CN210749072U - Quantitative water using mechanism for mop cleaning - Google Patents

Abstract

A mechanism for abluent ration water use of mop, characterized by, retaining container includes big container and small container, the small container is equipped with the delivery port, looks pipe joint between big container and the small container, big container liquid level is higher than the small container liquid level, break-make between big container and the small container and the break-make of delivery port are interlocking control.

Description

Quantitative water using mechanism for mop cleaning

Technical Field

The utility model relates to a quantitative water mechanism for mop cleaning belongs to cleaning products technical field.

Background

The flat mop comprises a publication number CN107115077A, a flat mop and a mop bucket, wherein a flat mop plate is movably connected below a mop rod of the flat mop, a mop cloth is arranged on the flat mop plate, the mop bucket is provided with a water squeezing cavity and a cleaning cavity which are mutually separated, a water squeezing device is arranged on the water squeezing cavity, and a cleaning device is arranged in the cleaning cavity; when squeezing water, the flat mop plate rotates to a position parallel to the mop rod and is mutually positioned, and the flat mop plate moves up and down relative to the squeezing device to squeeze the mop for squeezing water; the cleaning device is provided with a cleaning component for cleaning the mop cloth, when cleaning, at least part of the cleaning component is positioned in water, the flat mop plate rotates to a position parallel to the mop rod and is positioned mutually, the mop cloth and the cleaning component rub mutually in water to clean the mop cloth, and the mop cloth of the flat mop plate is cleaned in the water of the cleaning cavity. According to the technical scheme, the whole cleaning process of the mop needs transposition, the problem that water drips outwards when the position is changed is generated, and the key for solving the transposition problem lies in the control of the water.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the above-mentioned not enough that exists among the prior art to a structural design is reasonable, can realize wasing the abluent ration water mechanism of mop that is used for of ration water.

The utility model provides a technical scheme that above-mentioned problem adopted is: a quantitative water mechanism for mop washing, including big container and little container, the little container is equipped with the delivery port, looks pipe joint between big container and the little container, big container liquid level is higher than the little container liquid level, the break-make between big container and the little container and the break-make of delivery port are interlocking control.

Furthermore, the interlocking control comprises a water valve, an on-off valve connected between the large container and the small container in a pipe joint mode, and a linkage device for connecting the on-off valve and the water valve.

Furthermore, the interlocking control comprises a water valve, the water valve comprises a valve shell, a valve core, an elastic part and a control handle, the control handle is connected with the valve core, the valve shell comprises a water inlet hole, a water outlet hole and a water inlet and outlet hole, the valve core is arranged in the valve shell, and the elastic part applies force to the valve core or the control handle and enables the valve core to tend to block the communication position of the water inlet hole and the water outlet hole; the water inlet and outlet hole pipe is connected with the water outlet of the small container, and the water inlet hole pipe is connected with the large container; the water valve can be opened by touching the control handle, and when the water valve is opened, the valve core blocks the communication between the water inlet hole and the water inlet and outlet holes.

Furthermore, the interlocking control comprises a valve core and an elastic element, wherein the elastic element applies force to the valve core and enables the valve core to tend to block the position of the water outlet of the small container, the valve core is triggered by overcoming the resistance of the elastic element, the water outlet of the small container is opened, and the large container and the small container are blocked.

Compared with the prior art, the utility model, have following advantage and effect: the utility model discloses can realize wasing the ration water at every turn, can realize the using water wisely, utilize this ration water structure, can realize simultaneously that the washing and the dehydration to the mop can be realized to same action same position condition.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is a schematic structural diagram of an embodiment in which clean water automatically flows out from a water outlet according to this embodiment.

Fig. 3 is a schematic structural diagram of a quantitative water mechanism for mop cleaning according to the present embodiment.

Fig. 4 is a partially enlarged schematic view of a portion a shown in fig. 3.

Fig. 5 is a schematic structural diagram of another embodiment of quantitative clean water control according to the present embodiment.

Fig. 6 is a schematic structural diagram of water output by the air pump in the embodiment.

Fig. 7 is a schematic structural view of the interference mechanism according to this embodiment.

Fig. 8 is a schematic structural diagram of one embodiment of the water pump according to the embodiment.

Fig. 9 is a schematic structural diagram of another embodiment of the interlock control according to the present embodiment.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Examples

As shown in fig. 1, the device for cleaning a mop with running water according to this embodiment includes a water outlet 1, and clean water flows out of the water outlet 1; the source of clean water comprises tap water or a water storage container 6 and a cleaning device, wherein the cleaning device comprises a smoothing opening 2 for the entry and exit of a mop, and a wiper 3 capable of pressing a mop 4 of the mop when the mop is positioned at the smoothing opening 2 is arranged on the side of the smoothing opening 2; preferably, the specific embodiment is that a plastic piece is injected and molded, the plastic piece is provided with a smoothing opening 2 for the mop to go in and out, a wiper 3 is arranged on the running track of the mop when the mop is cleaned, and the wiper 3 wipes off stains and water liquid on the mop cloth 4.

When the mop is cleaned, the water flowing out of the water outlet 1 flows to the mop cloth 4 or the cleaning device; the water absorbed by the mop 4 and scraped by the wiper 3 flows into the water collecting container 5 from the sewage inlet of the water collecting container 5, so that the sewage is collected. Compared with the prior art, the technical scheme omits a cleaning area for soaking and cleaning. The structure is more compact and reasonable, and the material utilization is more environment-friendly.

Preferably, the cleaning device is mounted on the support frame or is detachably mounted on the water collecting container 5 in the prior art, and when the cleaning device is mounted on the support frame, the water collecting container 5 and the support frame can be made into a separable combined structure, which can facilitate the toppling of the water collecting container 5.

To enhance the flexibility of the invention in use. The embodiment also comprises a water storage container 6, clean water can be stored in the water storage container 6, the water outlet 1 is arranged on the water storage container 6, and the liquid level of the water storage container 6 is higher than that of the water outlet 1. The clean water can naturally flow out, thereby cleaning the mop. A water valve 7 can be added for controlling the water flow of the water outlet 1, and the water valve 7 is connected with the water outlet 1 through a pipe. The control of the water flow is realized by manually operating the switch of the control water valve 7. When the mop is cleaned, the water valve 7 is opened, and clean water flows out; after cleaning, the water valve 7 is closed, and the water valve 7 in the embodiment comprises a ball valve, a press-controlled water valve and other similar existing water valves.

The scheme that clean water flows out from the water outlet 1 is as follows: this embodiment still includes retaining container 6 and water pump, delivery port 1 sets up at retaining container 6, the water pump is through delivery port 1 water intaking. Clean water is output by driving the water pump and is drained to the mop 4.

As shown in fig. 2, the scheme for automatically flowing clean water out of the water outlet 1 is based on the use characteristics of the mop during cleaning; the water valve 7 comprises a valve housing 71, a valve core 72, an elastic member 73 and a control handle 74, wherein the valve housing 71 comprises a water inlet 711 and a water outlet 713, the valve core 72 is arranged in the valve housing 71, the elastic member 73 applies force to the valve core 72, and the valve core 72 tends to block the position where the water inlet 711 and the water outlet 713 are communicated; the control handle 74 is connected with the valve core 72; when the mop is positioned at the opening 2, the control handle 74 is triggered, and the water valve 7 is opened. When the mop enters the opening 2, the mop can touch the control handle 74, so that the water valve 7 is opened, and when the mop is far away from the opening 2, the control handle 74 is reset under the action of the elastic force, and the water valve 7 is closed again. The technical scheme solves the problem of inconvenience of manual operation.

As shown in fig. 3 and 4, the quantitative water using mechanism for mop cleaning of the present embodiment includes a water storage container 6, the water storage container 6 includes a large container 61 and a small container 62, the water outlet 1 is disposed in the small container 62, the large container 61 and the small container 62 are connected by a pipe, and the on-off between the large container 61 and the small container 62 and the on-off of the water outlet 1 are controlled in an interlocking manner. The interlocking control means that the large container 61 and the small container 62 are communicated with each other normally, and the water outlet 1 of the small container 62 is closed; when the water outlet 1 of the small container 62 is opened, the large container 61 and the small container 62 are blocked. When the integrated interlocking control mechanism is applied to the invention, when a large amount of water is filled into the large container 61 in a normal state, the liquid level of the large container 61 is higher than that of the small container 62, the small container 62 is filled with the water, and the water outlet 1 of the small container 62 is closed; when the mop is cleaned, the water outlet 1 of the small container 62 is opened, the large container 61 and the small container 62 are blocked, so that the water in the small container 62 is finally flowing, and after the clean water in the small container 62 flows, the mop can be dewatered by continuing the original mop cleaning action. The technical scheme can save water, and more importantly, the mop can be cleaned and dewatered at the same position in the same action.

One of the preferred embodiments of interlock control. The interlock control includes an on-off valve piped between the large container 61 and the small container 62, and a linkage connecting the on-off valve and the water valve 7. When the water valve 7 is touched to change the original state, the water valve 7 drives the on-off valve through the linkage rod to switch the state of the on-off valve. Another embodiment of the linkage device is an electrical interlock, the on-off valve and the water valve 7 are electromagnetic valves with a subordinate concept, and an electrical interlock scheme is adopted between the two electromagnetic valves.

Another preferred embodiment of the interlock control. The water valve 7 comprises a valve housing 71, a valve core 72, an elastic member 73 and a control handle 74, wherein the valve housing 71 comprises a water inlet 711 and a water outlet 713, the water inlet 711 is connected with the large container 61 through a pipe, the valve core 72 is arranged in the valve housing 71, the elastic member 73 applies force to the valve core 72, and the valve core 72 tends to block the position where the water inlet 711 and the water outlet 713 are communicated; the control handle 74 is connected with the valve core 72; when the mop is positioned at the opening 2, the control handle 74 is touched, the water valve 7 is opened, the valve casing 71 is also provided with a water inlet/outlet hole 712, the water inlet/outlet hole 712 is connected with the water outlet 1 of the small container 62 through a pipe, and when the water valve 7 is opened, the valve core 72 blocks the communication between the water inlet hole 711 and the water inlet/outlet hole 712.

Yet another preferred embodiment of the interlock control is shown in fig. 9. The interlock control described in this embodiment includes a valve core 72 'and an elastic member 73', the elastic member 'applies force to the valve core and makes the valve core 72' tend to block the position of the water outlet 1 of the small container 62, but the large container 61 and the small container 62 are communicated with each other, and applies external force to the valve core 72 ', the valve core 72' overcomes the resistance of the elastic member 73 'to release the closure of the water outlet 1 of the small container 62, the water outlet 1 of the small container 62 is opened, but the large container 61 and the small container 62 are blocked by the valve core 72'.

In this embodiment, the wiper 3 is the scraping strip, the scraping strip is the slope, the slant of scraping strip is close to mop 4 department and is the high level, keeps away from mop 4 department and is the low level. The scraped sewage is smooth along the downward slope of the scraping strip due to the action of gravity, and the drainage is smooth.

The scraping strip according to this embodiment guides the water scraped from the mop 4 towards the water collecting container 5. The low level of scraping strip can link up the sewage entry, realizes the effective collection of sewage.

The water pump of this embodiment includes a drive body that is positioned to be activated when the mop is moved through the opening 2. The mop gives driving force to the water pump by utilizing the characteristic of the cleaning state of the mop. The water pump is an impeller type water pump, a piston type water pump, a squeezing type water pump or other water pumps disclosed in the prior art.

As shown in fig. 7, the mop moves down to require mop cloth 4 to be close to wiper 3, and mop cloth 4 moves up to be loose from wiper 3. This embodiment the opposite of wiper 3 is equipped with the conflict mechanism of the mop board of conflicting mop, conflict mechanism includes a goods of furniture for display rather than for use 31, and goods of furniture for display rather than for use 31 is equipped with a rotation point of rotating the installation, and goods of furniture for display rather than for use 31 rotates with combing out 2 and be connected, and when the mop board got into with fingers out 2, the mop board is contradicted to goods of furniture for display rather than for use 31 one end. When the mop moves downwards, the swing part 31 pushes the mop cloth 4 to one side of the wiper 3, and when the mop moves upwards, the swing part 31 rotates reversely along with the friction force, so that the mop cloth 4 is loosened.

In this embodiment, a roller 32 is rotatably mounted on one end of the swing member 31. The roller 32 realizes rolling friction, reducing resistance.

This embodiment also includes a resilient member 33 which tends to urge the swing member 31 towards a position where it is pressed against the mop plate. The elastic member 33 enhances the wiping force of the mop 4 and the wiper 3.

As shown in fig. 5, another way of quantitative control of water consumption for single cleaning is that the water storage container 6 is movably arranged relative to the cleaning device, the water storage container 6 is supported by the thrust member 9, the water valve 7 is connected with the water outlet 1 of the water storage container 6 by a pipe, the water valve 7 comprises a valve housing 71, a valve core 72, an elastic member 73 and a control handle 74, the valve housing 71 comprises a water inlet 711 and a water outlet 713, the valve core 72 is arranged in the valve housing 71, the elastic member 73 applies force to the valve core 72, and the valve core 72 tends to block the position where the water inlet 711 and the water outlet 713 are communicated; the control handle 74 is connected with the valve core 72, and the water valve 7 can be opened by touching the control handle 74; the lever 74 extends to the reservoir 6 and the lever 74 abuts the reservoir 6 to limit movement of the reservoir 6. Preferably, the pushing member 9 in this embodiment is a linear spring, the lower end of the linear spring is disposed on the cleaning device or the water collecting container 5, the linear spring is connected to the water storing container 6, when the water storing container 6 is at the heaviest position when full of water, the linear spring is compressed, the water storing container 6 is at the lowest position, the liquid level of the water storing container 6 is slightly higher than the water outlet 1, when the mop enters the cleaning opening 2 for cleaning, the water valve 7 is opened, the water storing container 6 drains water, and the water storing container 6 is tightly pressed by the control handle 74, so that the drained water is only the water at the part of the water storing container 6 with the liquid level higher than the water outlet.

To enhance the effect of collision limit. The outer side wall of the water storage container 6 is provided with a concave-convex surface, and the concave-convex surface corresponds to the control handle 74. The concave-convex surface includes a tooth surface, a wave surface, a concave-convex surface and the like.

As shown in fig. 6, another embodiment of the clean water flowing out from the water outlet 1 is that the present embodiment further includes a water storage container 6 and an air pump 8, the water outlet 1 is disposed in the water storage container 6, the water storage container 6 is further provided with an air inlet, the water outlet 1 is covered by water, the water outlet 1 is higher than the liquid level, and the air pump 8 is connected to the air inlet. The air pump 8 pressurizes the water storage container 6, and clean water is discharged from the water outlet 1.

In the embodiment, the air pump 8 is arranged below the smoothing opening 2, and the air pump 8 can be touched when the mop enters the smoothing opening 2.

In this embodiment, the water outlet 1 is a part from which clean water flows, and is not limited to a certain water outlet 1 on the water storage container 6.

The mop is mainly washed by the front washing and the rear squeezing, so that the operation of a user is more definite, the washing and squeezing of the mop are divided into two areas, two cleaning devices are arranged in the embodiment and are respectively arranged, and the water outlet corresponds to any cleaning device. When washing, the cleaning device corresponding to the water outlet is used, and when squeezing water, the other cleaning device is used.

As shown in fig. 8, in this embodiment, one of the water pumps is preferably configured to include a pump housing B1, a piston B2, an elastic body B3, a power rod B4, and two check valves B5, where the pump housing B1 is provided with a water inlet portion and a water outlet portion, the two check valves B5 are respectively disposed in the water inlet portion and the water outlet portion, the piston B2 is disposed in the pump housing B1, the elastic body B3 applies elastic force to the piston B2 or the power rod B4, specifically, the elastic body B3 is a compression spring, the power rod B4 is connected to the piston B2, and when water is pumped, the piston B2 moves against the elastic force of the elastic body B3, the check valve B5 in the water inlet portion is opened, and the check valve B5 in the water. The pump case B1 has large capacity, the power rod B4 can pump more water once, and then the piston B2 is driven by the pressure spring to extrude clean water, which can clean the mop.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (4)

1. A quantitative water using mechanism for mop cleaning comprises a large container and a small container and is characterized in that the small container is provided with a water outlet, the large container and the small container are connected through a pipe, the liquid level of the large container is higher than that of the small container, and the on-off between the large container and the small container and the on-off of the water outlet are controlled in an interlocking mode.

2. The water dosing mechanism for mop cleaning of claim 1 wherein said interlock control comprises a water valve, an on-off valve plumbed between the large container and the small container, and a linkage connecting the on-off valve and the water valve.

3. The quantitative water mechanism for mop cleaning according to claim 1, wherein the interlocking control comprises a water valve, the water valve comprises a valve housing, a valve core, an elastic member and a control handle, the control handle is connected with the valve core, the valve housing comprises a water inlet hole, a water outlet hole, a water inlet and outlet hole, the water inlet and outlet hole is connected with the water outlet of the small container, the water inlet hole is connected with the large container, the valve core is arranged in the valve housing, the elastic member applies force to the valve core or the control handle and enables the valve core to tend to block the position where the water inlet hole is communicated with the water outlet hole; the water valve can be opened by touching the control handle, and when the water valve is opened, the valve core blocks the communication between the water inlet hole and the water inlet and outlet holes.

4. The quantitative water mechanism for mop cleaning as claimed in claim 1, wherein said interlocking control comprises a valve core and an elastic member, said elastic member applies force to the valve core and makes the valve core tend to block the position of the small container water outlet, the valve core is triggered to overcome the resistance of the elastic member, the small container water outlet is opened, and the large container and the small container are blocked.

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