CN214906507U - Water-proof cotton-head mop - Google Patents

Abstract

The utility model discloses a water-proof cotton head mop, which comprises a mop panel and a cotton head, wherein the upper surface of the mop panel can be connected with a mop rod, a sliding guide part is arranged below the mop panel, and an installation block is arranged on the cotton head and can be matched with the sliding guide part to realize that the installation block can slide along the sliding guide part; the end face of the non-sliding end of the cotton head is provided with the extrusion plate, and the front side and the two sides of the extrusion plate are provided with end faces which can not be extruded and blocked by the extrusion plate, so that the bonding part of the extrusion plate and the cotton head can be prevented from catching water outwards during water extrusion. Furthermore, a drainage structure is also arranged during water squeezing. The problem that the mop can nourish water during squeezing can be solved through the mode, and further drainage can be carried out, so that squeezing is convenient to operate, the use experience of a user is improved, and the service life of the mop can be prolonged.

Description

Water-proof cotton-head mop

Technical Field

The utility model relates to a cleaning appliance, in particular to a mop, and more particularly relates to a water-proof 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 comprises squeezing water through sliding the cotton head in the length direction, wherein a plurality of mounting blocks are fixed on the cotton head in a bonding manner, and the water squeezing operation can be realized by using another barrel or without using other outer barrels. Therefore, the cotton mop is popular in the market because of its simple and easy operation. There is still a need for further improvements in the use experience, service life, or in some areas.

Disclosure of Invention

The inventor finds that in the water squeezing mode of the mop, when the cotton head deforms in the length direction, particularly when the water squeezing operation is required to be completed quickly during water squeezing, water is easy to be gathered, namely, the squeezed water is gathered from the periphery of the upper end face of the cotton head, so that the environment or a human shoe MEI and the like are easy to pollute. Further, it is found that the resistance is relatively large when water is squeezed quickly, which affects the user's experience, and that water is not discharged smoothly and easily when water is squeezed.

In view of the above two problems, the present inventors have purposefully proposed solutions to solve the problem of water-retaining (i.e., having a function of preventing water-retaining), so as to further squeeze water and guide water flow to facilitate the squeezing operation, and also to prolong the service life of the mop.

The utility model provides a cotton head mop, it includes mop panel and cotton head, the upper surface of mop panel can be connected with the mop pole, be provided with at least one sliding guide part below the mop panel, cotton overhead two at least 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 follow sliding guide part and slide, and wherein, it is the slip end to drive gliding cotton head one end, and the other end is the non-slip end. If a plurality of mounting blocks are provided, the mounting blocks can be uniformly designed in the length direction of the cotton head at intervals, and the mounting blocks are preferably arranged at two ends. The novel cotton squeezing device is characterized in that the end face of the non-sliding end of the cotton head is provided with the squeezing plate, the end faces of the cotton head on the front side and the two sides of the squeezing plate are provided with end faces which can not be squeezed and blocked by the squeezing plate, so that when water is squeezed, the periphery of the end face of the cotton head which is not blocked by the squeezing plate is arched upwards under the action of squeezing force to exceed the wrapping effect of the squeezing plate on the squeezing plate, and further, the bonding part of the squeezing plate and the cotton head can be prevented from being wetted outwards. In a specific embodiment, the length direction of the pressing plate extends to be shorter than the height of the end face of the cotton head, and the width of the pressing plate is narrower than the width of the end face of the cotton head, so that two sides and the front end of the end face of the cotton head have parts which can not be blocked by the pressing plate in the pressing process, thereby achieving the purpose or the effect. More preferably, the pressing plate is integrally formed with the mounting block at the end of the cotton head; the two sides of the width direction of the extrusion plate are respectively narrower than the width of the end face of the cotton head by 2-8 mm.

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 another embodiment, the sliding guide part is a protrusion or a recess formed on each of the sidewalls of the mop panel, and the mounting block is i-shaped and has recesses or protrusions formed at both ends thereof, so that the mounting block can slide along the length of the mop panel in cooperation with the sliding guide part.

In a preferred embodiment, each mounting block is provided with one or more flow guide through holes or flow guide grooves parallel to the length direction of the cotton head. More preferably, the sliding end of the mop panel is provided with a plug for preventing the cotton head from exceeding the mop panel, and one or more water drainage holes or drainage grooves are also arranged on the sliding end of the mop panel; the end face of the sliding end is provided with a stress plate which is used as a stress surface when the sliding end is pressed against the stress plate during water squeezing. Further preferably, the guide through holes or the guide grooves of each mounting block are completely aligned with the drain holes or the drain grooves on the plugs of the mop panel, so that water drainage is easier.

In a preferred embodiment, the upper surface of the mop panel may be rotatably connected to a mop pole. 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.

The utility model discloses a cotton first mop head is applicable to the cotton first length direction (unilateral or two sides) slip deformation extrusion wringing's of mop mode, and wherein the installation piece can shorten at length direction because of external force pressurized and realize the wringing (its specific structure for example see the public mop head in CN 110772190). 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-tipped mop can not need the cooperation of bucket to realize crowded water, is about to the slip end of mop can be crowded water by pressing in a fixed prominent department (like mop pond border etc.), certainly also can cooperate with the bucket and crowd water, and known suitable crowded cask can be adopted to this kind of crowded cask, does not have special restriction. The utility model discloses also be applicable to the mop of crowded water simultaneously in long length direction both ends, then the design of the stripper plate at both ends satisfies above-mentioned requirement respectively, and is further, and the installation piece all is equipped with one or more water conservancy diversion through-holes or guiding gutter parallel with the length direction of cotton head, and the both ends of mop panel all can be the slip end, all are equipped with the end cap that is used for preventing cotton head to surpass the mop panel, are equipped with wash port or water drainage tank that also are equipped with one or more on it.

The utility model discloses a rationally set up the stripper plate, and reached the mop and avoided the effect of nourishing water when crowded water, the while further crowded water conservancy diversion structure that sets up more changes in crowded water operation, has made things convenient for the operation, has also improved user's use and has experienced, also can prolong the life of mop.

Drawings

Fig. 1 is an exploded view of the overall structure of a cotton mop according to an embodiment of the present invention.

Fig. 2 is a schematic view of a squeezing plate and a cotton head end face of a non-sliding end of a cotton head mop according to an embodiment of the present invention.

Fig. 3 is a front and rear schematic view of a cotton head mop according to a first embodiment of the present invention (the left view is a state without water squeezing, and the right view is a state with water squeezing).

Fig. 4 is a schematic view of a flow guiding through hole on the mounting block of the second embodiment of the present invention.

Fig. 5 is a schematic view of a mop with a drainage hole and a cotton head on a mop panel according to a third embodiment of the present invention.

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 invention to those skilled in the art.

Example one

Referring to the overall structure of the cotton head mop shown in 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, side walls 7 are symmetrically arranged on two sides of 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, for example, the mounting blocks 2 are I-shaped, the two ends of the mounting blocks are recessed, and the mounting blocks 2 can be respectively matched with the side walls 7 on two sides of the mop panel 4 in a protruding mode, so that the mounting blocks 2 can slide along the length of the mop panel 4. Or the two sides of the mounting block 2 are provided with protrusions, the side walls 7 at the two sides of the mop panel 4 are respectively provided with a recess, and the protrusions of the mounting block 2 are matched with the recesses on the side walls 7 at the two sides of the mop panel 4, so that the mounting block 2 can slide along the length of the mop panel 4. Of course, it is also possible to use known slide bars (e.g. circular slide bars) and their associated mounting blocks 2 (with circular recesses corresponding to the circular slide bars) to enable the mounting blocks to slide along the length of the mop faceplate.

As shown in fig. 2, a squeezing plate 6 is attached to the non-sliding end (the end opposite to the sliding end during squeezing) of the cotton mop for blocking the end surface of the cotton mop to squeeze the cotton mop during squeezing. Preferably, the end mounting block 2 of the cotton bud has a pressing plate 6 extending towards the end face of the cotton bud 1 (i.e. the pressing plate 6 and the end mounting block 2 can be integrally formed). The length of the length direction of the squeezing plate is shorter than the height of the end face of the cotton head 1, the width 10 of the squeezing plate 6 is narrower than the width 9 of the end face of the cotton head 1 in order to avoid water infiltration, and preferably, one side of the width of the squeezing plate 6 is narrower than the width of the end face of the cotton head 1 by 2-8 mm. Therefore, when water is squeezed, the end face of the cotton head 1 at the end is stressed by the squeezing force, the periphery which is not blocked by the squeezing plate 6 is arched upwards to exceed the squeezing plate 6, and the squeezing plate 6 is wrapped, so that the bonding part of the squeezing plate 6 and the cotton head 1 can be prevented from catching water outwards (as shown in fig. 3, namely the left figure is the state when water is not squeezed, and the right figure is the state when water is squeezed, and the periphery which is not blocked by the squeezing plate 6 is arched upwards to exceed the squeezing plate 6).

In order to further reduce the effect of water, the pressing plate may also have one or more through holes 8.

Example two

The main structure of the cotton head mop of the embodiment is basically the same as that of the first embodiment. The improvement is that the water-squeezing device is also provided with a water guide device when squeezing water. The structure is as follows: as shown in fig. 4, each mounting block 2 is provided with one or more flow guiding through holes 11 or flow guiding grooves parallel to the length direction of the cotton head 1 (in the figure, the flow guiding through hole 11 of the mounting block 2 is a complete rectangular through hole). After the arrangement, when the mop cotton head 1 is squeezed, the squeezed water can pass through the flow guide through holes 11, so that the mop cotton head is more beneficial to discharge, the squeezing is smoother, and the problem of water replenishing is also assisted to be reduced. Preferably, the flow guide through holes 11 of the respective mounting blocks 2 are completely aligned to allow smooth drainage during wringing.

EXAMPLE III

This embodiment is a further improvement of the second embodiment. As shown in fig. 5, the sliding end of the mop panel 4 is provided with a plug for preventing the cotton head 1 from exceeding the mop panel, and for better drainage, the plug of the sliding end is also provided with one or more drainage holes 12 or drainage grooves (3 drainage holes are shown in the figure), so that water flowing from the flow guide through hole 11 of the mounting block 2 can be discharged outwards through the drainage holes 12, so that the water can be more easily drained, the water squeezing operation is further smoother, and the use experience of a user is improved.

Fig. 5 also shows a preferred way in which the embodiments can be applied, i.e. the end of the sliding end is provided with a force plate 14 for acting as a force surface against which the sliding end is pressed during wringing. The length and/or width of the force-bearing plate 14 does not prevent the wiping portion from wiping the floor. The stress plate 14 can better generate a squeezing effect when being used for abutting against a squeezing sliding end, and in some embodiments, the stress plate 14 can be formed by integrally forming the mounting block 2 at the end part, namely the mounting block 2 extends towards the end face of the cotton head 1 to form the stress plate 13 (namely the mounting block 2 is integrally formed into an L shape), and the stress plate 14 is adhered with the end face of the end of the cotton head.

Claims (10)

1. A water-nourishing-prevention cotton head mop comprises a mop panel and a cotton head, wherein the upper surface of the mop panel can be 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, 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, one end of the cotton head driving the sliding is a sliding end, and the other end of the cotton head driving the sliding is a non-sliding end; the cotton squeezing device is characterized in that the end face of the non-sliding end of the cotton head is provided with a squeezing plate, the front side of the squeezing plate and the end faces of the cotton heads on the two sides of the squeezing plate are provided with parts which can not be squeezed and blocked by the squeezing plate, so that when water is squeezed, the end face of the cotton head is arched upwards under the action of squeezing force, the end face parts which are not blocked by the squeezing plate exceed the wrapping effect of the squeezing plate to form a pair of squeezing plates, and further, the bonding part of the squeezing plate and the cotton head can be prevented from being wetted outwards.

2. The anti-wet cotton head mop as claimed in claim 1, wherein the pressing plate has a length direction extending shorter than a height of the end surface of the cotton head and a width narrower than a width of the end surface of the cotton head, so that both sides and a front end of the end surface of the cotton head have portions which are not blocked by the pressing plate.

3. The anti-wet cotton head mop as claimed in claim 1, wherein the pressing plate is integrally formed with the mounting block at the end of the cotton head; the two sides of the width direction of the extrusion plate are respectively narrower than the width of the end face of the cotton head by 2-8 mm.

4. The anti-wet cotton head mop as claimed in claim 1, wherein the sliding guide member is a sliding bar, and the mounting block has two circular arc grooves respectively sleeved on two parallel sliding bars.

5. The anti-wet cotton head mop as claimed in claim 1, wherein the sliding guide is a protrusion or a recess formed on both side walls of the mop panel, respectively, and the mounting block is i-shaped and has recesses or protrusions formed at both ends thereof so as to be engaged with the sliding guide to allow the mounting block to slide along the length of the mop panel.

6. The anti-wet cotton head mop as claimed in any one of claims 1 to 5, wherein the upper surface of the mop faceplate is rotatably connected to the mop pole.

7. The anti-wet cotton head mop as claimed in claim 6, wherein the mop faceplate is provided with a connecting piece for mounting a mop rod, and the surface of the connecting piece 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 anti-wet cotton head mop as claimed in any one of claims 1 to 5, wherein each of the mounting blocks is provided with one or more flow guide through holes or flow guide grooves parallel to the length direction of the cotton head.

9. The anti-wet cotton head mop as claimed in claim 8, wherein the sliding end of the mop faceplate is provided with a plug for preventing the cotton head from exceeding the mop faceplate, and is also provided with one or more drainage holes or drainage grooves; the end face of the sliding end is provided with a stress plate which is used as a stress surface when the sliding end is pressed against the stress plate during water squeezing.

10. The anti-wet cotton head mop as claimed in claim 9, wherein the flow guide through holes or flow guide grooves of each mounting block are aligned with each other and further aligned with the drainage holes or flow guide grooves of the plugs of the mop faceplate.

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