CN211559979U

CN211559979U - Floating squeezing water squeezing device, self-squeezing foam mop and mop cleaning tool

Info

Publication number: CN211559979U
Application number: CN201921266568.2U
Authority: CN
Inventors: 不公告发明人
Original assignee: Ningbo Deruntang Intelligent Technology Co Ltd
Current assignee: Ningbo Deruntang Intelligent Technology Co Ltd
Priority date: 2019-08-06
Filing date: 2019-08-06
Publication date: 2020-09-25
Anticipated expiration: 2029-08-06

Abstract

The utility model provides an extruded crowded water installation floats, includes crowded water frame, crowded water frame has the mouth of wearing that supplies the mop head to pass, wear to be equipped with in the mouth and be used for carrying out extruded extrusion structure, its characterized in that to the overhead foaming cotton of mop: the squeezing structure comprises swing frames arranged at left and right intervals, the middle parts of the swing frames are hinged in the through holes and can swing, squeezing components are mounted on the swing frames, a squeezing channel is formed between the swing frames, when water is squeezed, the swing frames are triggered to swing when the mop head passes through the squeezing channel, and the squeezing components squeeze the left and right sides of foaming cotton along with the swing of the swing frames. The utility model relates to a crowded water installation of extrusion that floats can make the mop head more smooth pass and wear the mouth.

Description

Floating squeezing water squeezing device, self-squeezing foam mop and mop cleaning tool

Technical Field

The utility model relates to a burnisher field especially relates to an extruded foam mop of squeezing from crowded water that floats, and wherein, the foam can be collodion head, sponge head or analog.

Background

The collodion mops on the market at present have the same structure and comprise a mop rod, a mop head and a water squeezing device. The water squeezing device in the collodion mop is a transmission structure and comprises a pull handle, a pull rod, a caliper seat (water squeezing frame), a collodion clamp and a water squeezing rod. The clamp seat is approximately U-shaped, the collodion head is clamped by the collodion clamp which is fixed at the bottom end of the pull rod, the top end of the pull rod is movably pinned with the middle part of the handle, the rear end of the handle is pinned on the mop rod, the water squeezing rod is oblate, and two ends of the water squeezing rod are pinned at the lower end of the clamp seat. When the wringing operation is performed, the pulling handle is pulled to drive the collodion head to move up horizontally through the pulling rod, the collodion head passes through the wringing rods of the wringing frame, and the wringing rods have elasticity which keeps the clamping trend, so that the collodion head passing through the wringing rods can be clamped by the wringing rods to realize wringing.

The squeezing device is arranged on the collodion mop by the collodion mop, so that the mop is heavier, the mop head needs to be arranged in the water tank for cleaning during cleaning, and then the mop head is squeezed by the squeezing device arranged on the mop rod, so that the mop needs to be cleaned by a specific water tank. Due to the particularity of the structure of the wringing frame, the collodion head and the mop rod are fixedly connected, and the collodion head cannot be completely separated from the wringing frame, namely, the collodion head cannot rotate relative to the mop rod, so that the mop is inconvenient to mop in a specific place such as a corner when being used for mopping, and the adaptability of mopping is poor. When the collodion mop is stored, the length direction of the collodion head is perpendicular to the axial direction of the mop rod, so that the space for storing the collodion mop is large, the collodion mop is inconvenient to store, the packing box of the existing collodion mop is large in size, the collodion mop placed in the same space is small, and the transportation cost is increased.

Through inspection, the Chinese utility model patent with patent number ZL201720107065.5 (publication number CN 206979452U) 'self-squeezing foam cotton head mop' comprises a mop rod and a mop head, and is characterized in that: the mop head is movably connected to the lower end of the mop rod, the mop rod is provided with a water squeezing frame capable of sliding along the mop rod, the water squeezing frame is provided with a penetrating opening for the mop head to penetrate through, squeezing components used for squeezing the left side and the right side of the mop head are arranged in the penetrating opening, the mop head can rotate to the length direction of the mop head to be basically parallel to the mop rod and aligned with the penetrating opening, when water is squeezed, the water squeezing frame slides along the length direction of the mop head and squeezes the left side and the right side of the mop head to squeeze water, and when the mop head is mopped, the mop head is completely separated from the water squeezing frame. The foam cotton mop can realize the self-wringing function, has good mopping adaptability and is convenient to store. However, the squeezing channel in the through hole is fixed, and the foam cotton is thicker than the traditional mop cloth due to the special material, so that the mop head is difficult to smoothly pass through the through hole during squeezing.

SUMMERY OF THE UTILITY MODEL

The first technical problem to be solved by the present invention is to provide a floating and squeezing device for the above technical situation, which can make the mop head smoothly pass through the through hole.

The second technical problem to be solved by the present invention is to provide a self-squeezing foam mop with the floating squeezing device in view of the above technical situation.

The third technical problem to be solved by the present invention is to provide a mop cleaning tool with the floating squeezing device in view of the above technical situation.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: the utility model provides an extruded crowded water installation floats, includes crowded water frame, crowded water frame has the mouth of wearing that supplies the mop head to pass, wear to be equipped with in the mouth and be used for carrying out extruded extrusion structure, its characterized in that to the overhead foaming cotton of mop: the squeezing structure comprises swing frames arranged at left and right intervals, the middle parts of the swing frames are hinged in the through holes and can swing, squeezing components are mounted on the swing frames, a squeezing channel is formed between the swing frames, when water is squeezed, the swing frames are triggered to swing when the mop head passes through the squeezing channel, and the squeezing components squeeze the left and right sides of foaming cotton along with the swing of the swing frames.

When the mop head moves up and down in the through hole, the water content of the foamed cotton in the length direction is different along with the water squeezing process, so that the upper end and the lower end of the squeezing component are subjected to different reaction forces of the mop head, the swing frame swings adaptively, the size of the squeezing channel changes adaptively, and the mop head can smoothly pass through the through hole. The extrusion channel is a channel which actually generates extrusion effect on the mop head in the penetrating port.

Further, when the head of the mop head enters or leaves the through hole upwards, the head of the mop head is contacted with the lower end of the extrusion component, and according to the lever principle, the extrusion component is driven by the counterforce of the mop head to drive the swing frame to rotate around the hinge shaft, so that the extrusion channel is a channel with a large lower part and a small upper part, and the head of the mop head can enter or leave the through hole more easily; when the tail of the mop head leaves upwards or enters the through hole downwards, the tail of the mop head is contacted with the upper end of the extrusion component, the extrusion component drives the swing frame to rotate around the hinge shaft under the action of the counterforce of the mop head, the extrusion channel is a channel with a small lower part and a large upper part, and the tail of the mop head leaves or enters the through hole more easily. When the mop head is rotated to the length direction of the mop head to be basically parallel to the mop rod, the head part of the mop head refers to the end which firstly enters the penetrating opening, and the tail part of the mop head refers to the end which finally enters the penetrating opening.

In a further design, the pressing parts comprise a first pressing part and a second pressing part which are respectively arranged at the upper end and the lower end of the swing frame. The extrusion component can also be an extrusion plate, a plurality of parallel extrusion strips or water squeezing rollers or extrusion blocks are arranged on the extrusion plate side by side, and the change of the positions of the upper end and the lower end of the extrusion component can be caused by the swinging of the swing frame.

In order to enable the squeezing component to squeeze the mop head more conveniently, the swing frame is arc-shaped, and the upper end and the lower end of the swing frame are close to the center of the through opening.

As a specific design of the first extrusion part, the first extrusion part is a water squeezing rod or a squeezing strip or a bump.

As a specific design of the second extrusion part, the second extrusion part is a water squeezing rod or a squeezing strip or a bump. The specific design of the second extrusion part and the first extrusion part can be the same or different.

The utility model provides a technical scheme that above-mentioned second technical problem adopted does: the utility model provides a from crowded cotton mop of water foam, includes mop pole and swing joint has the cotton mop head of foam at mop pole lower extreme, its characterized in that: the mop head can rotate to a length direction which is basically parallel to the mop rod so as to align with the through hole, and the mop head can pass through the through hole due to the up-and-down sliding of the water squeezing frame.

As an improvement, the head of the mop head is provided with a guide table, the guide table is provided with a first guide inclined plane and a second guide inclined plane which are distributed in bilateral symmetry, the first guide inclined plane inclines downwards leftwards, and the second guide inclined plane inclines downwards rightwards. When the head of the mop head enters the penetrating opening, the lower ends of the left and right side extrusion parts are respectively contacted with the first guide inclined plane and the second guide inclined plane, and due to the guide effect of the first guide inclined plane and the second guide inclined plane, the extrusion parts on the left and right sides respectively slide downwards along the first guide inclined plane and the second guide inclined plane to drive the left and right side swing frames to swing, so that the lower part of the extrusion channel is opened, and the head of the mop head can enter the extrusion channel more smoothly.

As an improvement, the mop head comprises an installation seat movably connected to the lower end of the mop rod and foam cotton arranged on the connection seat, and an unlocking button is exposed on the top surface of the installation seat and used for unlocking the locking connection between the installation seat and the connection seat; the guide table is arranged at the head part of the connecting seat.

The utility model provides a technical scheme that above-mentioned third technical problem adopted does: the utility model provides a mop cleaning tool, includes mop bucket and foaming cotton mop, the foaming cotton mop includes mop pole and swing joint has the cotton mop head of foaming, its characterized in that of mop pole lower extreme: the mop comprises a mop barrel, a mop rod and a floating extrusion device, wherein the mop barrel is provided with a through hole, the mop rod is arranged on the through hole, the floating extrusion device is arranged on the mop barrel, the mop head can rotate to the length direction of the mop head to be basically parallel to the mop rod so as to align the through hole, and the mop rod slides up and down to enable the mop head to pass through the through hole.

Compared with the prior art, the utility model has the advantages of: the swing frame can swing, so that the extrusion components extrude the left side and the right side of the foamed cotton along with the swing of the swing frame, and the size of the extrusion channel is adaptively changed, so that the mop head can smoothly pass through the through hole, and the operation of a user is more labor-saving; the guide table is arranged, so that the extrusion component can be guided to drive the swing frame to swing when the mop head enters the extrusion channel, the lower end of the extrusion channel is opened, and the head of the mop head further enters the extrusion channel more smoothly; the mop head components are detachably connected, so that the foaming cotton is convenient to replace.

Drawings

FIG. 1 is a partial exploded view of an embodiment of a floating extrusion wringer of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a partial view of the embodiment of the self-squeezing foam mop of the present invention;

FIG. 4 is a perspective view of the mop head of FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a perspective view of an embodiment of the mop cleaning implement of the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

fig. 8 is a partially exploded view of the floating squeeze wringer of fig. 6.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

The up-down direction of the utility model is the length direction along the mop rod 1, and the left-right direction is the width direction along the mop head. The bottom surface of the mop head is the surface which is in contact with the ground in the mopping state. The head M of the mop head refers to the end which firstly enters the through opening when the mop head rotates to the length direction of the mop head to be basically parallel to the mop rod, and the tail N of the mop head refers to the end which finally enters the through opening when the mop head rotates to the length direction of the mop head to be basically parallel to the mop rod 1. The squeezing channel X is a channel which is used for actually squeezing the mop head in the through opening.

Fig. 1-2 show a preferred embodiment of the floating press wringing device of the present invention.

As shown in fig. 1-2, the floating extrusion wringing device comprises a wringing frame 6, a swinging frame 7, an extrusion component and other main components.

The wringing frame 6 is provided with a through hole for the mop head to pass through, the left side and the right side in the through hole are provided with swing frames 7, the squeezing components are arranged on the swing frames 7, and gaps between the squeezing components on the left side and the right side form a squeezing channel X for squeezing the left side and the right side of the foam cotton. The middle part of the swing frame 7 is hinged with the through hole, so that the swing frame 7 can swing, and the extrusion component can swing along with the swing frame 7 to extrude the left side and the right side of the foam cotton 4 on the mop head. The swing frame 7 is arc-shaped, and the upper end and the lower end of the swing frame 7 are close to the center of the through opening, so that the extrusion component can extrude the foam cotton 4 better. The pressing members include a first pressing member 81 and a second pressing member 82, and the first pressing member 81 and the second pressing member 82 are respectively provided at upper and lower ends of the swing frame 7. In the present embodiment, the first pressing member 81 and the second pressing member 82 are both water squeezing rollers capable of rotating around their axes, and in other embodiments, the water squeezing rollers may also be used to squeeze strips or squeezing blocks; the first pressing member 81 and the second pressing member 82 may also be provided as different pressing members; the pressing member may be a pressing plate having a plurality of squeeze rollers arranged side by side.

As shown in figures 3-5, the self-squeezing foam cotton mop comprises a mop rod 1, a mop head, a floating squeezing device and other main components.

As shown in figure 3, the mop head is connected with the lower end of the mop rod 1, the floating and extruding water squeezing device is sleeved on the mop rod 1 and can axially slide along the mop rod 1, so that the foamed cotton 4 on the mop head is squeezed.

As shown in fig. 3-4, the mop head comprises a mounting seat 2, a connecting seat 3, foam 4 and an unlocking button 5. The mounting seat 2 is movably connected to the lower end of the mop rod 1, so that the mop head can rotate to a length direction which is basically parallel to the mop rod 1. The foaming cotton 4 is installed on the connecting seat 3, the foaming cotton 4 in the utility model can be a collodion head, a sponge head or the like. But be equipped with the locking connection structure of unblock between mount pad 2 and the connecting seat 3, unblock button 5 sets up inside the mop head and exposes to the top surface in mount pad 2 for relieve the locking connection between mount pad 2 and the connecting seat 3.

As shown in fig. 3-4, the connecting base 3 is provided with a guide platform 30, and the guide platform 30 is provided with a first guide inclined surface 301 and a second guide inclined surface 302. The first guide slope 301 and the second guide slope 302 are arranged in bilateral symmetry, the guide slope 301 inclines downwards to the left, and the second guide slope 302 inclines downwards to the right. When the head M of the mop head enters the extrusion channel X, the guide inclined plane can guide the second extrusion component 82 to drive the swing frame 7 to swing, so that the extrusion channel X is a channel with a large bottom and a small top, and the head M of the mop head can conveniently enter the extrusion channel X smoothly.

As shown in fig. 3-5, the working principle of the self-squeezing foam cotton mop is as follows:

in the mopping state, the mop head is completely separated from the through opening.

When water is squeezed, the mop head is rotated to the length direction of the mop head to be basically parallel to the mop rod 1, so that the water squeezing frame 6 moves downwards in the axial direction. When the head M of the mop head first contacts the second squeezing component 82 at the lower end of the swing frame 7, the second squeezing component 82 at the left side drives the swing frame 7 at the left side to swing due to the guiding effect of the first guide inclined plane 301, and meanwhile, the second squeezing component 82 at the right side drives the swing frame 7 at the right side to swing due to the guiding effect of the second guide inclined plane 302, so that the squeezing channel X is a channel with a small top and a large bottom, and the head M of the mop head can enter the squeezing channel X more smoothly.

Along with the axial downward movement of the water squeezing frame 6, when the head M of the mop head contacts the first squeezing parts 81 at the upper end of the swing frame 7, similarly, the first squeezing parts 81 at the left and right sides respectively drive the swing frame 7 at the left and right sides to swing, so that the squeezing channel X is a channel with a large top and a small bottom, and the head M of the mop head can more smoothly pass through the squeezing channel X.

In the process that the mop head penetrates through the extrusion channel X, along with the progress of water squeezing, the water content of the mop head in the length direction is different, so that the first extrusion component 81 and the second extrusion component 82 are different in reaction force of the mop head, and the swing frame 7 swings adaptively, the size of the extrusion channel X changes adaptively, and the mop head can smoothly penetrate through the extrusion channel X.

When the tail part N of the mop head leaves the extrusion channel X, the tail part N of the mop head is firstly separated from the contact with the second extrusion component 82, the first extrusion component 81 drives the swing frame 7 to swing, so that the extrusion channel X is a channel with a large upper part and a small lower part, and the tail part N of the mop head is more smoothly separated from the extrusion channel X.

With the continuous axial downward movement of the wringing rack 6, the tail part N of the mop head is separated from the contact with the first pressing component 81, and the swinging rack 7 swings to restore the initial state.

As shown in fig. 6-8, is a preferred embodiment of the mop cleaning implement of the present invention.

As shown in fig. 6, the mop cleaning tool includes a mop bucket 9 and a foam mop. The foam cotton mop comprises a mop rod 1 and a mop head which is movably connected to the lower end of the mop rod and is provided with foam cotton 4, and the mop head can rotate to a length direction which is basically parallel to the mop rod.

As shown in fig. 6-8, a floating squeeze wringer is provided on the mop bucket 9. The two sides of the water squeezing frame 6 in the length direction are respectively provided with a through hole for the mop head to pass through, when the mop head rotates to the length direction to be basically parallel to the mop rod 1, the through hole is aligned, and the mop rod 1 slides up and down to enable the mop head to pass through the through hole. Swing frames 7 are arranged on the left side and the right side in the through opening, the extrusion components are arranged on the swing frames 7, and gaps between the extrusion components on the left side and the right side form extrusion channels X for extruding the left side and the right side of the foamed cotton. The middle part of the swing frame 7 is hinged with the through hole, so that the swing frame 7 can swing, and the extrusion component can swing along with the swing frame 7 to extrude the left side and the right side of the foam cotton 4 on the mop head. The swing frame 7 is V-shaped, and the upper end and the lower end of the swing frame 7 are close to the center of the through opening, so that the extrusion part can extrude the foam cotton 4 better. The pressing members include a first pressing member 81 and a second pressing member 82, and the first pressing member 81 and the second pressing member 82 are respectively provided at upper and lower ends of the swing frame 7. In the present embodiment, the first pressing member 81 and the second pressing member 82 are both water squeezing rollers capable of rotating around their axes, and in other embodiments, the water squeezing rollers may also be used to squeeze strips or squeezing blocks; the first pressing member 81 and the second pressing member 82 may also be provided as different pressing members; the pressing member may be a pressing plate having a plurality of squeeze rollers arranged side by side.

The working principle of the mop cleaning tool in the embodiment is as follows: when the mop is used for squeezing water, the mop head is rotated to the length direction of the mop head to be basically parallel to the mop rod 1 so as to align with the through hole, the mop rod 1 is moved downwards to enable the mop head to enter the through hole, the swing frame 7 is triggered to swing when the mop head passes through the squeezing channel X, and the squeezing component squeezes the left side and the right side of the foam cotton 4 along with the swing of the swing frame 7.

Claims

1. The utility model provides a crowded water installation of extruded floats, includes crowded water frame (6), crowded water frame (6) have the mouth of wearing that supplies the mop head to pass, wear to be equipped with in the mouth and be used for carrying out extruded extrusion structure, its characterized in that to the overhead foaming cotton (4) of mop: swing span (7) that the extrusion structure set up including controlling the interval, the middle part of each swing span (7) articulates in the wearing mouth and can swing, install the extrusion part on swing span (7), be formed with extrusion passageway (X) between swing span (7), during crowded water, the mop head triggers swing span (7) swing when passing through extrusion passageway (X), and the extrusion part extrudees the left and right sides of foam (4) along with the swing of swing span (7).

2. The floating squeeze wringing device of claim 1, wherein: the pressing parts comprise a first pressing part (81) and a second pressing part (82) which are respectively arranged at the upper end and the lower end of the swing frame (7).

3. The floating squeeze wringing device of claim 2, wherein: the swing frame (7) is arc-shaped, and the upper end and the lower end of the swing frame (7) are close to the center of the through opening.

4. The floating squeeze wringing device of claim 2, wherein: the first extrusion part (81) is a water extrusion rod or an extrusion strip or a bump.

5. The floating squeeze wringing device of claim 2, wherein: the second extrusion part (82) is a water extrusion rod or an extrusion strip or a bump.

6. The utility model provides a from crowded cotton mop of water foam, includes mop pole (1) and swing joint have the mop head of foam (4) at mop pole (1) lower extreme, its characterized in that: the floating extrusion wringing device of any one of claims 1-5, wherein the wringing frame (6) is arranged on the mop rod (1) and can slide along the mop rod (1), the mop head can be rotated to the length direction which is basically parallel to the mop rod (1) so as to be aligned with the through hole, and the mop head can pass through the through hole due to the up-and-down sliding of the wringing frame (6).

7. The self-wringing foam mop of claim 6, wherein: the mop head comprises a mop head body and is characterized in that a guide table (30) is arranged at the head part (M) of the mop head body, a first guide inclined plane (301) and a second guide inclined plane (302) which are distributed in a bilateral symmetry mode are arranged on the guide table (30), the first guide inclined plane (301) inclines downwards leftwards, and the second guide inclined plane (302) inclines downwards rightwards.

8. The self-wringing foam mop of claim 7, wherein: the mop head comprises a mounting seat (2) movably connected to the lower end of the mop rod (1) and foam cotton (4) arranged on the connecting seat (3), and an unlocking button (5) is exposed on the top surface of the mounting seat (2) and used for unlocking the locking connection between the mounting seat (2) and the connecting seat (3); the guide table (30) is arranged at the head of the connecting seat (3).

9. The utility model provides a mop cleaning tool, includes mop bucket (9) and foam mop, foam mop includes mop pole (1) and swing joint has the mop head of foam (4) at mop pole (1) lower extreme, its characterized in that: the floating squeezing water squeezing device further comprises a water squeezing frame according to any one of the preceding claims 1-5, the water squeezing frame (6) is arranged on the mop bucket (9), the mop head can rotate to the length direction of the mop head to be basically parallel to the mop rod (1) so as to be aligned with the through hole, and the mop rod (1) can slide up and down to enable the mop head to pass through the through hole.