CN108338758B - Self-squeezing foam cotton head mop - Google Patents

Abstract

The utility model relates to a self-squeezing foaming cotton head mop, which comprises a mop rod and a foaming cotton head and is characterized in that: the foam cotton head is rotationally connected to the lower end of the mop rod, the mop rod is provided with a water squeezing handle, the water squeezing handle and the mop rod can relatively slide up and down, the water squeezing handle is connected with a water squeezing head through a connecting rod, the water squeezing head is provided with a through hole matched with the cross section of the foam cotton head in appearance, the foam cotton head can be rotated to be parallel to the mop rod and right opposite to the through hole, and a squeezing part for squeezing water to the foam cotton head penetrating through the through hole is arranged in the through hole. The self-squeezing foam cotton head mop can change the water squeezing mode of the traditional foam rubber mop, and the foam cotton head can freely rotate relative to a mop rod, and meanwhile, a good water squeezing effect is guaranteed.

Description

Self-squeezing foam cotton head mop

Technical Field

The utility model relates to a cleaning tool, in particular to a self-squeezing foam cotton head mop, wherein the foam cotton head can be a collodion cotton head, a sponge head or the like.

Background

The collodion mop in the current market is approximately the same in structure and comprises a mop rod, a mop head and a squeezing device, wherein the squeezing device in the collodion mop is a transmission structure and comprises a handle, a pull rod, a caliper seat (squeezing frame), a collodion clamp and a squeezing rod, the collodion head is clamped by the collodion clamp, the collodion clamp 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 squeezing rod is oblate, and the two ends of the squeezing rod are pinned with the lower end of the caliper seat. When the squeezing operation is performed, the handle is pulled to drive the collodion cotton head to horizontally move upwards through the pull rod, and the collodion cotton head passes through the squeezing rods of the squeezing frame, so that the collodion cotton head passing through the squeezing rods can be clamped by the squeezing rods to realize squeezing due to the elasticity of the squeezing rods for keeping the clamping trend.

Such as "collodion mop", a chinese patent No. ZL 0326027. X (publication No. CN 2626415Y), a chinese patent No. ZL 200920121093.8 (publication No. CN 201409887Y), a chinese patent No. ZL 200920075021.4 (publication No. CN 201453183U), a chinese patent No. ZL201110102067.2 (publication No. CN102138771 a), a chinese patent No. movable multifunctional collodion mop, all disclose such a squeezing device for collodion mop.

When the existing collodion mop is used for squeezing water, the handle is pulled to drive the collodion head to horizontally move upwards through the pull rod, and the collodion head passes through the squeezing rods of the squeezing frame, so that the collodion head passing through the squeezing rods can be squeezed by the squeezing rods to realize squeezing water due to the elasticity of the squeezing rods which keeps clamping trend. This way of dehydration suffers from the following drawbacks:

1. the squeezing mode is that the squeezing frame moves along the height direction of the collodion head to squeeze water, so that the whole collodion head can be squeezed by the squeezing sticks, the transverse length of the squeezing sticks is close to the length of the collodion head, the whole transverse length of the squeezing parts is long, the squeezing is heavy, the contact area between the squeezing sticks and the collodion head in the squeezing process is large, the friction force during squeezing is greatly increased, in addition, the squeezing sticks at the front side or the rear side are generally multiple in rows, the consumption materials are multiple, and the squeezing frame cost is high.

2. Because of the specificity of the squeezing frame structure, the collodion head and the mop rod must be fixedly connected, and the collodion head cannot be completely separated from the squeezing frame, namely, the collodion head cannot rotate relative to the mop rod, when the mop is used for mopping, the mop is inconvenient to mop when meeting specific occasions such as corners, and the adaptability of mopping is poor.

In summary, the wringing device of the prior collodion mop can be further improved.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the self-squeezing foam cotton head mop which changes the water squeezing mode of the traditional foam rubber mop aiming at the current state of the art, and the self-squeezing foam cotton head mop can enable the foam cotton head to freely rotate relative to a mop rod, and meanwhile, good water squeezing effect is ensured, and water squeezing operation is labor-saving.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a from squeezing water foaming cotton head mop, includes mop pole, foaming cotton head, its characterized in that: the foam cotton head is movably connected to the lower end of the mop rod, the mop rod is provided with an extrusion device capable of sliding along the mop rod, the foam cotton head can be rotated to the position that the length direction of the foam cotton head is basically parallel to the mop rod and aligned with the water extrusion device, when water is extruded, the water extrusion device slides along the length direction of the foam cotton head and extrudes the left side and the right side of the foam cotton head so as to realize water extrusion, and when the mop is used for mopping, the foam cotton head is completely separated from the water extrusion device.

Preferably, the squeezing device comprises a squeezing handle arranged on the mop rod, the squeezing handle and the mop rod can slide up and down relatively, the squeezing handle is connected with a squeezing head through a connecting rod, the squeezing head is provided with a penetrating opening through which the foaming cotton head penetrates, and squeezing parts for squeezing the left side and the right side of the foaming cotton head penetrating through the penetrating opening are arranged in the penetrating opening; the foam cotton head rotates to the position where the side face of the foam cotton head is aligned with the through hole when squeezing water, the foam cotton head enters and extrudes the left side and the right side of the foam cotton head through the through hole through the extrusion part so as to achieve squeezing water, and the foam cotton head is completely separated from the through hole when mopping. The water squeezing device is a specific structure for realizing the water squeezing mode.

Alternatively, the squeezing part is a squeezing roller rotatably connected to the left and right sides of the inside of the through hole, and the left and right sides of the foam cotton head are squeezed by the squeezing roller during squeezing. The structure extrudes the foam cotton heads from the two sides of the foam cotton heads through the wringing rollers on the two sides, so that wringing is realized, the wringing effect is good, and in addition, the contact between the rolling wringing rollers and the foam cotton heads is rolling contact, so that the foam cotton heads are driven to easily pass through the foam cotton heads, and the labor is saved.

Alternatively, the squeezing component is a squeezing bump on the left and right inner side walls of the fixed through hole.

As an improvement, the extrusion component is a squeezing projection which is respectively restrained on the left and right inner side walls of the through hole and can slide left and right, a supporting spring is arranged between the squeezing projection and the inner side walls of the through hole, and the supporting spring acts on the squeezing projection to keep the squeezing projection moving inwards. The supporting spring acts on the wringing lug, so that the two wringing lugs keep approaching to each other, the wringing lug and the foaming cotton head are ensured to be in full contact all the time, and the wringing effect is better.

As another improvement, the extrusion parts are extrusion convex blocks which are respectively restrained at the left side and the right side of the penetrating opening and can slide up and down, guide blocks are arranged at the front side and the rear side of the extrusion convex blocks, inclined grooves which incline inwards gradually from bottom to top are formed in the corresponding inner walls of the penetrating opening, the guide blocks are positioned in the inclined grooves and can slide, the extrusion convex blocks slide upwards and inwards to gradually close the two opposite extrusion convex blocks in the process of upward movement of the foaming cotton head relative to the penetrating opening, and the extrusion convex blocks slide downwards and outwards to gradually separate the two opposite extrusion convex blocks in the process of downward movement of the foaming cotton head relative to the penetrating opening. In the process of upward movement of the foam cotton head relative to the penetrating opening, the foam cotton head moves upward, and the foam cotton head contacts with the wringing convex blocks, so that the wringing convex blocks are driven to slide upward and inward to gradually close the two opposite wringing convex blocks, the wringing convex blocks are ensured to be in full contact with the foam cotton head all the time, and the wringing effect is better; in the process of downward movement of the foam cotton head relative to the through hole, the foam cotton head is moved downward, and the foam cotton head is contacted with the wringing convex blocks, so that the wringing convex blocks are driven to slide downward and outward to enable the two opposite wringing convex blocks to be gradually far away, the contact force between the wringing convex blocks and the foam cotton head is reduced, the foam cotton head is moved downward more easily relative to the through hole, and the foam cotton head is facilitated to reset to a mopping state.

As an improvement, the connecting rod is partially coated on the mop rod, a guide screw is fixed on the mop rod, a strip-shaped guide groove matched with the guide screw is formed in the inner wall of the connecting rod and the inner wall of the squeezing head, an elastic bayonet used for being elastically clamped with the guide screw is further formed in the squeezing head, the mop rod moves to a mopping state on the squeezing handle, and the guide screw is clamped into the elastic bayonet. Through the direction of guide screw and bar guide way, prevent effectively that the connecting rod from rotating relative mop pole, guarantee going on smoothly of squeezing the water operation, guide screw and bar guide way are all hidden simultaneously, can not influence the outward appearance of mop, and in addition through the card of elasticity bayonet socket and guide screw, can be shirked the handle of squeezing the water and fix a position, prevent that it from gliding easily.

The connecting rods are two metal rods which are arranged at left and right intervals, the upper ends of the connecting rods are connected with squeezing handles, the lower ends of the connecting rods are connected with squeezing heads, the squeezing heads are sleeved on the mop rods, guide screws are fixed on the mop rods, strip-shaped guide grooves matched with the guide screws are arranged on the inner hole walls of the squeezing heads, elastic bayonets which are elastically clamped with the guide screws are further arranged on the squeezing heads, the squeezing handles move to a mopping state, and the guide screws are clamped into the elastic bayonets.

Preferably, the connecting rod is partially coated on the mop rod, a locking structure capable of being locked or unlocked with the mop rod is arranged between the squeezing handle and the mop rod, the squeezing handle is locked on the mop rod by the locking structure in a state that the foam cotton head is completely separated from the squeezing head, the squeezing handle can slide relative to the mop rod after unlocking, a holding sleeve capable of sliding up and down relative to the connecting rod is sleeved outside the connecting rod, and the holding sleeve is fixed with the mop rod. When the structure is used for squeezing water, one hand holds the squeezing handle, the other hand holds the holding sleeve, the holding sleeve and the mop rod connected with the holding sleeve are driven to slide up and down relative to the squeezing head to squeeze water, the holding sleeve is closer to the foaming cotton head, the squeezing operation gesture is more comfortable and labor-saving, and if the squeezing operation is that the squeezing handle is held by one hand, the mop rod above the squeezing handle is held by the other hand, the two hands are far away from the foaming cotton head, and the operation is laborious.

Alternatively, the locking structure comprises a button, the middle part of the button is hinged on a wringing handle, the front end of the button is provided with a bolt extending downwards, the wringing handle is provided with a first positioning hole for the bolt to pass through, the mop rod is provided with a second positioning hole for the bolt to insert, a spring is arranged below the rear end of the button, and acts on the rear end of the button to enable the bolt at the front end of the button to be inserted into the first positioning hole and the second positioning hole to be locked. The locking structure can unlock only by pressing the button, and when the water squeezing handle moves up to the mopping position relative to the mop rod, the button can automatically insert the bolt into the first positioning hole and the second positioning hole to be locked under the action of the spring, so that the locking and unlocking operations are convenient.

As another extrusion part, the mop rod consists of an upper rod and a lower rod, the upper end of the lower rod is movably arranged in the upper rod in a penetrating way and can move up and down, the water squeezing handle is fixed on the upper rod, the foam cotton head is rotationally connected to the lower end of the lower rod, the water squeezing handle is hinged with a driving handle, and the middle part of the driving handle is connected with the lower rod through a connecting rod. The structure is a spanner type squeezing operation mode, and in addition, the mop rod is divided into the upper rod and the lower rod, and the squeezing handle is fixed on the upper rod, so that the rear half section of the mop rod does not slide up and down relative to the squeezing handle in the squeezing operation process, and the mop rod is not easy to collide with an object behind the body, and the use is more convenient.

Still further improve, above-mentioned extrusion head is located the lower extreme of foaming cotton head and penetrates in the wearing mouth when low position, extrusion head transversely extends, thereby extrusion head can double as the base when low position is located to extrusion head, makes the foaming cotton head lower extreme parallel with the mop pole insert in wearing mouth and the mop can vertically place. After the water squeezing is completed, the whole mop (comprising the foam cotton head) can be vertically placed, so that the foam cotton on the foam cotton head is beneficial to airing, and the foam cotton cannot become dirty due to contact with the bottom surface again.

Because of the particularity of the use of the foam cotton head mop, the foam cotton head is required to be ensured not to deflect left and right relative to the mop rod when mopping, and the foam cotton head is also not easy to deflect relative to the mop rod at the same time.

Preferably, the lower end of the mop rod is fixed with a connector, the connector is provided with a slot with a flat opening, the middle of the top surface of the foam cotton head is provided with a convex flat head, the flat head is inserted into the slot and is rotationally connected with the slot through a rotating shaft, the pre-pressing positioning structure comprises an auxiliary positioning pin which is arranged in the connector and is supported by a supporting spring to keep the downward movement trend, and the peripheral surface of the flat head is provided with a first pit and a second pit which are matched with the auxiliary positioning pin; the foam cotton head is in the state of mopping the floor the position, the auxiliary positioning pin inserts in the first pit and realizes first pre-compaction location, and the foam cotton head is in the state of squeezing the water the position, the auxiliary positioning pin inserts in the second pit and realizes second pre-compaction location. The cooperation of the slot of flat head and flat mouth guarantees that the foam cotton head can only deflect around relative mop pole, can not deflect about, through the contact cooperation of auxiliary positioning pin and first pit or second pit, guarantees that the foam cotton head can not deflect easily in two positions.

The lower end of the auxiliary locating pin is provided with a roller which is matched with the first pit and the second pit.

Compared with the prior art, the utility model has the advantages that: the squeezing mode of the traditional foam cotton head is changed, the foam cotton head can be rotated to the state that the length direction of the foam cotton head is basically parallel to the mop rod and is aligned with the squeezing device, when squeezing water, the squeezing device slides up and down along the length direction of the foam cotton head and squeezes the left side and the right side of the foam cotton head to realize squeezing water, the squeezing device only contacts the foam cotton head in the height direction, the contact distance is short, the force blocked by squeezing water is small, the squeezing operation is more labor-saving, the squeezing device slides along the length direction of the foam cotton head to gradually squeeze water, the squeezing stroke is longer, and the squeezing effect is better; because the foam cotton head is completely separated from the wringing device when mopping, the foam cotton head is movably connected to the lower end of the mop rod, and the foam cotton head can deflect randomly in the mopping use process, so that the operation is more comfortable and reasonable.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present utility model (normal mopping state);

FIG. 2 is a schematic perspective view of a first embodiment of the present utility model (in a state of ready for squeezing water);

FIG. 3 is a cross-sectional view (ready for wringing state) of a first embodiment of the present utility model;

FIG. 4 is an enlarged view at A of FIG. 3;

FIG. 5 is an exploded perspective view of the wringing portion of the first embodiment of the present utility model;

FIG. 6 is an enlarged view at B of FIG. 3;

FIG. 7 is an exploded perspective view of the attachment of the foam head to the connector in accordance with the first embodiment of the present utility model;

FIG. 8 is a schematic perspective view of a second embodiment of the present utility model (in a state of ready for squeezing water);

FIG. 9 is an exploded perspective view of a wringing portion in a second embodiment of the present utility model;

FIG. 10 is a schematic perspective view of a third embodiment of the present utility model (in a state of ready for squeezing water);

FIG. 11 is a cross-sectional view of a wringing portion in a third embodiment of the present utility model;

FIG. 12 is a schematic perspective view of a fourth embodiment of the present utility model (in a ready-to-squeeze state);

FIG. 13 is an exploded perspective view of a wringing portion in a fourth embodiment of the present utility model;

fig. 14 is a schematic perspective view (normal mopping state) of a fifth embodiment of the present utility model;

FIG. 15 is a schematic perspective view of a fifth embodiment of the present utility model (in a state of ready for squeezing water);

FIG. 16 is a schematic perspective view of a sixth embodiment of the present utility model (in a ready-to-squeeze state);

FIG. 17 is a cross-sectional view (ready for wringing state) of a sixth embodiment of the present utility model;

FIG. 18 is an enlarged view at C of FIG. 17;

fig. 19 is an enlarged view of D of fig. 17;

FIG. 20 is a schematic perspective view of a seventh embodiment of the present utility model (in a state of ready for squeezing water);

fig. 21 is a sectional view (ready for wringing state) of a seventh embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 5, a first embodiment of the present utility model is shown.

A self-squeezing foam cotton head mop comprises a mop rod 1 and a foam cotton head 2, wherein the foam cotton head 2 is generally composed of foam cotton and a cotton clamp, and the foam cotton can be collodion cotton, sponge and the like.

The foam cotton head 2 is rotationally connected to the lower end of the mop rod 1, the mop rod 1 is provided with an extrusion device capable of sliding relative to the mop rod, the foam cotton head 2 can be rotated to the length direction L of the foam cotton head 2 to be basically parallel to the mop rod 1 and aligned with the water extrusion device, when water is extruded, the water extrusion device slides up and down along the length direction L of the foam cotton head 2 and extrudes the left side and the right side of the foam cotton head 2 so as to realize water extrusion, and when mopping, the foam cotton head 2 is completely separated from the water extrusion device.

The wringing device in this embodiment includes: the squeezing handle 3 is arranged on the mop rod 1, the squeezing handle 3 and the mop rod 1 can slide up and down relatively, the squeezing handle 3 is connected with a squeezing head 5 through a connecting rod 4, the squeezing head 5 is provided with a through hole X for the foaming cotton head 2 to pass through, the left inner wall and the right inner wall of the through hole X are gradually inclined inwards from bottom to top, so that the opening of the through hole X is gradually reduced from bottom to top, and an extrusion part for extruding the left side and the right side of the foaming cotton head 2 passing through the through hole X is arranged in the through hole X; the foam cotton head 2 rotates to the position where the side surface M of the foam cotton head 2 is aligned with the through hole X during water squeezing, the foam cotton head 2 enters and extrudes the left side and the right side of the foam cotton head 2 through the through hole X through the extrusion parts so as to realize water squeezing, and the foam cotton head 2 is completely separated from the through hole X during mopping.

The squeezing parts in this embodiment are squeezing rollers 6 rotatably connected to the left and right sides of the inside of the through hole X, and the left and right sides of the foam cotton head 2 are squeezed by the squeezing rollers 6 during squeezing.

The connecting rod 4 is partially coated on the mop rod 1, a guide screw 8 is fixed on the mop rod 1, a strip-shaped guide groove 9 matched with the guide screw 8 is arranged on the inner wall of the connecting rod 4 and the extrusion head 5, an elastic bayonet 81 used for being elastically clamped with the guide screw 8 is further arranged on the extrusion head 5, the mop rod 3 moves up to a mopping state, and the guide screw 8 is clamped into the elastic bayonet 10.

The lower end of the foam cotton head 2 penetrates into the penetrating opening X when the water squeezing head 5 is positioned at the low position, and the water squeezing head 5 transversely extends, so that the water squeezing head 5 can also serve as a base when the water squeezing head 5 is positioned at the low position, and the lower end of the foam cotton head 2 parallel to the mop rod 1 is inserted into the penetrating opening X and the mop can be vertically placed. After the water squeezing is completed, the whole mop (comprising the foam cotton head) can be vertically placed, so that the foam cotton on the foam cotton head is beneficial to airing, and the foam cotton cannot become dirty due to contact with the bottom surface again.

The foam cotton head 2 can only deflect back and forth relative to the mop rod 1, and meanwhile, a pre-pressing positioning structure is arranged between the mop rod 1 and the foam cotton head 2, and the pre-pressing positioning structure can pre-position the foam cotton head 2 at a mopping position and a squeezing position so as to ensure that the foam cotton head 2 cannot deflect easily at the mopping position and the squeezing position.

The lower end of the mop rod 1 is fixedly provided with a joint 18, the joint 18 is provided with a slot 181 with a flat opening, the middle of the top surface of the foam cotton head 2 is provided with a convex flat head 21, the flat head 21 is inserted into the slot 181 and is rotationally connected with the slot 18 through a rotating shaft 19, the pre-pressing positioning structure comprises an auxiliary positioning pin 22 which is arranged in the joint 18 and is supported by a supporting spring 20 to keep the downward movement trend, and the peripheral surface of the flat head 21 is provided with a first pit 211 and a second pit 212 which are matched with the auxiliary positioning pin 22; the auxiliary positioning pin 22 is inserted into the first pit 211 to realize first pre-pressing positioning when the foam cotton head 2 is in the mopping position, and the auxiliary positioning pin 22 is inserted into the second pit 212 to realize second pre-pressing positioning when the foam cotton head 2 is in the wringing position. The lower end of the auxiliary positioning pin 22 is provided with a roller 23 for cooperating with the first recess 211 and the second recess 212.

The up-down direction in this embodiment means along the length direction of the mop rod 1; the left-right direction refers to the width direction D of the foam head 2; the front-back direction is perpendicular to the left-right direction, i.e. the length direction of the foam cotton head 2 in the mopping state.

The working principle and the process of the embodiment are as follows:

squeezing water: the foam cotton head 2 is turned to be basically parallel to the mop rod 1 and opposite to the through hole X, the mop rod 3 is held by one hand, the mop rod 1 is held by the other hand, the mop rod 1 is pushed to slide up and down relative to the mop rod 1, and the foam cotton head 2 enters and extrudes water through the through hole X through the wringing rollers 6 on the two sides.

Mopping operation: the mop rod 3 is held by one hand, the mop rod 1 is held by the other hand, the upper pulling and squeezing handle 3 moves upwards to a high position relative to the mop rod 1 until the foam cotton head 2 is completely separated from the squeezing head 5, the squeezing handle 3 is positioned at a high position at the moment, the guide screw 8 is clamped into the elastic bayonet 10, so that the squeezing handle 3, the connecting rod 4 and the squeezing head 5 are fixed together in an auxiliary manner relative to the mop rod 1, and the foam cotton head 2 is completely separated from the squeezing head 5 during mopping, so that the foam cotton head 2 is movably connected to the lower end of the mop rod 1, and the foam cotton head 2 can deflect randomly during mopping, so that the operation is more comfortable and reasonable.

As shown in fig. 8 and 9, a second embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the extrusion part is a water extrusion lug 7 fixed on the left inner side wall and the right inner side wall of the through hole X, and the section surface of the water extrusion lug 7 is arc-shaped.

As shown in fig. 10 and 11, a third embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the squeezing component is a squeezing convex block 7 which is respectively restrained on the left inner side wall and the right inner side wall of the through hole X and can slide left and right, the section surface of the squeezing convex block 7 is arc-shaped, the back surface of the squeezing convex block 7 is provided with a supporting spring 71, and the supporting spring 71 acts on the squeezing convex block 7 to keep the inward moving trend.

As shown in fig. 12 and 13, a fourth embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the extrusion part is a squeezing lug 7 which is respectively restrained at the left side and the right side of the through hole X and can slide up and down, guide blocks 72 are arranged at the front side and the rear side of the squeezing lug 7, a chute 73 which is gradually inclined inwards from bottom to top is arranged on the corresponding inner wall of the through hole X, the guide blocks 72 are positioned in the chute 73 and can slide, the squeezing lug 7 slides inwards upwards to gradually close the two opposite squeezing lugs 7 in the process of moving up the foaming cotton head 2 relative to the through hole X, and the squeezing lug 7 slides outwards downwards to gradually separate the two opposite squeezing lugs 7 in the process of moving down the foaming cotton head 2 relative to the through hole X.

As shown in fig. 14 and 15, a fifth embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the connecting rod 4 is two metal poles that control the interval setting, and the upper end and the wringing handle 3 of each connecting rod 4 are connected, and the lower extreme and the wringing head 5 of each connecting rod 4 are connected, and the 5 cover of wringing head is established on mop pole 1, is fixed with guide screw 8 on the mop pole 1, is equipped with the bar guide slot 9 that matches with guide screw 8 on the interior pore wall of wringing head 5, still is equipped with on the wringing head 5 to be used for with the elasticity bayonet socket 10 of guide screw 8 elasticity block, moves to the mopping state on wringing handle 3, guide screw 8 block into elasticity bayonet socket 10.

As shown in fig. 16 to 19, a sixth embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the connecting rod 4 is partially coated on the mop rod 1, a locking structure capable of being locked or unlocked with the mop rod 1 is arranged between the water squeezing handle 3 and the mop rod 1, the water squeezing handle 3 is locked on the mop rod 1 by the locking structure in a state that the foaming cotton head 2 is completely separated from the water squeezing head 5, the water squeezing handle 3 can slide relative to the mop rod 1 after unlocking, a holding sleeve 13 capable of sliding up and down relative to the connecting rod 4 is sleeved outside the connecting rod 4, and the holding sleeve 13 is fixed with the mop rod 1. The locking structure comprises a button 15, the middle part of the button 15 is hinged on a wringing handle 3, the front end of the button 15 is provided with a downward extending bolt 151, the wringing handle 3 is provided with a first positioning hole 3a for the bolt 151 to pass through, the mop rod 1 is provided with a second positioning hole 3b for the bolt 151 to insert, the lower part of the rear end of the button 15 is provided with a spring 14, and the spring 14 acts on the rear end of the button 15 to enable the bolt 151 at the front end of the button 15 to be inserted into the first positioning hole 3a and the second positioning hole 3b to keep locking.

As shown in fig. 20 and 21, a seventh embodiment of the present utility model is shown.

The present embodiment differs from the first embodiment in that: the mop rod 1 consists of an upper rod 11 and a lower rod 12, the upper end of the lower rod 12 is movably arranged in the upper rod 11 in a penetrating way and can move up and down, the water squeezing handle 3 is fixed on the upper rod 11, the foam cotton head 2 is rotatably connected to the lower end of the lower rod 12, the water squeezing handle 3 is hinged with a driving handle 16, and the middle part of the driving handle 16 is connected with the lower rod 12 through a connecting rod 17.

While the preferred embodiments of the present utility model have been described in detail, it is to be clearly understood that the same may be varied in many ways by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (13)

1. The utility model provides a from squeezing water foaming cotton head mop, includes mop pole (1), foaming cotton head (2), its characterized in that: the foam cotton head (2) is movably connected to the lower end of the mop rod (1), the mop rod (1) is provided with an extrusion device capable of sliding along the mop rod, the foam cotton head (2) can be rotated to the length direction (L) of the foam cotton head and the mop rod (1) to be basically parallel and aligned with the extrusion device, when water is extruded, the extrusion device slides along the length direction (L) of the foam cotton head (2) and extrudes the left side and the right side of the foam cotton head (2) to realize water extrusion, and when the mop is used for mopping, the foam cotton head (2) is completely separated from the extrusion device;

the foam cotton head (2) can only deflect forwards and backwards relative to the mop rod (1), meanwhile, a pre-pressing positioning structure is arranged between the mop rod (1) and the foam cotton head (2), and the pre-pressing positioning structure can pre-position the foam cotton head (2) at a mopping position and a water squeezing position so as to ensure that the foam cotton head (2) cannot deflect easily at the mopping position and the water squeezing position;

the mop is characterized in that a connector (18) is fixed at the lower end of the mop rod (1), the connector (18) is provided with a slot (181) with a flat opening, a raised flat head (21) is arranged in the middle of the top surface of the foam cotton head (2), the flat head (21) is inserted into the slot (181) and is rotationally connected with the slot (181) through a rotating shaft (19), the pre-pressing positioning structure comprises an auxiliary positioning pin (22) which is arranged in the connector (18) and is supported by a supporting spring (20) to keep a downward movement trend, and a first pit (211) and a second pit (212) which are matched with the auxiliary positioning pin (22) are arranged on the peripheral surface of the flat head (21); the foam cotton head (2) is in the state of mopping the floor the position, auxiliary locating pin (22) inserts in first pit (211) and realizes first pre-compaction location, foam cotton head (2) is in the state of squeezing the water position, auxiliary locating pin (22) inserts in second pit (212) and realizes second pre-compaction location.

2. The self-wringing foam cotton head mop of claim 1, wherein: the squeezing device comprises a squeezing handle (3) arranged on the mop rod (1), the squeezing handle (3) and the mop rod (1) can slide up and down relatively, the squeezing handle (3) is connected with a squeezing head (5) through a connecting rod (4), the squeezing head (5) is provided with a penetrating opening (X) through which the foam cotton head (2) penetrates, and squeezing components used for squeezing the left side and the right side of the foam cotton head (2) penetrating through the penetrating opening (X) are arranged in the penetrating opening (X); when squeezing water, the foam cotton head (2) rotates to the alignment position of the side surface (M) and the penetrating opening (X), the foam cotton head (2) enters and extrudes the left side and the right side of the foam cotton head (2) through the penetrating opening (X) through the extrusion part so as to squeeze water, and when mopping, the foam cotton head (2) is completely separated from the penetrating opening (X).

3. The self-wringing foam cotton head mop of claim 2, wherein: the squeezing part is a squeezing roller (6) which is rotationally connected to the left side and the right side in the through hole (X), and the left side and the right side of the foam cotton head (2) are squeezed by the squeezing roller (6) during squeezing.

4. The self-wringing foam cotton head mop of claim 2, wherein: the extrusion part is a water extrusion convex block (7) on the left inner side wall and the right inner side wall of the fixed through hole (X).

5. The self-wringing foam cotton head mop of claim 2, wherein: the extrusion part is a water extrusion lug (7) which is respectively restrained on the left inner side wall and the right inner side wall of the through hole (X) and can slide left and right, the back surface of the water extrusion lug (7) is provided with a supporting spring (71), and the supporting spring (71) acts on the water extrusion lug (7) to keep the trend of inwards moving.

6. The self-wringing foam cotton head mop of claim 2, wherein: the extrusion part is a water extrusion lug (7) which is respectively restrained at the left side and the right side of the penetrating opening (X) and can slide up and down, guide blocks (72) are arranged at the front side and the rear side of the water extrusion lug (7), a chute (73) which is gradually inclined inwards from bottom to top is formed in the corresponding inner wall of the penetrating opening (X), the guide blocks (72) are positioned in the chute (73) and can slide, the water extrusion lug (7) slides upwards and inwards to gradually close the two opposite water extrusion lugs (7) in the upward moving process of the foaming cotton head (2) relative to the penetrating opening (X), and the water extrusion lug (7) slides downwards and outwards to gradually separate the two opposite water extrusion lugs (7) in the downward moving process of the foaming cotton head (2) relative to the penetrating opening (X).

7. The self-wringing foam cotton head mop of claim 2, wherein: the mop is characterized in that the connecting rod (4) is partially coated on the mop rod (1), a guide screw (8) is fixed on the mop rod (1), a strip-shaped guide groove (9) matched with the guide screw (8) is formed in the inner wall of the connecting rod (4) and the inner wall of the squeezing head (5), an elastic bayonet (10) which is elastically clamped with the guide screw (8) is further formed in the squeezing head (5), the mop handle (3) moves to a mopping state, and the guide screw (8) is clamped into the elastic bayonet (10).

8. The self-wringing foam cotton head mop of claim 2, wherein: the mop is characterized in that the connecting rods (4) are two metal rods which are arranged at left and right sides at intervals, the upper ends of the connecting rods (4) are connected with the squeezing handles (3), the lower ends of the connecting rods (4) are connected with the squeezing heads (5), the squeezing heads (5) are sleeved on the mop rod (1), guide screws (8) are fixed on the mop rod (1), strip-shaped guide grooves (9) matched with the guide screws (8) are formed in the inner hole walls of the squeezing heads (5), elastic bayonets (10) which are elastically clamped with the guide screws (8) are further arranged on the squeezing heads (5), and the squeezing handles (3) move to a mopping state, and the guide screws (8) are clamped into the elastic bayonets (10).

9. The self-wringing foam cotton head mop of claim 2, wherein: the mop is characterized in that the connecting rod (4) is partially coated on the mop rod (1), a locking structure capable of being locked or unlocked with the mop rod (1) is arranged between the wringing handle (3) and the mop rod (1), the wringing handle (3) is locked on the mop rod (1) through the locking structure under the condition that the foaming cotton head (2) is completely separated from the wringing head (5), the wringing handle (3) can slide relative to the mop rod (1) after unlocking, a holding sleeve (13) capable of sliding up and down relative to the connecting rod (4) is sleeved outside the connecting rod (4), and the holding sleeve (13) is fixed with the mop rod (1).

10. The self-wringing foam cotton head mop of claim 9, wherein: the locking structure comprises a button (15), the middle part of the button (15) is hinged on a wringing handle (3), a bolt (151) extending downwards is arranged at the front end of the button (15), a first positioning hole (3 a) for the bolt (151) to pass through is arranged on the wringing handle (3), a second positioning hole (3 b) for the bolt (151) to insert is arranged on a mop rod (1), a spring (14) is arranged below the rear end of the button (15), and the spring (14) acts on the rear end of the button (15) to enable the bolt (151) at the front end of the button (15) to be inserted into the first positioning hole (3 a) and the second positioning hole (3 b) to be locked.

11. The self-wringing foam cotton head mop of claim 1, wherein: the mop rod (1) is composed of an upper rod (11) and a lower rod (12), the upper end of the lower rod (12) is movably arranged in the upper rod (11) in a penetrating mode and can move up and down, the water squeezing handle (3) is fixed on the upper rod (11), the foaming cotton head (2) is rotationally connected to the lower end of the lower rod (12), the water squeezing handle (3) is hinged to a driving handle (16), and the middle of the driving handle (16) is connected with the lower rod (12) through a connecting rod (17).

12. The self-wringing foam cotton head mop of claim 2, wherein: the lower end of the foam cotton head (2) penetrates into the through hole (X) when the water squeezing head (5) is located at a low position, the water squeezing head (5) transversely extends, so that the water squeezing head (5) can be used as a base when the water squeezing head (5) is located at a low position, the lower end of the foam cotton head (2) parallel to the mop rod (1) is inserted into the through hole (X), and the mop can be vertically placed.

13. The self-wringing foam cotton head mop of claim 11, wherein: the lower end of the auxiliary locating pin (22) is provided with a roller (23) matched with the first pit (211) and the second pit (212).