CN213189392U - Hand-press water squeezing mop and mop cleaning tool - Google Patents

Abstract

The utility model relates to a hand water squeezing mop and mop cleaning tool, which comprises a cleaning part, wherein the cleaning part can deform after dehydration, a guide part is arranged on a mop plate, the guide part is a guide surface formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can movably abut against the guide surface, the extrusion parts can slide along the guide surface, and the cleaning part is extruded to dehydrate in the sliding process; or the guide parts are guide grooves formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can slide in the guide grooves, and the cleaning parts are extruded to be dehydrated in the sliding process. The setting of guide part can convert the pushing down motion of mop pole into extruded piece along the guide part motion to produce the extrusion effort, through setting up the guide part can be more laborsaving through pushing down the effort wringing mop.

Description

Hand-press water squeezing mop and mop cleaning tool

Technical Field

The utility model belongs to the technical field of cleaning products, a hand wringing mop is related to, especially, some adopt such as foaming cotton head, the collodion head, sponge head or analog as the mop of mop head, this type of mop head is chooseed for use of material, the porous material preparation that adopts more to have better hydroscopicity, can be made by the wood cellulose fibre, also can be made by the foamed plastic polymer, this type of material is when using as the mop head, generally all have can be after absorbing water the inflation, the dehydration after shrink, can not the speciality of degree deformation. The utility model also relates to a mop cleaning tool suitable for the wringing and cleaning of the mop.

Background

The collodion mop is a mop for mopping the floor by adopting collodion, has the advantages of strong water absorption, high water storage capacity, good toughness, softness, easy replacement and the like, and is a common household cleaning appliance.

Chinese utility model patent CN208404441U discloses a collodion flat mop squeezing bucket, which comprises a bucket body and a pedal; the barrel body is fixedly provided with a horizontally arranged limiting part which can be used for limiting the upward movement of the working head of the flat mop, a horizontally arranged extrusion plate is arranged below the limiting part, the pedal is positioned below the extrusion plate and is rotatably connected with the barrel body, and the pedal can push the extrusion plate to move upwards when swinging. But above-mentioned structure needs additionally to establish the footboard, utilizes footboard, trick cooperation just can accomplish the cleaning operation of team's mop head jointly, and it is inconvenient to use many, and the footboard structure need occupy great staving space or need additionally reserve and trample the space, is unfavorable for miniaturization, the simplification of product.

Chinese patent No. CN109394106A discloses a drying barrel for a collodion mop, which comprises a pair of swing frames with upper portions hinged to the upper portion of a barrel body, a squeezing plate slidably connected to the lower portions of the swing frames, and a reaction force supporting portion disposed on the upper portions of the swing frames, wherein the barrel body is further provided with a guide portion matched with the squeezing plate, and the guide portion is used for guiding the squeezing plate to squeeze the collodion head in the rotation process of the swing frames; the swinging frame is driven to rotate by the mop rod, the extrusion plate is guided by the guide part to extrude the collodion cotton head to finish the extrusion drying along with the rotation of the swinging frame, and meanwhile, the force required by the long length of the mop rod for a user to drive the swinging frame to rotate is very small. However, as the mop swings, the main stress position of the collodion is the side surface of the collodion, namely, the opening of the included angle between the collodion supporting part and the squeezing plate faces the middle part of the collodion after the mop swings, and after the collodion is normally used or cleaned, the absorbed water makes the water quantity in the middle larger than that in the two sides under the action of gravity, so that the two sides of the collodion can only be squeezed and the middle part cannot be squeezed effectively by adopting the squeezing barrel.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects that when the mop is squeezed in the prior art, the squeezing is insufficient, the squeezing is laborious, and the operation is complex due to the cooperation of an external pedal and a step, the hand-press water squeezing mop and the mop cleaning tool are provided.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a hand-press water squeezing mop comprises a mop body, wherein the mop body comprises a mop rod and a mop head connected to the mop rod, the mop head comprises a mop plate and a cleaning part arranged on the mop plate, the cleaning part can deform after being dewatered, a guide part is arranged on the mop plate, the guide part is guide surfaces formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head movably abut against the guide surfaces, the extrusion parts can slide along the guide surfaces, and the cleaning part is extruded to be dewatered in the sliding process; or the guide parts are guide grooves formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can slide in the guide grooves, and the cleaning parts are extruded to be dehydrated in the sliding process; or the guide parts are guide rails formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can slide along the guide rails, and the cleaning parts are extruded to be dehydrated in the sliding process. The setting of guide part can convert the pushing down motion of mop pole into extruded piece along the guide part motion to produce the extrusion effort, through setting up the guide part can be more laborsaving through pushing down the effort wringing mop. The guide part can be obliquely or horizontally arranged, and the labor-saving effect is achieved by using the labor-saving leverage principle and in a manner of saving labor and taking distance.

Furthermore, the extrusion piece is one or a combination of a water extrusion rod, a water extrusion roller, a columnar roller and a scraping and washing sheet.

Further, the length of the guide part is a fifth distance L₅A fifth distance L₅Meanwhile, the device has components in the vertical direction and the horizontal direction, and the guide part which is obliquely arranged can enable the extrusion piece to move longer, so that the labor-saving effect is achieved.

The utility model also provides a mop burnisher, it is constructed into the foretell crowded water mop of hand of adaptable, and can be right the mop washs and dewaters, mop burnisher includes: staving with locate crowded water subassembly in the staving, be equipped with the baffle in the staving, the baffle will crowded water district and water storage district are separated into to the staving, be equipped with crowded water subassembly in the crowded water district, crowded water subassembly includes: locate mop below stripper plate and be suitable for the transmission to connect the stripper plate with the drive mechanism of extrusion piece, the extrusion piece with form between the stripper plate and be suitable for the wringing district of mop, be formed with on the stripper plate and cross the water hole or cross the basin, drive mechanism can drive the extrusion pole with the extrusion piece is simultaneously to the downstream, and the in-process of removal, the cleaning portion is squeezed the dehydration, follows the water process of wringing the district being extruded is passed through the water hole or cross the water groove and is discharged into in the barrel.

Furthermore, drive mechanism drives the stripper plate with the in-process that the extruded article moved down, the actual displacement distance of extruded article is greater than the vertical displacement distance of stripper plate through laborsaving lever principle for the extrusion is lighter.

Further, the transmission mechanism includes: and the first movable groove and the second movable groove are in sliding connection with the extrusion part, and the extrusion part can simultaneously slide in the first movable groove and the second movable groove, wherein the first movable groove can at least guide the movement of the extrusion plate in the vertical direction, and the second movable groove at least guides the movement of the extrusion part in the horizontal direction.

Furthermore, the second movable groove is arranged on the extrusion plate.

Further, the second movable groove is formed on a fence formed by extending the pressing plate upwards at the edge.

Further, the barrel body is provided with the first movable groove.

Further, the transmission mechanism further comprises a mounting frame, and the first movable groove is formed in the mounting frame.

Further, be equipped with the handle on the staving, the rotatable connection in both ends of handle the staving on, the rotation tie point of handle is located and is closer to water storage district one side works as when lifting the handle behind the splendid attire water in the bucket, because the eccentric settings of rotating the tie point makes the staving is natural to the slope of water storage district, makes things convenient for the pouring, also does benefit to and prevents that the staving from taking place the seesaw motion that uses the handle turning point as the fulcrum.

The utility model also provides a mop burnisher, it is constructed into the adaptable hand wringing mop as above-mentioned, and can be right the mop washs and dewaters, mop burnisher includes: staving with locate crowded water subassembly in the staving, crowded water subassembly includes: locate mop below stripper plate and be suitable for the transmission to connect the stripper plate with the drive mechanism of extrusion piece, the extrusion piece with form between the stripper plate and be suitable for the wringing district of wringing the mop, drive mechanism can drive the stripper plate with the extrusion piece moves down simultaneously, and the in-process of removal, the clean portion is squeezed the dehydration, be equipped with catch basin and water drain valve on the stripper plate, follow the wringing district is held temporarily by the water of extruding in the catch basin to open under the dead weight effect the water drain valve is in order to discharge into in the barrel. The water drain valve can adopt a one-way valve, the water storage tank is suitable for short-time and small-amount water storage, the optimal capacity is that the extrusion water generated by one-time extrusion is just received, the opening of the one-way valve can be induced, the water is discharged to the greatest extent after one-time extrusion is finished, and the cleaned part which is extruded to be dry cannot be soaked again.

On one hand, the utility model, by arranging the guide part, converts the acting force of the mop to the acting force of the extrusion piece on the cleaning part, meets the operation habit of the user and has simple water squeezing operation; on the other hand, the driving mechanism is arranged to link the water squeezing plate and the squeezing piece to realize the downward water squeezing of the mop, so that the components are simplified and the arrangement is reasonable; on the other hand, the labor-saving operation is realized by controlling the moving distance and the moving direction of the extrusion piece and the extrusion plate and by utilizing the labor-saving lever effect and increasing the moving distance, the mop can be extruded more easily and more laborsavingly; in another aspect, the length and the angle of the guide part, the first movable groove and the second movable groove are arranged, so that the transmission relation of the transmission mechanism is optimized, and the reset part is used for resetting, so that the extrusion is smoother and the use is convenient.

Drawings

Fig. 1 is a schematic view of the overall structure of an embodiment of the present invention.

Fig. 2 is a schematic view of an exploded structure according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an embodiment of the mounting frame of the present invention.

Fig. 4 is a schematic structural view of an embodiment of the extrusion frame of the present invention.

Fig. 5 is a schematic front view of the mounting frame and the squeezing frame according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of a mop bucket according to an embodiment of the present invention.

Fig. 7 is a partial schematic view of a mop according to an embodiment of the present invention.

Fig. 8 is a partial schematic view of a positioning block according to an embodiment of the present invention.

Fig. 9 is a schematic front view of the mounting frame and the squeezing frame according to an embodiment of the present invention.

Fig. 10 is a schematic view of the overall structure of an embodiment of the present invention.

Fig. 11 is an exploded view of an embodiment of the present invention.

Fig. 12 is a schematic cross-sectional view of a reservoir according to an embodiment of the present invention.

Fig. 13 is a schematic view of a mounting bracket according to an embodiment of the present invention.

Description of the drawings: 1. a barrel body; 11. a partition plate; 12. a water squeezing zone; 13. a water storage area; 14. an inner boss; 2. a mop; 21. a mop head; 211. a mop plate; 2111. a guide portion; 2111a, a guide surface; 2111b, a guide groove; 2111c, a guide rail; 212. a cleaning section; 22. a mop rod; 3. A wringing component; a mounting bracket 31; 311. a guide plate; 3111. a first movable slot; 312. positioning rings; 3121. a limiting port; 313. a guide bar; 314. The water storage tank comprises a bottom plate, 315, side plates, 316, reinforcing ribs, 317, a water storage tank, 3171, rollers, 3172 and guide ribs; 32. an extrusion frame; 321. a pressing plate; 3211. a guiding positioning port; 322. a vertical plate; 3221. a second movable slot; 323. a guide cylinder; 33. an extrusion; 34. a return spring; 35. A frame 351, an opening; 4. handle, 41, positioning block, 42, handle groove; 5. a water outlet; 6. and a water through hole.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings.

Example 1

Referring to fig. 1 to 8, the present embodiment provides a cleaning tool for squeezing and dewatering a mop, which comprises a mop, wherein the mop comprises a mop rod 22 and a mop head 21 connected to the mop rod 22, the mop head 21 comprises a mop plate 211, and a cleaning part 212 mounted on the mop plate, and the cleaning part 212 can be deformed after dewatering. The cleaning portion 212 may be made of materials such as foam, collodion, sponge or the like which expand after absorbing water, contract after dehydration, and deform to different degrees.

The mop plate 211 is formed in a substantially strip-like or plate-like shape having a longer length direction and a shorter width direction. The mop rod 22 is rotatably connected with the mop head 21. The mop rod 22 can rotate relative to the mop head 21 in a plane perpendicular to the length direction of the mop plate 211, and the rotation range is 0-180 degrees in other embodiments, the connection mode of the mop rod 22 and the mop head 21 can be selected adaptively, such as arranging the mop rod 22 to rotate relative to the mop head 21 in a plane perpendicular to the width direction of the mop plate 211, or connecting the mop rod 22 and the mop head 21 in a fixed connection mode.

In still other embodiments, the mop rod 22 can be rotatable relative to the mop plate 211 and can be positioned in a particular location, such as can take the form of, for example: comprises an iron block arranged on the mop rod and a magnet arranged on the flat mop head; or comprises an elastic buckle arranged on the flat mop head and a buckle hole which is arranged on the flat mop head and is matched with the elastic buckle; or comprises an elastic top piece arranged at the movable connection part between the flat mop head and the mop rod; or comprises an elastic top piece arranged in the mop rod; or comprises a magic male buckle arranged on the flat mop head, a magic female buckle arranged on the mop rod and the like. Through adopting some current location structure for mop pole and mop board can fix a position, keep in relative vertically state when the extrusion is washd, and convenience of customers pushes down the mop pole application of force.

The barrel body 1 and the water squeezing assembly 3 installed in the barrel body are further included.

The bucket body 1 is set to be suitable for the mop head 21 to be vertically placed in the length direction, and the overall appearance is wider and flatter. A partition board 11 is arranged in the barrel body 1 along the length direction of the mop head 21, the inside of the mop barrel is divided into a water squeezing area 12 and a water storage area 13 by the partition board 11, and preferably, a brush for cleaning collodion cotton can be further arranged in the water storage area 13. When mopping, the water storage area 13 is used for storing water, and then the mop is normally used for mopping. After the mop is cleaned by mopping, the mop head is put into the wringing component 3 to wring the cleaning part 212.

The water squeezing assembly 3 is detachably arranged in the water squeezing area 12.

The wringing assembly 3 includes: the pressing plate 321 is matched with the cleaning part 212 in length, a placing area suitable for containing the cleaning part 212 is formed above the pressing plate 321, the pressing part 33 can move relative to the pressing plate 321, and a squeezing area suitable for squeezing the cleaning part 212 is formed between the pressing part 33 and the pressing plate 321. In other embodiments, the wringing component 3 can also be installed in the barrel in a fixed and non-detachable manner.

The extrusion piece 33 is one or a combination of a water extrusion rod, a water extrusion roller, a columnar roller and a scraping and washing sheet. In the embodiment, the squeezing component 33 is a squeezing rod, in other embodiments, other squeezing components 33 can be selected adaptively, or the guide portion 2111 is arranged to be matched with the squeezing component 33 for squeezing and dewatering.

The barrel body 1 is internally provided with a mounting rack 31, and the lower end of the mounting rack 31 is provided with two groups of symmetrical guide plates 311 vertically arranged in the squeezing area. The two sets of guide plates 311 are respectively positioned near the two ends of the collodion in the length direction. The guide plate 311 is connected to the pressing frame 32. The pressing frame 32 includes a pressing plate 321 horizontally disposed to press the cleaning part 212. The extrusion frame 32 is basket-shaped, the edge of the extrusion frame extends upwards to form a side wall, the side walls at two ends form a vertical plate 322, and the extrusion plate 321 is installed in the extrusion dry area in a substantially horizontal posture. A guide positioning hole 3211 slidably connected to the guide plate 311 is formed in the pressing plate 321 corresponding to the guide plate 311. When the mop head 21 is placed on the upper end of the pressing plate 321 and moved downward during squeezing, the squeezing member 33 abuts against the guide portion 2111 on the corresponding side and pushes the mop plate 211 to move downward relative to the pressing plate 321, so that the distance between the mop plate 211 and the pressing plate 321 is reduced, and the cleaning portion 212 located in the squeezing area between the mop plate 211 and the pressing plate 321 is squeezed.

The squeezing plate 321 is movably connected to the barrel body 1 along the vertical direction, the squeezing piece 33 is movably connected to the barrel body 1 along the preset direction, the preset direction has components in the vertical direction and the horizontal direction at the same time, and the transmission mechanism can drive the squeezing plate 321 and the squeezing piece 33 to move at the same time, so that the height of the squeezing area is reduced, and the squeezing of the cleaning part 212 in the squeezing area is realized. The driving mechanism includes a first movable groove 3111 and a second movable groove 3221 slidably connected to the pressing member 33, and the pressing member 33 is simultaneously slidable in the first movable groove 3111 and the second movable groove 3221. The first movable groove 3111 can guide at least the movement of the pressing plate 321 in the vertical direction, and the second movable groove 322 can guide at least the movement of the pressing member 33 in the horizontal direction.

The movement of the pressing member 33 in the predetermined direction is mainly compositely formed by the sliding movement of the pressing member 33 in the first movable groove 3111, the sliding movement in the second movable groove 3221, and the sliding movement along the guide surface 2111 a. The extrusion board 321 can move by a first distance L1 along the vertical direction, the extrusion piece 33 can be driven to move along the preset direction in the process that the extrusion board 321 moves in the vertical direction, the moving distance of the extrusion piece 33 in the preset direction is a second distance L2, the second distance L2 has a motion component in the vertical direction, the motion component is longer than the right-angle side principle according to the hypotenuse of a right-angled triangle, and L2 is larger than L1. Referring to fig. 5, a component L3 of the second distance L2 in the vertical direction is actually a height of the first movable groove 3111 in the vertical direction, and a component L2 in the horizontal direction is actually a width of the first movable groove 3111 in the vertical direction.

According to the principle of the labor-saving lever, the power arm is longer than the power arm, and the labor-saving effect is achieved. Specifically, the second distance L2 that the pressing member 33 moves in the predetermined direction is longer than the first distance L1 that the pressing plate 321 vertically moves, thereby generating a labor-saving effect, and pushing the pressing plate 321 to slide downward and perform dehydration and extrusion with more labor-saving.

Each set of guide plates 311 is formed with a first movable groove 3111 slidably connected to the extrusion member 33, the first movable grooves 3111 of two guide plates 311 in the same set have the same shape and size, and the projections of the first movable grooves 3111 of two guide plates in different sets on the plate surfaces of the guide plates 311 are axisymmetric.

The first movable groove 3111 is arc-shaped, and an included angle between the upper end of the first movable groove 3111 and the vertical direction is smaller than an included angle between the lower end of the first movable groove 3111 and the vertical direction; such as a parabolic curve. Both ends of the projection of the first movable groove 3111 on the horizontal plane do not exceed both ends of the projection of the second movable groove 3221 in the horizontal direction; as shown in fig. 5, the length of the horizontal projection of the first movable groove 3111 is not greater than the length of the second movable groove 3221 and is within the range of the length of the horizontal projection of the second movable groove 3221. Preferably, an angle between a line connecting two end points of the first movable groove 3111 and the vertical direction is 10-30 °.

A plurality of vertical plates 322 are formed on the pressing plate 321 at positions corresponding to the guide plates 311, and a second movable groove 3221 for slidably connecting with the pressing member 33 is formed on the vertical plates 322. When the mop 2 is pressed down to move the pressing plate 321 downward, the pressing member 33 is moved downward and inward due to the restriction of the first movable groove 3111. The mop head 21 is provided with a guide surface 2111a which abuts against the underside of the pressing member 33. The second movable groove 3221 is not parallel to the guide surface 2111a and presses the collodion along with the depression of the mop 2. That is, when the pressing members 33 are moved inward, the distance between the mop head 21 and the upper plate surface of the pressing plate 321 is reduced due to the pressing members abutting against the guide portions 2111, thereby squeezing the collodion to be dehydrated.

The length of the guide portion 2111 is a fifth distance L₅In the present embodiment, the fifth distance L₅Having both vertical and horizontal components, wherein the fifth distance L₅Component in the vertical direction is L₄. At this time, the minimum height L of the wringing region is (L)₃+L₄)-L₁(ii) a Or, L ═ L₃-L₄)-L₁。

In other embodiments, the guide portion 2111 may be horizontally disposed without a vertical component, and the minimum height L of the squeezing area is L ═ L₃-L₁。

The guide portions 2111 are guide surfaces 2111a formed at both ends of the mop plate, the guide surfaces 2111a are arranged in inclined, smooth planes, and the guide surfaces 2111a have both vertical and horizontal components. When the mop is used, an operator presses the mop rod 22 downwards, the pair of extrusion parts 33 symmetrically arranged at the two sides of the mop head 21 can slide along the guide surface 2111a by abutting against the guide surface 2111a in a movable manner, and the cleaning part 212 is extruded to be dehydrated in the sliding process.

As shown in fig. 5, the second movable groove 3221 is horizontally disposed, the guide portion is a guide surface 2111a formed at both ends of the mop plate 211, and the guide surface 2111a is an inclined surface; the upper end of the first movable groove 3111 is positioned outside the lower end; the length of the mop head 21 is not greater than the length of the collodion; guide surfaces 2111a are located above both ends of mop head 21; the outside of the guide surface 2111a is low and the inside is high; in the initial state, the distance between the upper plate surface of the pressing plate 321 and the lower end of the pressing member 33 is not less than the distance between the lower end of the collodion and the lower end of the guide portion 2111, while the distance between the upper plate surface of the pressing plate 321 and the lower end of the pressing member 33 is less than the distance between the lower end of the collodion and the upper end of the guide surface 2111 a. The pressing member 33 can abut against the guide surface 2111a during inward movement when the mop head 21 is put into the wringing area.

In other embodiments, the second movable slot 3221 may also be inclined, and the guiding surface 2111a may be horizontal or inclined.

When the guide surface 2111a is a slope, the guide surface 2111a has both vertical and horizontal components. The guide surface 2111a is higher inside and lower outside, and the height difference of the second movable groove 3221 is smaller than that of the guide surface 2111 a. The height difference of the guide surface 2111a is a height difference of a region surrounded when the guide surface 2111a abuts against the pressure member 33.

When guide surface 2111a is horizontal, extrusion 33 moves a second distance L in the predetermined direction₂Component L in the vertical direction₃A first distance L from the pressing plate 321 moving in the vertical direction₁I.e. equal.

In order to prevent the occurrence of the phenomenon that the collodion is deformed again to reabsorb water when the force applied to the mop 2 is reduced or removed due to excessive squeezing of the squeeze plate 321, a plurality of water passing holes are formed in the squeeze plate 321. In other embodiments, a water passing groove can be further arranged, so that the water extruded from the squeezing area is discharged into the barrel body through the water passing hole or the water passing groove.

In order to maintain the reciprocating motion of the transmission mechanism, one or more reset pieces for resetting the pressing plate 321 are further provided between the barrel 1 and the wringing assembly 3, in this embodiment, a tension spring is selected as the reset spring 34, and the number of the reset springs 34 is four. Further, the return spring 34 may be provided in other quantities, depending on the specific size and spring rate of the spring.

In order to meet the requirements of the portable mop bucket for conveniently containing and pouring water into the mop bucket, the upper part of the mop bucket is also provided with a handle 4. The handle 4 is rotatably arranged at the upper part of the barrel body 1. The pivot connection point of the handle is located closer to the water storage area 13. In other embodiments, a dual handle arrangement may also be employed.

In order to pour water conveniently, a drainage outlet is formed in the edge of the opening of the barrel body 1 at one side of the barrel body 1 and close to the rotating connection point of the lifting handle, so that the lifting handle 4 can be lifted by one hand, and the bottom of the barrel body can be lifted by the other hand, so that the water in the barrel body 1 can be poured. In other embodiments, a drain valve may be provided, for example, a silica gel water valve or other types of drain valves may be provided at the bottom or below the side of the barrel body.

The upper end of the guide plate 311 is formed with a positioning ring 312, and the positioning ring 312 is detachably mounted on the tub 1. An inner boss 14 for supporting the positioning ring is formed inwards on the inner wall of the barrel body 1, and the handle 4 is rotatably connected with the positioning ring 312. When the handle 4 rotates to the lowest end of the rotation angle, the positioning ring 312 is connected with the barrel body 1 through the handle 4; when the handle 4 rotates to a specific angle, the positioning ring 312 is separated from the barrel body 1.

Specifically, as shown in fig. 8, a non-circular positioning block 41 is formed on the connecting shaft for mutually rotating the handle 4 and the positioning ring 312. The retainer ring 312 is formed with a retainer 3121 below the retainer 41. The projection area of the positioning block 41 in the horizontal direction changes along with the rotation of the handle 4, the shape and size of the limiting opening 3121 are the shape and size of the corresponding projection part when the projection area is minimum, and the positions are corresponding, and meanwhile, the handle 4 rotates to the lowest end of the rotation angle (the handle is naturally put down on the mop bucket) which is not the corresponding position when the projection area is minimum. When the mop head 21 is placed in the wringing assembly 3 for squeezing the collodion, the handle 4 is not at a specific angle, and the wringing assembly 3 cannot be separated from the bucket body 1 as the mop moves up and down. When the wringing component 3 needs to be taken out, the handle 4 is rotated to the specific angle, the wringing component 3 is lifted upwards, the positioning block 41 penetrates through the limiting opening 3121 to separate the handle 4 from the positioning ring 312, and then the handle 4 is rotated to a position where the lifting of the wringing component 3 is not interfered, or the wringing component 3 is rotated after partial lifting of the wringing component 3 is carried out, so that the wringing component 3 can be taken out by avoiding the handle. Because the crowded water subassembly 3 can dismantle, separable, can wash crowded water subassembly 3 alone during the use, can also wash the position that is sheltered from by crowded water subassembly 3 simultaneously, convenient and practical more.

Further, in order to make the sliding of the pressing plate 321 smoother, the lower ends of the positioning rings 312 are symmetrically provided with vertically arranged guide rods 313 at two sides of the pressing plate 321, respectively. Guide cylinders 323 slidably coupled to the guide rods 313 are formed at both sides of the pressing plate 321. Both ends of the return spring 34 are connected to the cage 312 and the pressing plate 321, respectively.

When the mop cleaning tool provided in this embodiment is used to squeeze collodion, the mop head 21 is placed horizontally in the squeezing unit 3 and then the mop is pushed downward. At this time, since the extruding member 33 moves inward along with the movement of the first movable groove 3111, and meanwhile, in the inward movement process of the extruding member 33, the extruding member abuts against the guide portion 2111, the distance between the mop head 21 and the upper plate surface of the extruding plate 321 is reduced to extrude the collodion, so that the purpose of squeezing water is achieved, when the mop moves upward, the extruding plate resets, and the mop is pushed for many times to extrude the collodion for many times, so that the collodion is drier.

When the mop is pressed down, the force applied to the mop plate is two sides and the middle part, so that the force applied to the mop plate is uniform, the force applied to the collodion by the mop plate can be approximately equivalent to the acting force uniformly distributed along the lower end surface of the mop plate, and all parts of the collodion can be fully extruded.

Example 2

The present example differs from example 1 as follows: the guide portions 2111 are guide grooves 2111b formed at both ends of the mop plate 211, the mop rod 22 is pressed downward, a pair of pressing members 33 symmetrically arranged at both sides of the mop head 21 can slide in the guide grooves 2111b, and the collodion is pressed to be dehydrated in the sliding process.

As shown in fig. 9, the upper end of the first movable groove 3111 is located inside the lower end. The length of the mop head 21 is greater than that of the collodion cotton; the guide slot 2111b is located outside in the longitudinal direction of the collodion. The guide groove 2111b is higher on the outer side and lower on the inner side. In the initial state, the distance between the upper plate surface of the pressing plate 321 and the lower end of the pressing member 33 is not less than the distance between the lower end of the collodion and the lower end of the guide groove 2111b, and the distance between the upper plate surface of the pressing plate 321 and the lower end of the pressing member 33 is less than the distance between the lower end of the collodion and the upper end of the guide groove 2111 b.

Example 3

The present example differs from example 1 as follows: the guide portion 2111 is a guide rail 2111c formed at both ends of the mop plate 211, the mop rod 22 is pressed downward, a pair of extruding members 33 symmetrically arranged at both sides of the mop head 21 can slide along the guide rail 2111c, and the collodion is extruded to be dehydrated in the sliding process.

Example 4

The present example differs from example 1 as follows: the mop bucket is not provided with the partition board 11 and is naturally partitioned by the water squeezing component.

Be equipped with crowded water subassembly 3 in the staving 1, the top of crowded water subassembly 3 is separated naturally and is formed crowded water district 12, and the below forms water storage district 13, is equipped with in the staving 1 to be suitable for making stripper plate 321 or extruded piece 33 reset the piece that resets. The transmission mechanism can drive the extrusion plate 321 and the extrusion piece 33 to move downwards simultaneously, the cleaning part 212 is extruded and dewatered in the moving process, the water storage tank and the one-way valve are arranged on the extrusion plate 321, the water extruded from the extrusion area 12 is temporarily stored in the water storage tank, and the one-way valve is opened under the action of self weight to be discharged into the barrel body 1. The water storage tank is suitable for short-time and small-amount water storage, the optimal capacity is that the extrusion water generated by one-time extrusion is just received, the opening of the one-way valve can be induced, the water is discharged in the most after the one-time extrusion process is finished, and the cleaned part 212 which is extruded to be dry cannot be wetted again.

Example 5

The present example differs from example 1 as follows: the squeeze board 321 is the floor of the reservoir 317.

Referring to fig. 10 to 13, the barrel 1 is provided with a frame 35 detachably mounted on the barrel mouth, the frame 35 is adapted to the size of the barrel mouth, and two openings 351 corresponding to the water storage area 13 and the squeezing area 12 are formed in the middle. The frame 35 is formed with handle grooves 42 on the sides adapted to receive the handles 4.

Be equipped with mounting bracket 31 in the staving 1, mounting bracket 31 includes bottom plate 314 and the deflector 311 that upwards extends from bottom plate 314, is equipped with first activity groove 3111 on the deflector 311, corresponds and is equipped with the curb plate 315 that can consolidate mounting bracket 31 intensity between two deflectors 311 of side, is equipped with strengthening rib 316 on the curb plate, and bottom plate 314 middle part is equipped with water hole 6.

The water storage tank 317 is movably connected in the mounting frame 31, the bottom surface of the water storage tank 317 forms a squeezing plate 321, the water storage tank 317 is provided with a second movable tank 3221, the water storage tank is further provided with rollers 3171, and the rollers 3171 are respectively arranged at four corners of the water storage tank 317 and are suitable for guiding the water storage tank to slide in the mounting frame 31. Referring to fig. 12, the pressing plate 321 is slightly above the lowest edge of the reservoir 317 and is adapted to prevent the cleaning portion 212 from being wetted twice. A low-lying groove is formed between the extrusion plate 321 and the side wall of the water storage tank 317, and a plurality of water through holes are formed in the groove and are suitable for water drainage. In other embodiments, a water trough arrangement is also employed.

The outer surface of the side wall of the water storage tank 317 is further provided with a plurality of guide ribs so as to reduce sliding friction of the water storage tank 317 in the sliding process, and the sliding is smoother.

Claims (10)

1. A hand-press water squeezing mop comprises a mop body, the mop body comprises a mop rod and a mop head connected to the mop rod, the mop head comprises a mop plate and a cleaning part arranged on the mop plate, the cleaning part can deform after being dewatered,

the method is characterized in that: the mop plate is provided with a guide part,

the guide parts are guide surfaces formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can movably abut against the guide surfaces, the extrusion parts can slide along the guide surfaces, and the cleaning parts are extruded in the sliding process to be dehydrated;

or the guide parts are guide grooves formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can slide in the guide grooves, and the cleaning parts are extruded to be dehydrated in the sliding process;

or the guide parts are guide rails formed at two ends of the mop plate, the mop rod is pressed downwards, a pair of extrusion parts symmetrically arranged at two sides of the mop head can slide with the guide rails, and the cleaning parts are extruded to be dehydrated in the sliding process.

2. The hand press wringing mop of claim 1, wherein: the extrusion piece is one or a plurality of combinations of a water extrusion rod, a water extrusion roller, a columnar roller and a scraping and washing sheet.

3. The hand press wringing mop of claim 1, wherein: the length of the guide part is a fifth distance L₅A fifth distance L₅With both vertical and horizontal components.

4. A mop cleaning implement configured to accommodate a hand press wringing mop as claimed in any one of claims 1 to 3 and to clean and dewater said mop, comprising:

staving with locate crowded water subassembly in the staving, be equipped with the baffle in the staving, the baffle will crowded water district and water storage district are separated into to the staving, be equipped with crowded water subassembly in the crowded water district, crowded water subassembly includes:

a squeezing plate arranged below the mop and a transmission mechanism suitable for driving and connecting the squeezing plate and the squeezing piece, wherein a squeezing area suitable for squeezing the mop is formed between the squeezing piece and the squeezing plate, a water passing hole or a water passing groove is formed on the squeezing plate,

the transmission mechanism can drive the extrusion plate and the extrusion piece to move downwards simultaneously, in the moving process, the cleaning part is extruded and dehydrated, and water extruded from the extruding area is discharged into the barrel body through the water through holes or the water through grooves.

5. A mop cleaning tool as defined in claim 4, wherein: and in the process that the transmission mechanism drives the extrusion plate and the extrusion piece to move downwards, the moving distance of the extrusion piece is greater than the vertical moving distance of the extrusion plate.

6. A mop cleaning tool as defined in claim 5, further comprising: the transmission mechanism includes:

and the first movable groove and the second movable groove are in sliding connection with the extrusion part, and the extrusion part can simultaneously slide in the first movable groove and the second movable groove, wherein the first movable groove can at least guide the movement of the extrusion plate in the vertical direction, and the second movable groove at least guides the movement of the extrusion part in the horizontal direction.

7. A mop cleaning tool as defined in claim 6, further comprising: the second movable groove is formed in the extrusion plate, or the second movable groove is formed in a fence formed by the extrusion plate extending upwards at the edge.

8. A mop cleaning tool as defined in claim 7, wherein: the staving is equipped with first activity groove, perhaps, drive mechanism still includes the mounting bracket, first activity groove form in on the mounting bracket.

9. A mop cleaning tool as defined in claim 4, wherein: the barrel body is provided with a handle, two ends of the handle are rotatably connected to the barrel body, and the rotating connection point of the handle is located at one side closer to the water storage area.

10. A mop cleaning implement configured to accommodate a hand press wringing mop as claimed in any one of claims 1 to 3 and to clean and dewater said mop, comprising:

staving with locate crowded water subassembly in the staving, crowded water subassembly includes:

a squeezing plate arranged below the mop and a transmission mechanism suitable for driving and connecting the squeezing plate and the squeezing piece, wherein a squeezing area suitable for squeezing the mop is formed between the squeezing piece and the squeezing plate,

the driving mechanism can drive the extrusion plate and the extrusion piece to move downwards simultaneously, the cleaning part is extruded and dewatered in the moving process, the extrusion plate is provided with a water storage tank and a water drain valve, water extruded from the extrusion drying area is temporarily stored in the water storage tank, and the water drain valve is opened under the action of self weight to be drained into the barrel body.

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