate-shaped, the pressing portion is disposed vertically, and the support portion is disposed horizontally.

8. The wringing device of claim 2, wherein the mounting member comprises a body and two guide members oppositely provided on the body, and a distance between the two guide members is gradually reduced along a depth direction of the squeezing space;

the two water squeezing pieces are in one-to-one corresponding sliding connection with the two guide pieces.

9. The wringing device of claim 8, wherein the guide member is a guide diagonal bar, and the two oppositely disposed guide diagonal bars are inclined in opposite directions;

one end of the water squeezing piece is provided with a sleeving part which is sleeved on the corresponding guide inclined rod in a sliding manner.

10. The wringing device of claim 8, further comprising an elastic member, wherein the elastic member is sleeved on the guide member, and has one end fixed and the other end abutting against the wringing member, wherein the elastic member is compressed during wringing, and the elastic member returns to elastic deformation after wringing to drive the wringing member to return.

11. The wringing device of claim 8, further comprising a limiting plate located on a side of the wringer away from the entrance of the extrusion space, the limiting plate limiting the travel distance of the wringer.

12. A mop cleaning bucket, comprising:

a barrel body, and

the wringing device of any one of claims 1-11, which is provided in the bucket, and the mount is removably attached to the bucket.

13. A mop cleaning bucket as defined in claim 12, including a partition in said bucket body, said partition dividing said bucket body into a wringing zone and a cleaning zone, said wringing device being disposed in said wringing zone, said cleaning zone being in communication with the bottom of said wringing zone so that water can flow between said wringing zone and said cleaning zone.

14. A mop cleaning bucket as defined in claim 12, wherein said bucket body has a cleaning region and a wringing region, the opening of said cleaning region being angled such that the edge of said opening remote from said wringing region is lower than the edge of said opening adjacent to said wringing region.

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