CN217013921U - Flat mop capable of squeezing water - Google Patents

Abstract

A flat mop with water squeezing function is composed of a mop plate, a mop rod connected to said mop plate, and a water squeezing frame able to slide along the axial line of said mop rod; the water squeezing frame comprises a frame body and a first smoothing-out portion, the first smoothing-out portion is provided with a vacancy, the mop plate penetrates into the vacancy when water is squeezed, the first smoothing-out portion is connected with the frame body in a retaining mode, and the first smoothing-out portion can be close to and far away from the frame body in a movable mode.

Description

Water squeezing flat mop

Technical Field

The utility model relates to a flat mop capable of squeezing water, belonging to the technical field of cleaning supplies.

Background

The water squeezing mop in the prior art comprises a mop rod, a mop plate for arranging a wiping object and a water squeezing frame connected with the mop rod in a sliding mode, wherein the water squeezing frame comprises a smoothing opening through which the mop plate can penetrate, the existing water squeezing frame is of a fixed structure, and the length of the water squeezing frame cannot be changed, so that the length of the water squeezing frame is too long during logistics packaging, and logistics transportation is not facilitated. While longer mop plates are now the focus of consumer demand, the longer length of the mop plate necessarily results in longer wringing rack lengths, and thus the aforementioned problems of package size disadvantages during logistics transportation are further exacerbated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides the flat mop with the function of squeezing water, which has reasonable structural design and can adjust the distance between the smoothing part and the frame body.

The technical scheme adopted by the utility model is as follows: a flat mop with water squeezing function is composed of a mop plate, a mop rod connected to said mop plate, and a water squeezing frame able to slide along the axial line of said mop rod; the water squeezing frame comprises a frame body and a first smoothing-out portion, the first smoothing-out portion is provided with a vacancy, the mop plate penetrates into the vacancy when water is squeezed, the first smoothing-out portion is connected with the frame body in a retaining mode, and the first smoothing-out portion can be close to and far away from the frame body in a movable mode.

The first smoothing opening part is connected with the frame body through a connecting device.

The connecting device comprises a guide rod which slides with the first smoothing-out part or the frame body when the distance between the first smoothing-out part and the frame body is adjusted, and the first smoothing-out part and the frame body are kept fixed after the distance between the first smoothing-out part and the frame body is adjusted to a preset position.

The guide rod is connected with the frame body in a sliding mode, and the guide rod is fixedly connected with the first smoothing opening part; or the guide rod is fixedly connected with the frame body, and the guide rod is connected with the first smoothing part in a sliding manner.

The connecting device comprises a telescopic rod, and two ends of the telescopic rod are connected with the first smoothing-out part and the frame body respectively.

The connecting device comprises a connecting rod structure, and two ends of the connecting rod structure are respectively connected with the first smoothing opening part and the frame body in a rotating mode.

The frame body is provided with a first smooth opening part and a second smooth opening part, wherein the frame body is provided with a frame body; one end of the positioning piece is connected with the first smoothing opening part, and the other end of the positioning piece is connected with the frame body buckle; or, one end of the positioning piece is connected with the first mouth smoothing buckle, and the other end of the positioning piece is connected with the frame body.

And a positioning mechanism for limiting the movement of the guide rod and the first smoothing-out part or the frame body is arranged between the guide rod and the first smoothing-out part or between the guide rod and the frame body.

The connecting rod structure comprises a diamond-shaped connecting rod, and two ends of the diamond-shaped connecting rod are respectively connected with the first smoothing part and the frame body in a rotating mode.

The rack body further comprises a vacancy which is formed in the rack body and used for squeezing water, the mop plate penetrates through the second smoothing opening portion of the vacancy, the second smoothing opening portion and the first smoothing opening portion are located on the same axis, the distance between the second smoothing opening portion and the first smoothing opening portion is smaller than the length of the mop plate, the mop plate can penetrate through the second smoothing opening portion and the first smoothing opening portion when the water is squeezed, and the second smoothing opening portion is opposite to the top end, close to the mop rod, of the first smoothing opening portion.

The mop comprises a frame body, a connecting device and a handle, wherein the frame body comprises an operating piece, the connecting device comprises a rotating cylinder which is sleeved outside a mop rod and is arranged in a rotating mode, and the rotating cylinder is connected with the operating piece in a rotating mode; the outer layer of the mop rod is fixedly provided with a threaded pipe, the rotating cylinder is in threaded transmission connection with the push pipe, the push pipe is in linear sliding connection with the mop rod, the operating part is pushed to drive the rotating cylinder to rotate, and the rotation of the rotating cylinder drives the push pipe to move linearly; the first smoothing opening part is connected with the push pipe.

The operating piece is provided with a convex piece matched with the annular groove, and the convex piece is arranged in the annular groove.

Wherein the threaded pipe is provided with an external thread, and the rotary drum is provided with a convex body matched with the external thread of the threaded pipe; the rotary cylinder is provided with an internal thread, the push pipe is provided with a convex body matched with the internal thread of the rotary cylinder, or the push pipe is provided with an external thread, and the rotary cylinder is provided with a convex body matched with the external thread of the push pipe.

The operating piece and the rotating cylinder are coaxially arranged, and a bearing is arranged between the operating piece and the rotating cylinder.

The thread pitch of the rotary cylinder in transmission connection with the thread of the threaded pipe is smaller than that of the rotary cylinder in transmission connection with the thread of the push pipe.

The first opening smoothing part or the extension section of the first opening smoothing part is provided with a guide strip, the mop rod is fixedly connected with a positioning block matched with the guide strip, and the positioning block is matched with the guide strip in a concave-convex mode and then limits the first opening smoothing part to slide linearly along the extension direction of the guide strip.

The two sides of the first smoothing opening part are respectively provided with a roller which is contacted with the side edge of the mop plate when the mop plate moves in the smoothing opening part, and the rollers are rotatably arranged.

The mop plate is provided with a wiping material, the first smoothing opening part is provided with a temporary storage cavity which can temporarily store water for washing the wiping material, and the temporarily stored water flows to the wiping material when the mop is washed.

Wherein, the position that corresponds the wiper on the first portion of stroking out with fingers is equipped with the extruded piece to the wiper scraping, the extruded piece is the scraper, or rotates the commentaries on classics roller that sets up, or the combination of the commentaries on classics roller that the scraper set up with rotating.

Wherein, the extruded part is the combination of scraper and the commentaries on classics roller that rotates the setting, changes the roller and locates the below of scraper.

Compared with the prior art, the utility model has the following advantages and effects: the distance between the smoothing-out part on the water squeezing frame and the frame body is adjustable, and when the mop is in an idle state, the distance between the smoothing-out part and the frame body can be shortened, so that the length and the size of the water squeezing frame are reduced. When water is required to be squeezed, the opening smoothing part is extended, and the length of the water squeezing frame is increased, so that the mop plate can be squeezed.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic view of the structure from another view angle in fig. 1.

Fig. 3 is a schematic structural view of the connection of the first smooth-out part and the guide rod.

Fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.

Fig. 5 is a partially enlarged structural view of fig. 4.

Fig. 6 is a schematic structural view of the rotary cylinder according to the present invention.

FIG. 7 is a schematic view showing the construction of the spiral pipe of the present invention.

FIG. 8 is a schematic view of the combined configuration of an extrusion and staging chamber according to the present invention.

Detailed Description

The present invention will be described in further detail below by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Example 1

As shown in fig. 1 to 3, the flat mop for squeezing water of the present embodiment includes: the mop plate 1 is provided with a wiping object 11; a mop rod 12 rotatably connected to the mop plate 1; the wringing frame 2 can slide along the axial line of the mop rod 12. The wringing rack 2 comprises a rack body 21, the rack body 21 is generally provided with a hand-held part, the rack body 21 is sleeved outside the mop rod 12, and the rack body 21 can slide relative to the axial direction of the mop rod 12; the flat mop with the function of squeezing water further comprises a first smoothing-out part 22 which is provided with a vacant position and is used for enabling the mop plate 1 to penetrate into the vacant position during water squeezing, and a squeezing piece which is used for scraping the wiping material 11 is arranged on the first smoothing-out part 22 corresponding to the position of the wiping material 11. When the mop 11 of the mop needs to be cleaned, the mop plate 1 is rotated to be parallel to the mop rod 12, the water squeezing frame 2 is pushed, the mop plate 1 penetrates the first smoothing mouth part 22, and the squeezing piece on the first smoothing mouth part 22 squeezes the mop 11, so that dirt and water on the mop 11 are removed. When mopping is needed, the water squeezing frame 2 is moved upwards, the first smoothing mouth part 22 is separated from the mop plate 1, and the mop is switched to a mopping state. In this embodiment, the first smoothing-out portion 22 is connected to the frame body 21, and the first smoothing-out portion 22 is movably disposed close to and away from the frame body 21. When the wiping materials 11 of the mop need to be cleaned, the first smoothing mouth part 22 is arranged relatively far away from the frame body 21; when mopping or logistics packaging is carried out, the first smoothing-out part 22 is arranged relatively close to the frame body 21. The main problem that this kind of structure was solved is that, the first mouth of smoothing out with fingers among the prior art and support body 21 are the fixed continuous setting, and both can't adjust distance between them after combining again, and consequently the length of crowded water frame is longer, and the cost of commodity circulation transportation increases, and the manufacturing of production mould is also high, and the shared space is also big after the use, is unfavorable for accomodating. The distance between the first smoothing-out part 22 and the frame body 21 is adjustable, so that when the wiping materials 11 of the mop need to be cleaned, the water squeezing frame 2 can be adjusted to be in a longer state; when mopping or logistics packing, the wringing rack 2 can be adjusted to a shorter state.

In this embodiment, the first smoothing-out portion 22 is connected to the frame body 21 by a connecting device. The connecting device keeps the first smoothing-out part 22 and the frame body 21 in a connected state, and the distance between the first smoothing-out part 22 and the frame body 21 can be adjusted.

A preferred embodiment of the connecting device is as follows: the connecting device comprises a guide rod 23 which slides with the first smooth-out part 22 or the frame body 21 when the distance between the first smooth-out part 22 and the frame body 21 is adjusted, and the first smooth-out part 22 and the frame body 21 are kept fixed after the distance between the first smooth-out part 22 and the frame body 21 is adjusted to a preset position. Specifically, the guide rod 23 is slidably connected with the frame body 21, the guide rod 23 is fixedly connected with the first smoothing-out portion 22, the first smoothing-out portion 22 is fixedly kept with the frame body 21 after the distance between the first smoothing-out portion 22 and the frame body 21 is adjusted to a preset position, and the mode that the first smoothing-out portion 22 is fixedly kept with the frame body 21 includes a conventional mode in the prior art. The concrete implementation mode that this implementation adopted is, be equipped with positioning mechanism between guide arm 23 and the support body 21, positioning mechanism includes that the elasticity jumps the pearl, and the guide arm 23 is located to the elasticity jump the pearl, support body 21 is equipped with the concave position that can supply the elasticity to jump the pearl embedding, when first smooth out mouth portion 22 and slide to predetermined concave position, the elasticity jump the pearl and fall into the concave position to it is fixed with support body 21 with guide arm 23, because guide arm 23 is the rigidity piece, thereby makes first smooth out mouth portion 22 also fixed with support body 21. In another embodiment, the guide rod 23 is fixedly connected with the frame body 21, the guide rod 23 is connected with the first mouth smoothing portion 22 in a sliding manner, when the distance between the first mouth smoothing portion 22 and the frame body 21 is adjusted to a preset position, the first mouth smoothing portion 22 is fixed with the frame body 21 in a manner that a positioning mechanism is arranged between the guide rod 23 and the first mouth smoothing portion 22, the positioning mechanism comprises an elastic jumping bead which is arranged on the guide rod 23, the first mouth smoothing portion 22 is provided with a concave position for the elastic jumping bead to be embedded, when the first mouth smoothing portion 22 slides to the preset concave position, the elastic jumping bead falls into the concave position, so that the guide rod 23 and the first mouth smoothing portion 22 are fixed, and the guide rod 23 is a rigid piece, so that the first mouth smoothing portion 22 is fixed with the frame body 21.

Another preferred embodiment of the connecting device is as follows: the connecting device comprises a telescopic rod, and two ends of the telescopic rod are respectively connected with the first smoothing-out part 22 and the frame body 21. Preferably, the telescopic rod comprises an outer pipe and an inner pipe sleeved with the outer pipe, the inner pipe is connected with an elastic jumping bead, a hole position for the elastic jumping bead to be embedded in is arranged on the outer pipe, the outer pipe and the inner pipe slide to realize extension and retraction, and the outer pipe and the inner pipe are locked after the elastic jumping bead is embedded in the hole position.

Yet another preferred embodiment of the connecting device is as follows: the connecting device comprises a connecting rod structure, and two ends of the connecting rod structure are respectively connected with the first smoothing-out part 22 and the frame body 21. The connecting rod structure comprises a first connecting rod and a second connecting rod which is rotatably connected with the first connecting rod, and two ends of the first connecting rod and the second connecting rod are rotatably connected with the first smoothing opening part 22 and the frame body 21 respectively. The locking piece is preferably a limiting block movably arranged on the rotating joint of the first connecting rod and the second connecting rod, the limiting block is a rigid piece, and the limiting block can limit the rotation of the first connecting rod and the second connecting rod after being fixed with the first connecting rod and the second connecting rod. Preferably, the connecting rod structure is a diamond-shaped connecting rod, and two ends of the diamond-shaped connecting rod are respectively and rotatably connected with the first smoothing-out part 22 and the frame body 21. The locking piece can also be used on the diamond-shaped connecting rod and can fix the rotating joint on the diamond-shaped connecting rod, and after the person skilled in the art knows the implementation manner, the scheme for locking the diamond-shaped connecting rod can be clearly implemented, so that the detailed description is omitted.

In this embodiment, the frame further includes a positioning member 24 for fixing the first gate portion 22 and the frame body 21; the positioning member 24 is a rigid member as a whole, and can limit the movement between the first smoothing-out portion 22 and the frame body 21 under the use environment of the utility model product, one end of the positioning member 24 is fixedly connected or rotatably connected or connected in an abutting manner with the first smoothing-out portion 22, and the other end of the positioning member 24 is connected with the frame body 21 in a buckling manner; the structure that the buckle links to each other includes the technical means in the prior art, for example, there is an elastic jump bead on the setting element 24, is equipped with the concave position on the support body 21, and the elastic jump bead falls into the concave position and can realize that the buckle links to each other to keep setting element 24 and support body 21 at fixed state. Another embodiment is: compared with the scheme, the positions of the positioning piece 24 and the first smoothing-out part 22 are interchanged with each other, one end of the positioning piece 24 is connected with the first smoothing-out part 22 in a buckling mode, and the other end of the positioning piece 24 is connected with the frame body 21. The snap connection structure includes technical means in the prior art, for example, an elastic jumping bead is arranged on the positioning member 24, a concave position is arranged on the first smoothing mouth portion 22, and the elastic jumping bead falls into the concave position to realize the snap connection, so that the positioning member 24 and the first smoothing mouth portion 22 are kept in a fixed state.

As a preferred scheme, in this embodiment, support body 21 still includes and has a vacancy when crowded water mop board 1 penetrates the second of vacancy is smoothed out with the fingers the mouth portion, the second smooth out with first smooth out with the mouth portion 22 and be in same axis, the second smooth out with the distance between the first smooth out with the mouth portion 22 is less than mop board 1's length, during crowded water mop board 1 can penetrate the second smooth out with first smooth out with the mouth portion 22, the second smooth out with the mouth portion relative first smooth out with the mouth portion 22 is closer to the top of mop pole 12. The support body 21 in this embodiment has included two and has smoothed out the mouth part with fingers the mouth part with the second, and first smooth out the mouth part with fingers the mouth part with the second 22, and during wringing, the mop board 1 can be in the second simultaneously and smooth out the mouth part with the first 22 of smoothing out with fingers the mouth part with the second, consequently, when the stroke of the activity of wringing frame 2 is less than the length of mop board 1, the wringing frame 2 can scrape whole wiper 11, for the user saves physical power, can wash longer wiper 11 with short stroke again simultaneously, following problem has been solved to this scheme: because the arm length of a person usually has a range, a longer mop plate 1 can wipe a larger area when mopping, and because of the limitation of the arm length, the mop plate 1 which is too long has a problem of insufficient stroke when cleaning the wiping materials 11, namely: due to the limitation of the length of the arm, the whole wiping object 11 can not be cleaned when the movable stroke of the wringing frame 2 is insufficient, and the scheme well solves the problem. First smooth out with the mouth portion 22 and the second smooth out with the fingers the mouth portion for fixed structure as in this application, promptly: the distance between the first smoothing-out part and the second smoothing-out part is not adjustable, the moving stroke of the water squeezing frame 2 can be reduced when the wiping objects 11 are cleaned, but the stroke of the mop plate 1 which is finally separated is long enough, and the stroke cannot be shortened when the mop plate is separated, which is a problem that the first smoothing-out part 22 and the second smoothing-out part are in a fixed structure. The first smoothing-out part 22 and the second smoothing-out part in the embodiment are arranged close to and far away from the second smoothing-out part, when the water squeezing frame 2 is to be separated from the mop plate 1, the water squeezing frame 2 is moved to separate the second smoothing-out part from the mop plate 1, and then the first smoothing-out part 22 is moved to be close to the second smoothing-out part until being separated from the mop plate 1, so that the structure ensures that the movable stroke of the water squeezing frame 2 can be shortened when the mop is switched to a mopping state.

In the art, the size of the wipe 11 is generally comparable to the size of the mop plate 1.

Example 2:

as shown in fig. 4 to 7, the flat mop with water squeezing of the present embodiment includes: the mop plate 1 is provided with a wiping object 11; a mop rod 12 rotatably connected to the mop plate 1; the wringing frame 2 can slide along the axial line of the mop rod 12. The wringing frame 2 comprises a frame body 21, the frame body 21 is generally provided with a hand-held part, the frame body 21 is sleeved outside the mop rod 12, and the frame body 21 can slide relative to the axial direction of the mop rod 12; a flat mop for squeezing water further comprises a first smoothing opening part 22 which is provided with a vacancy and through which the mop plate 1 penetrates during squeezing water, and a squeezing part for scraping the wiping objects 11 is arranged on the first smoothing opening part 22 corresponding to the positions of the wiping objects 11. When the mop 11 of the mop needs to be cleaned, the mop plate 1 is rotated to be parallel to the mop rod 12, the water squeezing frame 2 is pushed, the mop plate 1 penetrates the first smoothing mouth part 22, and the squeezing piece on the first smoothing mouth part 22 squeezes the mop 11, so that dirt and water on the mop 11 are removed. When mopping is needed, the water squeezing frame 2 is moved upwards, the first smoothing mouth part 22 is separated from the mop plate 1, and the mop is switched to a mopping state. In this embodiment, the first stroking portion 22 is connected to the frame 21, and the first stroking portion 22 is movably disposed close to and away from the frame 21. When the mop material 11 needs to be cleaned, the first smoothing-out part 22 is arranged relatively far away from the frame body 21; when mopping or logistics packaging is carried out, the first smoothing-out part 22 is arranged relatively close to the frame body 21. The main problem that this kind of structure was solved is that, the first mouth of smoothing out with fingers among the prior art and support body 21 are the fixed continuous setting, and both can't adjust distance between them after combining again, and consequently the length of crowded water frame is longer, and the cost of commodity circulation transportation increases, and the manufacturing of production mould is also high, and the shared space is also big after the use, is unfavorable for accomodating. The distance between the first smoothing opening and the frame body 21 is adjustable, so that the water squeezing frame 2 can be adjusted to be in a longer state when the wiping materials 11 of the mop need to be cleaned; when mopping or logistics packing, the wringing rack 2 can be adjusted to a shorter state.

In this embodiment, the first smoothing-out portion 22 is connected to the frame body 21 by a connecting device. The connecting device keeps the first smoothing-out part 22 and the frame body 21 in a connected state, and the distance between the first smoothing-out part 22 and the frame body 21 can be adjusted.

Preferably, the frame body 21 includes an operating member, the connecting device includes a rotating cylinder 25 rotatably sleeved outside the mop rod 12, and the rotating cylinder 25 is rotatably connected to the operating member; a threaded pipe 26 is fixedly arranged on the outer layer of the mop rod 12, the rotating cylinder 25 is in threaded transmission connection with the threaded pipe 26, the rotating cylinder 25 is in threaded transmission connection with the pushing pipe 27, the pushing pipe 27 is in linear sliding connection with the mop rod 12, the operating part is pushed to drive the rotating cylinder 25 to rotate, and the rotating cylinder 25 rotates to drive the pushing pipe 27 to move linearly; the first smoothing opening part 22 is connected with the push tube 27.

Preferably, the outer surface of the rotary cylinder 25 is provided with an annular groove 250 arranged around the circumference of the rotary cylinder 25, the operation member is provided with a convex member 211 matched with the annular groove 250, and the convex member 211 is arranged in the annular groove 250. After the rotary cylinder 25 and the operation member are combined in a concave-convex mode through the annular groove 250 and the convex member 211, the rotary cylinder and the operation member are arranged in a circumferential rotating mode, and the movement of the rotary cylinder and the operation member is limited in the axial direction, namely: are fixedly connected in the axial direction. The rotary cylinder 25 can follow the movement of the operating member.

Preferably, the threaded pipe 26 has an external thread, the rotary cylinder 25 has a convex body matching with the external thread of the threaded pipe 26, the convex body matching with the external thread of the threaded pipe 26 in this embodiment is a generic concept, and in specific implementation, the convex body matching with the external thread of the threaded pipe 26 may be a convex point, a section of spiral protrusion, or a complete spiral protrusion; the rotary cylinder 25 has an internal thread, and the push tube 27 has a convex body matched with the internal thread of the rotary cylinder 25, and in specific implementation, the convex body matched with the internal thread of the rotary cylinder 25 may be a convex point, a section of spiral protrusion, or a complete spiral protrusion. Or, the push pipe 27 has an external thread, and the rotary cylinder 25 has a convex body matched with the external thread of the push pipe 27. In practical application, the convex body matched with the external thread of the push tube 27 may be a convex point, a section of spiral protrusion, or a complete spiral protrusion.

Preferably, the thread pitch of the screw driving connection between the rotary cylinder 25 and the screw pipe 26 is smaller than the thread pitch of the screw driving connection between the rotary cylinder 25 and the push pipe 27. Specifically, when the threaded pipe 26 has an external thread and the push pipe 27 has an external thread, the rotary cylinder 25 is a bridge in threaded transmission with the threaded pipe 26 and the push pipe 27, and the pitch of the external thread on the threaded pipe 26 is smaller than that of the external thread on the push pipe 27. Under this configuration, after the operating member has translated a certain distance, the pitch of the external thread on the threaded tube 26 is relatively small, so the circumferential rotation angle of the rotary cylinder 25 is large, and the pitch of the external thread on the pushing tube 27 is relatively large, so the circumferential rotation of the rotary cylinder 25 pushes the pushing tube 27 to translate a longer distance relative to the translation distance of the rotary cylinder 25. The present embodiment is merely a single embodiment to illustrate the solution, and the positions of the threads can be interchanged according to the situation, and can be implemented without technical contribution, so that the specifically illustrated case is not limited to be implemented only in the case of the present embodiment, but is only used for clearly illustrating the embodiment.

The first nozzle portion 22 configured in this manner has a longer range of movement with respect to the operator, and the first nozzle portion 22 can be stored easily.

Preferably, the operation member is provided coaxially with the rotary cylinder 25, and a bearing is provided between the operation member and the rotary cylinder 25.

Preferably, rollers 3 which are contacted with the side edge of the mop plate 1 when the mop plate 1 moves in the stroking mouth part are respectively arranged at two sides of the first stroking mouth part 22, and the rollers 3 are arranged in a rotating way. Preferably, the two ends of the roller 3 are respectively provided with a flange 31 which is circumferentially and annularly arranged, and the mop plate 1 is arranged between the two flanges 31, so that the circumferential movement of the mop plate 1 is limited, and the translational water squeezing is facilitated.

Preferably, the first stroking-out portion 22 or the extension section of the first stroking-out portion 22 is provided with a guide strip, the guide strip comprises a relatively convex strip-shaped piece and a relatively concave strip-shaped groove, the mop rod 12 is fixedly connected with a positioning block matched with the guide strip, and the positioning block is matched with the guide strip in a concave-convex manner to limit the first stroking-out portion 22 to slide linearly along the extension direction of the guide strip. Thereby facilitating the passage of a mop book through the first mouth smoothing portion 22.

As shown in fig. 1-8, as a preferable mode of the two embodiments, in the present embodiment, the mop plate 1 is provided with the wiping material 11, the first smoothing-out portion 22 is provided with a temporary storage chamber 6 for temporarily storing the water for washing the wiping material 11, and the temporarily stored water flows to the wiping material 11 when the mop is cleaned. Specifically, the temporary storage chamber 6 is an area capable of storing water, external water can be stored in the temporary storage chamber 6, and when water is squeezed, the water in the temporary storage chamber 6 flows to the wiping object 11 due to the influence of the squeezing movement in the horizontal moving process of the squeezing frame 2. The embodiment realizes the water transfer through the temporary storage cavity 6, and diffuses and releases the water liquid in the temporary storage cavity 6 to the wiping material 11, so that the whole area of the wiping material 11 can be washed by water. Specifically, when the mop is washed by the mop barrel, due to the limitation of the size of the mop barrel, the water liquid in the mop barrel cannot soak the whole wiping material 11 and can only partially soak the wiping material, and the movable temporary storage cavity 6 can bring the water liquid to the wiping material 11 at a high position when positioned below the mop barrel, so that the low-position water liquid is transferred to the high position to wash the whole area of the wiping material 11, and the used barrel is relatively small. Preferably, a pressing member for pressing the wiper 11 provided on the mop plate 1 when the mop is washed is provided at the first smoothing out portion 22, and the pressing member is a scraper 51, a rotating roller 52 provided rotatably, or a combination of the scraper 51 and the rotating roller 52 provided rotatably. When the wringing rack 2 is in motion, the rotating roller 52 in the embodiment is in contact with the wipe 11, and the water of the wipe 11 can be thrown to other areas of the wipe 11 by the rotation of the rotating roller 52, so that the water in the wipe 11 can be transferred.

In this embodiment, the pressing member is a combination of a doctor blade 51 and a rotatably provided rotating roller 52, and the rotating roller 52 is provided below the doctor blade 51. The rotating roller 52 in this embodiment is disposed below the scraper 51, and the rotating roller 52 can transfer water, because the rotating roller 52 is disposed below the scraper 51, i.e. corresponding to the end of the wiping object 11, if the scraper 51 is disposed, water cannot be transferred, and water at the end of the wiping object 11 may be directly scraped off, and cannot be effectively utilized.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the utility model as defined in the accompanying claims.

Claims (20)

1. A flat mop with water squeezing function is composed of a mop plate, a mop rod linked to said mop plate, and a water squeezing frame able to slide along the axial line of mop rod; the water squeezing frame comprises a frame body and a first smoothing-out portion, the first smoothing-out portion is provided with a vacancy, the mop plate penetrates into the vacancy when water is squeezed, and the water squeezing frame is characterized in that the first smoothing-out portion is connected with the frame body in a retaining mode, and the first smoothing-out portion can be close to and far away from the movable setting of the frame body.

2. The wringing flat mop of claim 1, wherein: the first smoothing-out part is connected with the frame body through a connecting device.

3. The wringing flat mop of claim 2, wherein: the connecting device comprises a guide rod which slides with the first smoothing opening part or the frame body when the distance between the first smoothing opening part and the frame body is adjusted, and the first smoothing opening part and the frame body are kept fixed after the distance between the first smoothing opening part and the frame body is adjusted to a preset position.

4. The wringing flat mop of claim 3, wherein: the guide rod is connected with the frame body in a sliding mode and is fixedly connected with the first smoothing opening part; or the guide rod is fixedly connected with the frame body, and the guide rod is connected with the first smoothing part in a sliding manner.

5. The wringing flat mop of claim 2, wherein: the connecting device comprises a telescopic rod, and two ends of the telescopic rod are connected with the first smoothing-out part and the frame body respectively.

6. The wringing flat mop of claim 2, wherein: the connecting device comprises a connecting rod structure, and two ends of the connecting rod structure are respectively connected with the first smoothing-out part and the frame body in a rotating mode.

7. A wringing flat mop according to any one of claims 3 to 6, wherein: the first smoothing opening part is fixedly connected with the frame body; one end of the positioning piece is connected with the first smoothing opening part, and the other end of the positioning piece is connected with the frame body buckle; or, one end of the positioning piece is connected with the first smoothing-out part buckle, and the other end of the positioning piece is connected with the frame body.

8. The wringing flat mop of claim 3, wherein: a positioning mechanism for limiting the movement of the guide rod and the first smoothing-out part or the frame body is arranged between the guide rod and the first smoothing-out part or between the guide rod and the frame body.

9. The wringing flat mop of claim 6, wherein: the connecting rod structure comprises a diamond-shaped connecting rod, and two ends of the diamond-shaped connecting rod are respectively connected with the first smoothing-out part and the frame body in a rotating mode.

10. A wringing flat mop as claimed in any one of claims 1, 2, 3, 4, 5, 6, 8 or 9 wherein: the support body is still including having a vacancy when the wringing the mop board penetrates the second of vacancy is smoothed out with the mouth portion with first smooth out with the mouth portion and be in same axis, the second smooth out with the mouth portion with first smooth out with the distance between the mouth portion be less than the length of mop board, during the wringing the mop board can penetrate the second smooth out with first smooth out with the mouth portion, the second smooth out with the mouth portion relatively first smooth out with the mouth portion more be close to the top of mop pole.

11. The wringing flat mop of claim 2, wherein: the frame body comprises an operating piece, the connecting device comprises a rotating cylinder which is sleeved outside the mop rod and is rotatably arranged, and the rotating cylinder is rotatably connected with the operating piece; the outer layer of the mop rod is fixedly provided with a threaded pipe, the rotating cylinder is in threaded transmission connection with the push pipe, the push pipe is in linear sliding connection with the mop rod, the push operating part drives the rotating cylinder to rotate, and the rotation of the rotating cylinder drives the push pipe to move linearly; the first smoothing opening part is connected with the push tube.

12. The wringing flat mop of claim 11, wherein: the outer surface of the rotary cylinder is provided with an annular groove arranged around the circumference of the rotary cylinder, the operating part is provided with a convex part matched with the annular groove, and the convex part is arranged in the annular groove.

13. The wringing flat mop of claim 11, wherein: the threaded pipe is provided with an external thread, and the rotary drum is provided with a convex body matched with the external thread of the threaded pipe; the rotary cylinder is provided with an internal thread, the push pipe is provided with a convex body matched with the internal thread of the rotary cylinder, or the push pipe is provided with an external thread, and the rotary cylinder is provided with a convex body matched with the external thread of the push pipe.

14. The wringing flat mop of claim 11, wherein: the operating piece and the rotating cylinder are coaxially arranged, and a bearing is arranged between the operating piece and the rotating cylinder.

15. The wringing flat mop of claim 11, wherein: the screw pitch of the rotary cylinder in transmission connection with the thread of the threaded pipe is smaller than that of the rotary cylinder in transmission connection with the thread of the push pipe.

16. The wringing flat mop of claim 11, wherein: the first smoothing opening part or the extension section of the first smoothing opening part is provided with a guide strip, the mop rod is fixedly connected with a positioning block matched with the guide strip, and the positioning block is matched with the guide strip in a concave-convex mode to limit the first smoothing opening part to slide linearly along the extension direction of the guide strip.

17. A wringing flat mop according to claim 1 or 11, wherein: and rollers which are contacted with the side edge of the mop plate when the mop plate moves in the smoothing opening part are respectively arranged on two sides of the first smoothing opening part, and the rollers are rotatably arranged.

18. The wringing flat mop of claim 1, wherein: the mop plate is provided with a wiping material, the first smoothing opening part is provided with a temporary storage cavity which can temporarily store water for washing the wiping material, and the temporarily stored water flows to the wiping material when the mop is washed.

19. The wringing flat mop of claim 1, wherein: an extrusion part for scraping the wiping material is arranged at the position, corresponding to the wiping material, of the first smoothing mouth part, and the extrusion part is a scraper, or a rotary roller arranged in a rotating mode, or a combination of the scraper and the rotary roller arranged in a rotating mode.

20. The wringing flat mop of claim 19, wherein: the extruded part is a combination of a scraper and a rotary roller which is rotatably arranged, and the rotary roller is arranged below the scraper.

Images