CN213464932U - Cleaning tool and water squeezing device thereof - Google Patents

Abstract

The utility model discloses a cleaning tool and a water squeezing device thereof, wherein the water squeezing device comprises a bracket, a mop penetration opening is arranged on the bracket, and a mountain part and a water squeezing part which is movably connected are respectively and fixedly arranged on the bracket and positioned at two sides of the mop penetration opening; when the water squeezing component is positioned at a first position relative to the bracket, the mop head can pass through the mop through hole without obstruction; when the wringing component is positioned at the second position relative to the bracket, a wringing port capable of squeezing and dehydrating the mop head is formed between the wringing component and the backer part; a stress component which can be driven by the side wall of the mop rod is movably connected to one side of the mop penetrating opening, which is close to the backer part, of the bracket, and a transmission component is connected between the stress component and the water squeezing component; the stressed component can drive the wringing component to move from the first position to the second position through the transmission component under the driving of the mop rod. The utility model discloses utilize the rotation of the relative mop head of mop pole to drive crowded water part and remove to crowded water state, structural design is ingenious by initial position.

Description

Cleaning tool and water squeezing device thereof

Technical Field

The utility model belongs to the burnisher field, concretely relates to supporting mop and mop bucket structure of using.

Background

The existing flat mop bucket is generally respectively used for cleaning and dewatering a flat mop by arranging an independent cleaning area and a water squeezing area, and the mop bucket has the advantage of convenient use, but has the defects that the mop bucket has larger integral volume and occupies larger space due to the independent cleaning area and the water squeezing area, and the manufacturing cost of the bucket is correspondingly higher.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects in the prior art, the cleaning tool integrating the cleaning area and the wringing area in a single barrel and the wringing device matched with the cleaning tool are provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a water squeezing device of a mop comprises a support, wherein a mop penetrating hole for a mop head of the mop to penetrate through is formed in the support, a mountain leaning part is fixedly arranged on one side, located at the mop penetrating hole, of the support, and a water squeezing part is movably connected to the other side, located at the mop penetrating hole, of the support;

the wringing component can be positioned in two different positions relative to the bracket; when the water squeezing component is positioned at a first position relative to the bracket, the mop head can pass through the mop through hole without obstruction; when the wringing component is positioned at a second position relative to the bracket, a wringing opening capable of squeezing and dehydrating the mop head is formed between the wringing component and the mountain leaning part;

a stress component which can be driven by the side wall of the mop rod is movably connected to one side of the bracket, which is positioned at the mop penetrating opening and close to the backer part, and a transmission component is connected between the stress component and the water squeezing component;

the stressed part can move from the position a to the position b under the action of an external force, so that the transmission part drives the wringing part to move from the first position to the second position;

also comprises a positioning part for positioning the lower end of the mop head or the mop rod.

Preferably, the method comprises the following steps: at least one of the stressed component, the transmission component and the wringing component can reset under the action of self gravity.

Preferably, the method comprises the following steps: and an elastic part is connected between the support and at least one of the stressed part, the transmission part and the wringing part.

Preferably, the method comprises the following steps: the stress component is connected with the bracket in a sliding manner along the horizontal direction; or the force-bearing part is connected with the bracket in a rotating or sliding way, and a connecting line of the force-bearing part at the position a and the position b has a component along the horizontal direction.

The stressed component at least has a component along the horizontal direction when moving relative to the bracket, so that the mop rod can drive the stressed component to move when rotating by taking the lower end position as the center.

Preferably, the method comprises the following steps: the transmission component is connected with the bracket in a sliding manner.

Preferably, the method comprises the following steps: the bracket is provided with a chute a which is in sliding connection with the transmission component, and the chute a is arranged vertically or obliquely; the transmission component is connected with a sliding column which is in sliding connection with the sliding chute a; or the positions of the sliding chute a and the sliding column are mutually exchanged.

Preferably, the method comprises the following steps: the bracket is provided with a sliding chute which is in sliding connection with the water squeezing component, the sliding chute is provided with a first groove section and a second groove section which are connected, the first groove section is horizontally arranged or arranged towards the oblique upper part of one side of the second groove section, and the second groove section is vertically arranged or arranged towards the oblique upper part of one side of the first groove section;

the first position of the wringing component relative to the bracket is located in the first channel section and the second position of the wringing component relative to the bracket is located in the second channel section.

Preferably, the method comprises the following steps: the wringing component comprises a wringing roller and a connecting shaft which is coaxial with the wringing roller; the connecting shaft is connected with the bracket in a sliding manner and is abutted against or connected with the transmission component;

or the wringing component comprises a wringing frame connected with the support in a sliding or rotating manner and a wringing roller arranged on the wringing frame.

The utility model also provides a cleaning tool, which comprises a mop bucket and a mop; the mop bucket comprises a bucket body and the water squeezing device connected to the bucket body;

the mop comprises a mop rod and a mop head which is rotatably connected to the lower end of the mop rod, and the mop head can rotate to be parallel to the mop rod;

the lower end of the mop rod or the mop head is provided with a positioning matching part which is matched and positioned with the positioning part;

when the positioning matching part and the positioning part are in a matching and positioning state, the mop rod is rotated towards the direction away from the mop head, and the side wall of the mop rod can drive the stress component to move from the position a to the position b.

Preferably, the method comprises the following steps: when the positioning matching part and the positioning part are in a matching and positioning state, and the water squeezing part is driven by the mop rod to reach the second position, the water squeezing part just clamps the upper end of the mop head, or is positioned above the mop head and close to the upper end of the mop head.

Compared with the prior art, the beneficial effects of the utility model are that: when the water squeezing component is positioned at the first position, the mop can pass through the mop penetration opening without hindrance and extend into the mop barrel for cleaning and washing, and in the cleaning process, the water squeezing component can not squeeze the mop, so that extra resistance or interference can not be generated, and the cleaning of the mop is facilitated; after the mop is cleaned, the water squeezing component is driven to move to the second position through rotation of the mop rod, the water squeezing component is in a water squeezing working state, the water in the mop head wiping objects can be squeezed out by the water squeezing component only by upwards pulling the mop until the mop head is separated from the water squeezing component, the water squeezing process is completed, the water squeezing component automatically returns to the first position, and interference on cleaning of the next mop cannot be caused.

The mop pole and the mop head of current flat mop (or mop head is rectangular form mop) all design for rotating the structural style of being connected so that the mop head stretches into all kinds of low, narrow positions and carries out cleaning operation basically, the utility model discloses utilize the current connected form of mop pole and mop head, given the new function of mop pole, utilize the rotation of the relative mop head of mop pole to drive crowded water part to remove to the function of crowded water state by initial position promptly, structural design is ingenious.

Drawings

Fig. 1 is a schematic structural view of the cleaning tool of the present invention.

Fig. 2 and 3 are schematic structural views of the wringing device in the initial state of the wringing component in embodiment 1.

Fig. 4 is a schematic structural view of the wringing device in embodiment 1 when the wringing member is in a wringing state.

FIG. 5 is a schematic view showing the mop of example 1 in a state ready for squeezing water.

Fig. 6 is a schematic structural view of the mop in embodiment 1 when the mop rod drives the wringing component to a wringing state.

Fig. 7 is a schematic view showing the structure of the mop of example 1 in a state where water is pultruded.

Fig. 8 is an exploded view of the mop portion.

Fig. 9 is a schematic structural view of the wringing device in embodiment 3 when the wringing member is in the initial state.

Fig. 10 is a schematic structural view of the wringing device in embodiment 3 when the wringing member is in a wringing state.

Fig. 11 is a schematic structural view of the wringing device in embodiment 4 with the wringing member in the initial state.

Fig. 12 is a schematic structural view of the wringing device in embodiment 4 when the wringing member is in a wringing state.

Fig. 13 is a schematic structural view of the wringing device in embodiment 5 when the wringing member is in the initial state.

Fig. 14 is a schematic structural view of the wringing device in embodiment 5 when the wringing member is in a wringing state.

A. A barrel body; B. a water squeezing mechanism; 1. a support; 1a, a cover body; 1b, side plates; 1c, putting the mop in the opening; 11. a chute; 111. a first groove section; 112. a second groove section; 12. a mountain part; 13. a positioning part; 14. a chute a; 15. a chute b; 2. a wringing component; 21. a water squeezing frame; 22. a connecting shaft; 3. a transmission member; 4. a force-receiving member; 5. a brush; C. a mop; 7. a mop rod; 8. a mop head; 81. a mop plate; 82. a wipe; 83. and rotating the joint.

Detailed Description

Example 1

According to fig. 1 to 8, the present embodiment provides a water squeezing device for a mop, which includes a support 1, a mop penetration opening 1c for a mop head of the mop to penetrate through is provided on the support, a mountain leaning portion 12 is fixedly provided on one side of the support located at the mop penetration opening, and a water squeezing component 2 is slidably connected to the other side of the support located at the mop penetration opening.

The support comprises a cover body 1a and two symmetrically arranged side plates 1b connected to the lower end of the cover body, and the mop penetrating port 1c is formed in the cover body. The wringing component is a wringing roller or a wringing sheet or a combination of the wringing roller and the wringing sheet. The figure shows the case where the wringing component is a single wringing roller.

The wringing component can be positioned in two different positions relative to the bracket; when the water squeezing component is positioned at a first position relative to the bracket, the mop head can pass through the mop through hole without obstruction; when the water squeezing component is positioned at the second position relative to the support, a water squeezing opening capable of squeezing and dehydrating the mop head is formed between the water squeezing component and the mountain leaning part.

The brush 5 is connected between the two side plates on the bracket, and when the water squeezing part is positioned at the first position, the brush assembly 5 is approximately positioned below the water squeezing part.

The mop squeezing device is characterized in that a stressed part which can be driven by the side wall of the mop rod is slidably connected to one side, close to the mountain leaning part, of the mop penetrating opening on the support, and a transmission part is connected between the stressed part and the water squeezing part.

The stressed part can move from the position a to the position b under the action of an external force, so that the transmission part drives the wringing part to move from the first position to the second position;the bracket is provided with a positioning part for positioning the lower end of the mop head or the mop rod 13。

Furthermore, the number of the transmission parts is two, each transmission part is connected with one side plate in a sliding mode, and two ends of the water squeezing part are connected with or abutted against the transmission parts on two sides to achieve transmission.

The bracket is provided with a chute a14 which is connected with the transmission component in a sliding way, and the chute a is arranged vertically or obliquely; and the transmission part is connected with a sliding column which is in sliding connection with the sliding groove a. The sliding column shown in fig. 3 is connected with the two transmission parts through the two side plates respectively. Or the positions of the sliding chute a and the sliding column are mutually exchanged.

The bracket is provided with a sliding chute 11 which is in sliding connection with the water squeezing component, the sliding chute is provided with a first chute section 111 and a second chute section 112 which are connected, the first chute section is horizontally arranged or arranged towards the oblique upper part of one side of the second chute section, and the second chute section is vertically arranged or arranged towards the oblique upper part of one side of the first chute section; the first position of the wringing component relative to the bracket is located in the first channel section and the second position of the wringing component relative to the bracket is located in the second channel section.

The wringing component comprises a wringing frame 21 which is connected with the bracket in a sliding way and a wringing roller which is arranged on the wringing frame. Each side of the wringing frame is provided with two sliding columns which are in sliding connection with the sliding grooves, so that when the transmission component pushes the wringing frame to move to the second position, the wringing frame and the support are relatively fixed and cannot rotate, and the wringing frame is suitable for mounting one or more wringing rollers or wringing sheets.

The stress component 4 is connected with the bracket in a sliding manner along the horizontal direction; and a sliding groove b15 which is in sliding connection with the force-bearing part is formed on the side plate. Or the force-bearing part is connected with the bracket in a sliding mode, and a connecting line of the force-bearing part at the position a and the position b has a component in the horizontal direction. The stressed component at least has a component along the horizontal direction when moving relative to the bracket, so that the mop rod can drive the stressed component to move when rotating by taking the lower end position as the center.

Further, at least one of the stress component 4, the transmission component 3 and the wringing component 2 can reset under the action of self gravity. In the wringing device shown in fig. 3, since the sliding groove a and the sliding groove both have components in the vertical direction, the wringing component and the transmission component 3 can be reset under the action of the gravity of the wringing component and the transmission component, and the stressed component is reset under the driving of the transmission component.

In order to improve the smoothness of resetting, elastic pieces such as tension springs, torsion springs and elastic ropes can be connected between the bracket and at least one of the stress component, the transmission component and the wringing component.

Example 2

The embodiment is a cleaning tool adopting the water squeezing device in the embodiment 1, and the cleaning tool comprises a mop bucket and a mop C; the mop bucket comprises a bucket body A and the water squeezing device B connected to the bucket body.

The mop comprises a mop rod 7 and a mop head 8 which is rotatably connected to the lower end of the mop rod, and the mop head can rotate to be parallel to the mop rod.

The mop head comprises a mop plate 81 and a wipe 82 attached to the lower end of the mop plate. The upper part of the mop plate is rotatably connected with a rotating joint 83, and a rotating shaft a between the rotating joint 83 and the mop plate is arranged along the length direction of the mop plate. The mop rod is rotatably connected with the rotating joint, and a rotating shaft b between the rotating joint and the mop rod is perpendicular to the rotating shaft a.

The rotating joint 83 is provided with a positioning matching part 831 which is matched and positioned with the positioning part. Of course, the locating engagement portion may be provided at the lower end of the mop rod or at another location on the mop head adjacent the pivot joint. So long as make location portion and location cooperation portion can the looks adaptation.

Correspondingly, the positioning part can be arranged on the bracket, can also be arranged on the inner side wall or the bottom of the barrel body and other positions, and only needs to drive the stress part to move when the mop rod rotates.

Specifically, location portion is the jack structure, location cooperation portion is the plug structure, and both positions also can be exchanged, as long as make jack and plug can cooperate the grafting to realize the location can.

When the positioning matching part and the positioning part are in a matching and positioning state, the mop rod is rotated towards the direction away from the mop head, and the side wall of the mop rod can drive the stress component to move from the position a to the position b.

When the positioning matching part and the positioning part are in a matching and positioning state, and the water squeezing part is driven by the mop rod to reach the second position, the water squeezing part just clamps the upper end of the mop head, or is positioned above the mop head and close to the upper end of the mop head.

In particular, when the wiping material is collodion, because the collodion has larger elasticity and deformation amplitude, and the water absorption capacity is larger, when the water squeezing component reaches the second position under the driving of the mop, the water squeezing component is preferably designed to just clamp the upper end of the mop head (as shown in figure 6), so that all positions of the collodion from top to bottom can be squeezed by the water squeezing component, and the phenomenon that excessive water is remained in the collodion to influence the squeezing dryness can be avoided.

When the wipe is a mop, the wringing member is preferably designed to be located just above the mop head and close to the upper end of the mop head (i.e. the upper end of the second channel section is somewhat higher than in fig. 6) when the wringing member reaches the second position under mop drive, because the mop cloth is less resilient and absorbs water and is harder to wring than collodion. In other words, because the mop cloth has a small elasticity, if the wringing component clamps the upper end of the mop head at the second position, the driving force required by the wringing component is too large, the structural strength requirement on each component connected with the wringing component is high, and the operation is laborious, so that the upper end of the mop head is preferably not clamped when the wringing component reaches the second position, but is positioned next to the upper end of the mop head, and the resistance when the wringing component reaches the second position is greatly reduced. And in the process of pulling up the mop after the water squeezing part reaches the second position, even if a larger squeezing force is formed between the water squeezing part and the mop head, the squeezing force is approximately vertical to the mop head direction, so that the upward pulling of the mop cannot be obviously influenced. And the water squeezing rollers and the rollers can be in rolling fit with the two surfaces of the mop head, so that the resistance of the mop when the mop is pulled upwards to squeeze water is further reduced.

When the cleaning tool is used, water is filled in the barrel body until the water level approximately exceeds the position of the brush, then the mop head is rotated to be parallel to the mop rod, one side of a mop wiping object of the mop faces to the brush direction and extends into the barrel body from the mop penetrating port for cleaning, and the bristles on the brush and the wiping object move relatively to each other so that dirt on the wiping object falls off. After the cleaning, make the mop board back near the mountain portion, location portion inserts on the location cooperation portion, rotate the mop pole to keeping away from the mop head direction after that, the mop pole slides along spout b with the drive atress after the stress part contact, and then drive the synchronous horizontal slip in upper end of drive disk assembly, the lower extreme of drive disk assembly slides from bottom to top along spout a, and then drive disk assembly drive crowded water part removes the second position of crowded water state by the first position of initial condition, upwards stimulate the mop pole after that, then the mop head gets into crowded water state, until the mop head breaks away from with crowded water roller, crowded water operation is accomplished to the mop head.

After the mop head is separated from the wringing component, the transmission component and the stress component return to the initial state under the action of self gravity or the action of the elastic component.

Example 3

As shown in fig. 9 to 10, the present embodiment is different from the previous embodiments in that: the wringing component comprises a wringing roller and a connecting shaft 22 which is coaxial with the wringing roller, and the connecting shaft is connected with the transmission component in a sliding manner.

The structure of the wringing component is only suitable for the condition that the wringing component is a single wringing roller, and the connecting shaft can be coaxially inserted with the wringing roller or integrally formed at two ends of the wringing roller.

Example 4

As shown in fig. 11 to 12, the present embodiment is different from the previous embodiments in that: the wringing component comprises a wringing frame 21 which is rotatably connected with the bracket and one or more wringing rollers which are arranged on the wringing frame. Each side of the wringing frame is provided with a rotating head which is rotatably connected with the bracket and a sliding head which is slidably connected with the transmission part. Correspondingly, a groove body for the sliding head to penetrate through is arranged on the side plate of the support.

When the wringing component is located at the second position, the sliding head is abutted to the end part of the groove body, and the height position of the sliding head is higher than that of the rotating head, so that the wringing roller can be stably located at the second position in the wringing process.

Example 5

As shown in fig. 13 to 14, the present embodiment is different from the previous embodiments in that: the stress component is rotatably connected with the bracket, and a connecting line of the stress component at the position a and the position b has a component along the horizontal direction.

Specifically, the stress component of this embodiment is a U-shaped structure as a whole, and its both ends are connected with the support through rotating the plush copper and rotate, and its middle position is used for propping up the transmission with the mop pole lateral wall. The position of the stressed part far away from the rotating raised head is connected with the transmission part through a connecting rod.

Claims (10)

1. A wringing device is characterized in that: the mop head of the mop penetrates through the mop penetrating hole, a mountain-leaning part is fixedly arranged on one side of the bracket, which is positioned at the mop penetrating hole, and a water squeezing part is movably connected to the other side of the bracket, which is positioned at the mop penetrating hole; the wringing component can be positioned in two different positions relative to the bracket; when the water squeezing component is positioned at a first position relative to the bracket, the mop head can pass through the mop through opening without obstruction; when the wringing component is positioned at a second position relative to the bracket, a wringing opening capable of squeezing and dehydrating the mop head is formed between the wringing component and the mountain leaning part; a stress component which can be driven by the side wall of the mop rod is movably connected to one side of the bracket, which is positioned at the mop penetrating opening and close to the backer part, and a transmission component is connected between the stress component and the water squeezing component; the stressed part can move from the position a to the position b under the action of an external force, so that the transmission part drives the wringing part to move from the first position to the second position; also comprises a positioning part for positioning the lower end of the mop head or the mop rod.

2. A wringing device as defined in claim 1, wherein: at least one of the stressed component, the transmission component and the wringing component can reset under the action of self gravity.

3. A wringing device as defined in claim 1, wherein: and an elastic part is connected between the support and at least one of the stressed part, the transmission part and the wringing part.

4. A wringing device as defined in claim 1, wherein: the stress component is connected with the bracket in a sliding manner along the horizontal direction; or the force-bearing part is connected with the bracket in a rotating or sliding way, and a connecting line of the force-bearing part at the position a and the position b has a component along the horizontal direction.

5. A wringing device as defined in claim 1, wherein: the transmission component is connected with the bracket in a sliding manner.

6. A wringing device as defined in claim 5, wherein: the bracket is provided with a chute a which is in sliding connection with the transmission component, and the chute a is arranged vertically or obliquely; the transmission component is connected with a sliding column which is in sliding connection with the sliding chute a; or the positions of the sliding chute a and the sliding column are mutually exchanged.

7. A wringing device as defined in claim 1, wherein: the bracket is provided with a sliding chute which is in sliding connection with the water squeezing component, the sliding chute is provided with a first groove section and a second groove section which are connected, the first groove section is horizontally arranged or arranged towards the oblique upper part of one side of the second groove section, and the second groove section is vertically arranged or arranged towards the oblique upper part of one side of the first groove section;

the first position of the wringing component relative to the bracket is located in the first channel section and the second position of the wringing component relative to the bracket is located in the second channel section.

8. A wringing device as defined in claim 1, wherein: the wringing component comprises a wringing roller and a connecting shaft which is coaxial with the wringing roller; the connecting shaft is connected with the bracket in a sliding manner and is abutted against or connected with the transmission component;

or the wringing component comprises a wringing frame connected with the support in a sliding or rotating manner and a wringing roller arranged on the wringing frame.

9. A cleaning implement characterized by: comprises a mop bucket and a mop;

the mop bucket comprises a bucket body and the water squeezing device as claimed in any one of claims 1 to 8 connected to the bucket body;

the mop comprises a mop rod and a mop head which is rotatably connected to the lower end of the mop rod, and the mop head can rotate to be parallel to the mop rod;

the lower end of the mop rod or the mop head is provided with a positioning matching part which is matched and positioned with the positioning part;

when the positioning matching part and the positioning part are in a matching and positioning state, the mop rod is rotated towards the direction away from the mop head, and the side wall of the mop rod can drive the stress component to move from the position a to the position b.

10. A cleaning implement according to claim 9 wherein: when the positioning matching part and the positioning part are in a matching and positioning state, and the water squeezing part is driven by the mop rod to reach the second position, the water squeezing part just clamps the upper end of the mop head, or is positioned above the mop head and close to the upper end of the mop head.

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