CN215534105U - Cotton head mop kit and cotton head mop - Google Patents

Abstract

The utility model discloses a cotton head mop kit and a cotton head mop, wherein the kit comprises the cotton head mop and a water squeezing barrel, the cotton head mop comprises a mop panel and a cotton head, the cotton head can be compressed along the length direction of the mop panel, and the cotton head mop is provided with a limiting part for limiting excessive water squeezing. By the mode, the problem that the mop is limited before the water squeezing limit is solved, a certain gap is reserved between the installation blocks of the mop without collision, so that the service life of the installation blocks bonded with the cotton head is overcome, and the mop has longer service life.

Description

Cotton head mop kit and cotton head mop

Technical Field

The utility model relates to a mop tool, in particular to a cotton head mop kit and a cotton head mop.

Background

At present, the use of collodion mops in the market is continuously developing towards cleaning and convenience, and particularly the water squeezing function of the collodion mops is continuously improved. Such as folding and squeezing, squeezing on both sides. More recent water squeezing methods are more abundant, for example, CN107616764A discloses a cotton head mop, which comprises a mop rod and a cotton head, wherein the cotton head is movably connected at the lower end of the mop rod, the mop rod is provided with a squeezing device capable of sliding along the mop rod, and the cotton head can be rotated to a length direction which is basically parallel to the mop rod and aligned with the water squeezing device. Chinese patent document CN208988754U discloses a foam cotton head mop wringing device, which uses another bucket as the wringing device, so that the wringing component does not need to be on the mop rod all the time. However, when the foam cotton head is squeezed, the foam cotton head needs to be squeezed and slid, so that the foam cotton head is easily damaged and is not easy to squeeze water, and the use experience of a user is influenced. In recent years, CN110772190 discloses a novel water squeezing method, which squeezes water through sliding along the length direction of a cotton head, and a plurality of mounting blocks are fixed on the cotton head in an adhering manner. Therefore, the cotton mop is popular in the market because of its simple and easy operation.

Disclosure of Invention

The inventor finds that the squeezing mode of the cotton head self deformation in the length aspect leads to the collision between the mounting blocks which are fixedly bonded with the cotton head under the condition of squeezing limit, and particularly leads to the tearing of the bonding part of the mounting blocks when the force is improper, thus influencing the service life of the mop. In view of this, the present invention provides a restricting mechanism that can restrict wringing of a mop from collision between mounting blocks, thereby extending the service life of the mop.

The utility model also provides a cotton head mop kit, which comprises a cotton head mop and a water squeezing barrel, wherein the cotton head mop comprises a mop panel and a cotton head, the upper surface of the mop panel can be rotatably connected with the mop rod, at least one sliding guide part is arranged below the mop panel, at least two mounting blocks are arranged on the cotton head, and the at least one mounting block can be matched with the sliding guide part to realize that the mounting block can slide along the sliding guide part. If a plurality of mounting blocks are arranged, the mounting blocks can be uniformly designed in the length direction of the cotton head at intervals, and preferably, the mounting blocks are arranged at two ends; the opening of the water squeezing barrel is provided with a water squeezing opening, the water squeezing opening can be used for the mop panel to pass through along the length direction of the mop panel, and one edge of the water squeezing opening forms a leaning part for blocking the cotton head.

In a specific embodiment, the sliding guide member is a sliding rod, specifically two parallel circular sliding rods, and the mounting block has two circular arc-shaped grooves that can be respectively sleeved on the two parallel sliding rods. In this mode, the two slide bars are preferable, and are more preferable in a circular shape, and the corresponding grooves on the mounting block are circular arc-shaped, so that the mounting block is more easily slid during mounting and dismounting, and the sliding resistance is less.

In a preferable mode, the limiting part for limiting excessive water squeezing on the cotton head mop is positioned on the upper surface of the mop panel, and the limiting abutting part matched with the limiting abutting part in the bucket in the water squeezing opening area of the water squeezing bucket is a component (corresponding to a U shape) with a bottom, wherein the water squeezing opening is sunken relative to the other side of the abutting part in the bucket. When the mop head is squeezed, the mop head is pressed downwards at the squeezing opening, the cotton head is compressed and deformed along the length direction under the guidance of the mounting block, when the maximum stroke is reached, the limiting part for limiting excessive squeezing is contacted with the limiting abutting part (namely the limiting part abuts against the bottom of the concave part, namely the bottom of the U-shaped part), and the cotton head is further compressed, so that the collision between the mounting blocks is avoided. When the water is squeezed downwards to reach the preset maximum stroke, the gap distance of each mounting block can be determined according to the requirement, for example, the gap distance can be 2-20 mm, preferably 3-5 mm and the like, so as to determine the position of the limiting part on the cotton head mop and/or the concave depth of the limiting interference part matched with the limiting part in the bucket. In a more specific embodiment, the limiting part is a protruding part on the upper surface of the mop panel, or a part of the mop panel, which is rotatably connected with the mop rod, is used as the limiting part.

In a preferred further embodiment, the restriction to excessive squeezing is located on the mop rod and is formed by a protrusion on the side of the mop rod away from the mop panel when rotated parallel to the mop panel, and a corresponding mating restriction abutment is provided directly at the squeezing opening. It is determined by squeezing water to a preset maximum travel distance, which may be parallel or substantially parallel to the abutment at the squeezing port for abutment against the mop head end mounting block.

In a preferred further embodiment, the restriction part for restricting the excessive squeezing of the cotton head mop is located on a protruding part on the upper surface of the mop panel or a rotatable connection part of the mop panel and the mop rod as the restriction part, and the restriction interference part matched with the restriction part in the bucket of the squeezing water outlet area of the squeezing bucket is a platform protruding from the side surface of the bucket to a corresponding position, but more preferably a boss protruding from the bottom of the bucket at the corresponding position, and the latter is more durable than the protruding part. When carrying out crowded water to the mop head, the mop head pushes down at crowded water mouthful, and cotton head is along length direction compression variant under the direction of installation piece, and when reaching the biggest stroke, restriction portion and restriction conflict portion contact (restriction portion supports and leans on the top of restriction conflict portion promptly, the top of platform or boss promptly), and restriction cotton head is by further compression, therefore avoids the collision between the installation piece. When the water is squeezed downwards to reach the maximum stroke, the gap distance of each mounting block can be determined according to the requirement, for example, the gap distance can be 2-20 mm, preferably 3-5 mm, and the like, so as to determine the position of the limiting part on the cotton head mop and/or the height of the platform or the boss of the limiting interference part matched with the limiting part in the bucket. As in the previous embodiment, the restricting portion is the end of the mop panel, and the cooperating restricting interference portion in the barrel in the area of the squeezing opening of the squeezing barrel is a platform protruding from the side of the barrel to a corresponding position, but more preferably a boss protruding from the bottom of the barrel at a corresponding position, the latter being more robust and durable than the former.

The mop plate may be rotatably connected to the mop pole by a connecting member, such as a first recess and at least one second recess, on the surface of the connecting member; the connecting rod is arranged on the mop rod and is hinged with the connecting piece; the spring and the pressing piece are arranged inside the connecting rod, so that the pressing piece can be kept in contact with the connecting piece by virtue of the elasticity of the spring; when the pressing piece enters the first recess, the mop panel and the mop rod are perpendicular to each other; when the pressing member enters the second recess, the mop panel and the mop rod are parallel to each other, and the specific structure can also be seen from the corresponding structure described in CN 211633152U.

Besides the above-mentioned limiting interference part, the structure of the water squeezing bucket can also adopt a known proper water squeezing bucket, for example, the water squeezing opening can only accommodate the mop panel to pass through; except the water squeezing opening, the water squeezing device is also provided with a cleaning opening, or the water squeezing opening and the cleaning opening are partially overlapped to save space, and the like.

The cotton head mop head of the utility model is suitable for a mode of squeezing and squeezing water in a sliding deformation mode in the length direction (single side or double sides) of the cotton head of the mop, wherein the mounting block can be shortened in the length direction due to the compression of external force to squeeze water (the specific structure of the mop head is disclosed in CN110772190, for example). The specific material of the cotton head is not particularly limited, and may be made of, for example, collodion, sponge, foam, cloth, or the like, or a combination thereof.

The utility model provides a cotton head mop, which comprises a mop panel and a cotton head, wherein the upper surface of the mop panel can be rotatably connected with a mop rod, at least one sliding guide part is arranged below the mop panel, at least two mounting blocks are arranged on the cotton head, and each mounting block is provided with at least one mounting block which can be matched with the sliding guide part so as to realize that the mounting block can slide along the sliding guide part; if a plurality of installation blocks are arranged, the installation blocks can be uniformly designed in the length direction of the cotton head at intervals. The installation block at the end head of the slidable end of the cotton head mop is provided with an extension block extending towards the mop panel, the mop panel is provided with side walls towards two sides of the cotton head direction, and the height of the movable area of the installation block at the most end head, which corresponds to the side walls, is lower than that of other areas, so that the extension block can be blocked from further movement when water squeezing reaches a preset maximum stroke. The cotton-tipped mop of the embodiment can realize the limiting during the water squeezing, so that a water squeezing bucket is not needed during the water squeezing.

The limiting part for limiting excessive wringing and the limiting abutting part matched with the limiting part can avoid excessive stroke during wringing, so that collision between the mounting blocks is avoided, and the service life of the mop is prolonged.

Drawings

FIG. 1 is a schematic view of a mop with a cotton head according to the present invention.

Fig. 2 is a cross-sectional view of a cotton head mop head suitable for use with the present invention (showing the slide bar and mounting block in a schematic view).

Fig. 3 is a schematic view of a cotton head mop kit according to a first embodiment of the present invention (showing a schematic view of a wringing operation).

Fig. 4 is a schematic view of a cotton head mop kit according to a first embodiment of the present invention (showing the water squeeze reaching a maximum stroke).

Fig. 5 is a schematic view of a cotton head mop kit according to a second embodiment of the present invention (showing the maximum stroke of squeezing).

Fig. 6 is a schematic view of a third embodiment of the utility model showing a cotton mop kit (showing the maximum stroke of squeezing).

Fig. 7 is a partial structural view and a partial structural enlarged view of a cotton head mop according to a fourth embodiment of the present invention (showing a schematic view when water squeezing reaches a maximum stroke).

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention is described in further detail with reference to the accompanying drawings and specific embodiments. While exemplary embodiments are shown in the drawings, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the utility model to those skilled in the art.

Example one

Referring to fig. 1, the upper surface of a mop panel 4 of a mop head of a cotton head 1 can be connected with a mop rod, at least one sliding rod 3 is fixedly arranged along the length direction below the mop panel 4, at least two mounting blocks 2 are arranged on the cotton head 1, the mounting blocks 2 can be uniformly arranged on the cotton head 1 at intervals, and the mounting blocks 2 are provided with arc-shaped grooves capable of being sleeved on the rod, so that the mounting blocks 2 can slide along the rod. In this embodiment, the two circular sliding rods 3 are provided, and the mounting block 2 corresponds to the two circular arc grooves. It will be understood by those skilled in the art that the cross-sectional shape of the sliding rod 3 may be various, and is not limited to circular, and may be, for example, square or rectangular, or may be a T-shaped protrusion (corresponding to the corresponding shape of the groove on the mounting block 2).

The two sides of the lower surface of the mop panel 4 extend downwards to form side walls, a fixing part 6 for fixing the sliding rod 3 is respectively formed on each side wall, and a fulcrum can be arranged in the middle to prevent the sliding rod 3 from swinging left and right when the mop is used for mopping the floor. The wrapping surface of the fixing part 6 slightly exceeds the semicircle of the sliding rod 3, and the wrapping surfaces of the mounting block 2 corresponding to the two arc-shaped grooves are slightly smaller than the semicircle of the sliding rod 3, and the specific matching relationship is shown in fig. 2. In this way, the mounting block 2 can slide freely along the slide bar 3 when not in the locked state.

As shown in fig. 3, the mop and water squeezing barrel set of the embodiment has a structure diagram showing a state that the mop rod 5 is parallel to the mop panel 4 and is used for water squeezing operation, the barrel mouth of the water squeezing barrel 7 is provided with a water squeezing opening 8, the water squeezing opening 8 is used for water squeezing of the mop, and the cotton head of the mop is compressed in length due to the abutting of the abutting part 12. The mop panel is provided with a limiting part 9 (which can be a part protruding from the upper surface of the mop panel) for limiting excessive water squeezing, a correspondingly matched limiting abutting part 10 is a downward recess positioned in the water squeezing opening, and the bottom of the recess is used for abutting against the limiting abutting part 10 when downward water squeezing reaches a preset maximum stroke, so that the purpose of the utility model is achieved.

Fig. 4 shows a schematic view of the maximum stroke of squeezing, in which the limiting part 9 for limiting excessive squeezing is stopped by the corresponding limiting abutting part 10, and further squeezing movement is prevented, and there is a gap between the mounting blocks without mutual collision.

Example two

The main structure of the cotton-tipped mop and the water squeezing bucket of the embodiment is the same as that of the first embodiment, but the limiting and abutting part 10 matched with the limiting part 9 for limiting excessive water squeezing is different. In the present embodiment, as shown in fig. 5, the state diagram when the maximum stroke of squeezing water is reached is shown, wherein the restriction part 9 for restricting excessive squeezing water is formed by a protrusion on one side of the mop rod 5 away from the mop panel when being parallel to the mop panel, and a corresponding matched restriction abutting part 10 is directly arranged at the squeezing port, which is determined according to the maximum stroke distance of squeezing water, and can be parallel or substantially parallel to the abutting part 12 at the squeezing port for abutting against the end of the mop cotton head. As shown in fig. 5, when the water squeezing reaches the maximum stroke, the limiting part 9 for limiting the excessive water squeezing is blocked by the corresponding limiting abutting part 10, so as not to further squeeze and move downwards, and gaps exist among the installation blocks, so that the installation blocks cannot collide with each other.

EXAMPLE III

The main structure of the cotton-tipped mop and the water squeezing bucket of the embodiment is the same as that of the first embodiment, but the limiting and abutting part 10 matched with the limiting part 9 for limiting excessive water squeezing is different. The embodiment is shown in fig. 6, wherein the limiting part 9 for limiting excessive squeezing is a tip at the sliding end of the mop panel, and the corresponding limiting abutting part 10 is a boss (as shown in the figure) protruding from the bottom of the bucket in the squeezing opening area of the squeezing bucket and at the corresponding position, or a platform (not shown in the figure) protruding from the side of the bucket. When squeezing the cotton head of mop, when the cotton head of mop pushes down at the mouth of squeezing the water, the cotton head compresses the variant along length direction under the direction of installation piece, when reaching the biggest stroke, restriction crowded excessive restriction 9 of water contacts with restriction conflict 10 (restriction portion supports and leans on the top of restriction conflict, the top of platform or boss promptly), and restriction cotton head is further compressed, therefore avoids the collision between the installation piece.

Example four

As shown in figure 7, the main structure of the cotton head mop is basically the same as that of the first embodiment, but the limiting part 9 for limiting excessive water squeezing and the limiting abutting part 10 are arranged differently and are arranged on the mop head, and the purpose of the utility model can be realized without the cooperation of a water squeezing bucket. Specifically, the limiting part 9 for limiting the excessive squeezing is an extending block extending towards the mop panel direction from the mounting block at the most end of the sliding end, and the limiting abutting part 10 is formed by two side walls 11 extending towards the cotton head from the mop panel in the length direction, specifically, the height of the two side walls 11 of the mop panel in the free movable range of the limiting part 9 for limiting the excessive squeezing is lower, and at the maximum squeezing stroke, the height of the two side walls 11 of the mop panel is increased to form a ladder platform which is used as the limiting abutting part 10 for blocking the limiting part 9 for limiting the excessive squeezing, so that the purpose of preventing the cotton head from further deforming and avoiding the mutual collision of the mounting blocks is achieved. The cotton-tipped mop of this embodiment can realize spacingly when crowded water by oneself, therefore can not need crowded cask during crowded water, for example can lean on the slip end of the cotton-tipped mop of cotton-tipped mop in washing bucket edge, pond edge, step edge etc. press the mop panel downwards, make the slip of wiping portion produce deformation along the mop panel because of the slip end is extrudeed, can extrude the moisture in wiping portion, when reaching preset maximum stroke, restriction conflict 10 contacts and blocks the further motion of restriction crowded water excessive restriction 9.

Claims (10)

1. A cotton head mop kit comprises a cotton head mop and a water squeezing barrel, wherein the cotton head mop comprises a mop panel and a cotton head, the upper surface of the mop panel can be rotatably connected with a mop rod, at least one sliding guide part is arranged below the mop panel, at least two mounting blocks are arranged on the cotton head, and the at least one mounting block can be matched with the sliding guide part to realize that the mounting blocks can slide along the sliding guide part; the opening of the water squeezing barrel is provided with a water squeezing opening, the water squeezing opening can be used for the mop panel to pass through along the length direction of the mop panel, one edge of the water squeezing opening forms a leaning part for blocking the sliding end of the cotton head to enable the cotton head to be compressed along the length direction, the cotton head mop is characterized in that the cotton head mop is provided with a limiting part for limiting excessive water squeezing, a limiting abutting part matched with the cotton head mop is arranged in the barrel of the water squeezing opening area of the water squeezing barrel, and when the cotton head reaches a preset maximum stroke, the limiting part for limiting excessive water squeezing is blocked by the limiting abutting part matched with the cotton head mop.

2. The cotton head mop kit according to claim 1, wherein the sliding guide member is a sliding rod, and the mounting block has two circular arc grooves capable of being respectively sleeved on two parallel sliding rods.

3. The cotton head mop kit as claimed in claim 1, wherein the restriction part for restricting the excessive squeezing of the cotton head mop is located on the upper surface of the mop panel, and the restriction interference part matched with the restriction part in the bucket in the squeezing water outlet area of the squeezing bucket is a U-shaped component with a bottom, the squeezing water outlet of the U-shaped component is recessed relative to the other side of the abutting part in the bucket.

4. The cotton head mop kit as claimed in claim 3, wherein the restriction to excessive squeezing is a protruding part of the upper surface of the mop panel or a rotatable connection of the mop panel and the mop rod.

5. The cotton head mop kit as claimed in claim 3, wherein the restriction for restricting the excessive squeezing is located on the mop rod and is formed by a protrusion on the mop rod at a side far from the mop panel when rotated parallel to the mop panel, and a matching restriction interference part is provided at the squeezing port, and the restriction for restricting the excessive squeezing is blocked by the matching restriction interference part when the cotton head is squeezed downward to a maximum stroke.

6. The cotton head mop kit as claimed in claim 1, wherein the restriction part for restricting the excessive squeezing of the cotton head mop is located at the end of the mop panel, and the restriction abutting part matched with the restriction part in the barrel in the squeezing port area of the squeezing barrel is a platform protruding from the side surface of the barrel to the corresponding position or a boss protruding upwards from the bottom of the barrel at the corresponding position, and the restriction part for restricting the excessive squeezing of the cotton head is blocked by the matched restriction abutting part when the cotton head is squeezed downwards to the maximum stroke.

7. The cotton head mop kit according to any one of claims 1 to 6, wherein the mop panel is provided with a connector for mounting a mop rod, and the surface of the connector is provided with a first recess and at least one second recess; the connecting rod is arranged on the mop rod and is hinged with the connecting piece; the spring and the pressing piece are arranged inside the connecting rod, so that the pressing piece can be kept in contact with the connecting piece by virtue of the elasticity of the spring; when the pressing piece enters the first recess, the mop panel and the mop rod are perpendicular to each other; when the pressing piece enters the second recess, the mop panel and the mop rod are parallel to each other.

8. The cotton head mop kit as claimed in any one of claims 1 to 6, wherein a detachable wringing rack is arranged at the position of the wringing bucket opening, and the wringing opening is arranged on the wringing rack.

9. The utility model provides a cotton first mop, includes mop panel and cotton head, the upper surface of mop panel can with mop pole rotatable coupling, be provided with at least one sliding guide part below the mop panel, cotton overhead at least two installation pieces that are equipped with, at least one installation piece can cooperate with sliding guide part in order to realize that the installation piece can slide along sliding guide part, its characterized in that, the installation piece of the slidable end head of cotton first mop has the extension piece that extends to the mop panel, and the mop panel has the lateral wall towards cotton first direction both sides the installation piece of end can the regional corresponding to of activity the height of lateral wall is less than other regional heights, therefore can block when crowded water reaches preset maximum stroke extension piece and then prevent that the cotton head is further compressed.

10. The cotton head mop as claimed in claim 9, wherein the mop faceplate is provided with a connector for mounting a mop rod, and the connector has a first recess and at least one second recess on its surface; the connecting rod is arranged on the mop rod and is hinged with the connecting piece; the spring and the pressing piece are arranged inside the connecting rod, so that the pressing piece can be kept in contact with the connecting piece by virtue of the elasticity of the spring; when the pressing piece enters the first recess, the mop panel and the mop rod are perpendicular to each other; when the pressing piece enters the second recess, the mop panel and the mop rod are parallel to each other.

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