CN219742643U - Double-sided extrusion type mop bucket - Google Patents

Abstract

The utility model discloses a double-sided extrusion type mop bucket, which comprises a bucket body, wherein a bucket cover is arranged on the bucket body, a water outlet is arranged at the lower part or the bottom of the bucket body, a water flushing bin is arranged on the bucket cover, a water flushing port is arranged on the water flushing bin, a first inserting position and a second inserting position which can be used for a flat mop to move up and down are arranged on the bucket cover, a first extruder is arranged on the first inserting position, a second extruder is arranged on the second inserting position, the first extruder and the second extruder are arranged oppositely, when the flat mop moves up and down at the first inserting position, the first extruder extrudes and cleans a wiper, and after the water flushing port stops flushing, the first extruder extrudes and dewaters the wiper; the second press squeezes and dewaters the wipe as the flat mop moves up and down at the second insert. This two-sided extrusion formula mop bucket can realize the two-sided extrusion of wiping article, has saved the gesture adjustment step of wiping article, and it is more convenient to squeeze water, has increased the randomness of use, and it is felt to experience, long service life.

Description

Double-sided extrusion type mop bucket

Technical Field

The utility model relates to a cleaning tool, in particular to a double-sided extrusion type mop bucket.

Background

The flat mop is favored by people in a simple structure, high efficiency and convenient cleaning process. Meanwhile, more and more cleaning devices for cleaning flat mops are also in the market, wherein the cleaning device or the water squeezing device in the mop barrel and mop hair are utilized to relatively move so as to realize the cleaning and dehydration of the wiping object, and particularly the mop barrel capable of being cleaned while being flushed is provided with a squeezing plate for squeezing the wiping object, and a drain hole is formed in the squeezing plate for draining the squeezed sewage, so that the problem that the cleaning degree of the mop washed by the dirty water is poor due to the fact that the dirty water is reused is avoided, and the mop is popular with consumers. The structure of the conventional flat mop cleaning device mostly comprises a barrel body, wherein a barrel cover is arranged at the upper opening of the barrel body, a water outlet is formed in the bottom of the barrel body, a cleaning opening, a water flushing bin and a water leakage hole are formed in the barrel cover, an extruder is arranged on the cleaning opening, a water flushing opening is formed in the water flushing bin, when the flat mop moves up and down at the cleaning opening, the water flushing opening flushes the wiping object of the flat mop, the extruder extrudes and cleans the wiping object, after the water flushing opening stops flushing, the extruder extrudes and dewaters the wiping object, and water extruded from the wiping object is discharged into the barrel body through the water leakage hole and is discharged through the water outlet.

Because mop head and mop pole swing joint and mop head distinguish wiper side and dorsal part, therefore wash the mouth often set up to with mop head, mop pole cross-section profile modeling structure, this just needs the mop head to need to distinguish the squeezer side on the bucket lid earlier when squeezing water or wasing, and then just can insert the mouth with the mop head wiper side to aim at the squeezer side, otherwise the mop head can't insert the mouth of wasing in order to realize squeezing water or wasing of mop head, therefore the user can not realize according to the state when originally grasping the mop pole quick, convenient realization mop head wringing, the use randomness is relatively poor, experience sense is not high. The mop head is squeezed by the squeezer to realize scraping or dewatering, and the squeezer is usually a plastic product, so that the mop head is easy to deform after long-term use, and the cleaning effect is not clean or the squeezing effect is poor. In addition, the squeezer in the conventional mop bucket is relatively fixed in position, so that the squeezing force and the squeezing effect of the squeezer on the wiping article are relatively fixed, a user can wipe ceramic tiles and glass, can wipe the wood floor and can also have the water stain cleaning requirement, the requirements of wiping the ceramic tiles and the glass on the wood floor and cleaning the moisture of the wiping article are different, and the long-time wiping of the wood floor by the wet wiping article is extremely easy to cause the deformation of the wood floor, so that the service life is influenced. And when the moisture content of the wiping article is high, the water stain removing effect is also greatly reduced. However, when the squeezer has smaller squeezing force and poorer squeezing effect on the wiping objects, the requirement of the wiping objects such as ceramic tiles and glass on the humidity can be met easily, but when the requirements of wood floors and water stain removal are met, a user is required to move up and down for many times to remove excessive moisture on the wiping objects, and even the requirement of drying cannot be met by moving up and down for many times. When the extruding force of the extruding device on the wiping objects is large, the extruding effect is good, the wiping object moisture requirement of the wood floor can be easily met, but the wiping object moisture requirement of the ceramic tiles and the glass is difficult to meet, and even the mop head can be difficult to insert into the extruding device or the process of inserting the mop head into the extruding device is not smooth.

Disclosure of Invention

The utility model aims to provide the double-sided extrusion type mop bucket, which can realize double-sided extrusion of the wiping objects, saves the posture adjustment step of the wiping objects, has more convenient water extrusion, increases the use randomness, has good experience and long service life.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the double-sided extrusion type mop bucket comprises a bucket body, wherein a bucket cover is arranged on the bucket body, a water outlet is formed in the lower part or the bottom of the bucket body, a water flushing bin is arranged on the bucket cover, a water flushing port is formed in the water flushing bin, a first inserting position and a second inserting position which can be used for the flat mop to move up and down are formed in the bucket cover, a first extruder is arranged on the first inserting position, a second extruder is arranged on the second inserting position, the first extruder and the second extruder are oppositely arranged, when the flat mop moves up and down at the first inserting position, the water flushing port flushes the wiping objects of the flat mop, the first extruder extrudes and washes the wiping objects, and after the water flushing port stops flushing, the first extruder extrudes and dehydrates the wiping objects, and water extruded from the wiping objects can be discharged into the bucket body and is discharged through the water outlet; when the flat mop moves up and down at the second inserting position, the second squeezer squeezes and dewaters the wiping object, and water squeezed from the wiping object can be discharged into the barrel body and discharged through the water outlet. Through be equipped with on the bung and supply flat mop to reciprocate first position and the second to insert the position and set up two relative first extruder and second extruder on first position and the second to insert for no matter flat mop's the wiper side aim at first extruder or with first extruder looks 180 second extruder, flat mop all can realize squeezing water, reaches two side extrusion, has saved the gesture adjustment step of wiping thing, and consequently flat mop squeezing water is more convenient, and the user squeezes water more at will, experiences and feels and promotes thereupon, and first extruder, second extruder life also obtains the extension.

Preferably, the second extruder applies a greater extrusion force to the wipe than the first extruder applies to the wipe. The user can reach different extrusion dynamics, the extrusion effect of extruder to the wiper according to the demand, satisfies the different moistures demands of wiper easily, and adaptability is stronger.

Preferably, a rotatable roller is arranged between the first extruder and the second extruder, when the flat mop moves up and down at the first inserting position, the flat mop is inserted between the first extruder and the roller, the roller is abutted against the back side of the flat mop, the flat mop can move up and down between the first extruder and the roller, and the first extruder extrudes, washes or dewaters the wiping object; when the flat mop moves up and down at the second inserting position, the flat mop is inserted between the second squeezer and the roller, the roller is propped against the back side of the flat mop, the flat mop can move up and down between the second squeezer and the roller, and the second squeezer squeezes and dewaters the wiping objects. The flat mop can move up and down between the first squeezer and the roller and between the second squeezer and the roller more smoothly and in a labor-saving manner, and the corresponding squeezer can squeeze and wash or dewater the wiping objects.

Preferably, the rollers are provided with two or two groups, when the rollers are provided with two groups, the first inserting position and the second inserting position share the rollers, when the rollers are provided with two groups, one group of rollers are arranged near the first extruder side, and the other group of rollers are arranged near the second extruder side. The first inserting position and the second inserting position share the roller, so that the whole structure is simpler and more compact; or the first extruder and the second extruder respectively correspond to a group of rollers, and the service life of the rollers is longer.

Preferably, when the number of the rollers is two, the distance between the rollers and the first extruder is greater than the distance between the rollers and the second extruder; when the rollers are provided with two groups, the distance between the roller near the first extruder side and the first extruder is larger than the distance between the roller near the second extruder side and the second extruder. The user can reach different wringing effects to the wiping object according to the wringing requirement, different humidity requirements of the wiping object are easily met, the adaptability is stronger, and the structure is simpler.

Preferably, the two sides of the roller are provided with rotating shafts, the two sides of the barrel cover are provided with supporting frames, the side walls of the barrel cover on the supporting frames and the corresponding sides are provided with mounting grooves corresponding to the rotating shafts, the rotating shafts on the two sides of the roller can penetrate into the mounting grooves, and the roller moves up and down freely along with the flat mop when the flat mop moves up and down at the first inserting position or the second inserting position. The extrusion force of the first extruder or the second extruder to the wiping object is adjusted, so that the extrusion force is strong when the flat mop is pressed down, and the extrusion force is small when the flat mop is pulled up, so that the flat mop is easy to pull out.

Preferably, the roller is disposed on and rotatable on a supporting shaft having elasticity, and the supporting shaft is elastically deformed and forms supporting and pressing force to the flat mop by the roller when the flat mop moves up and down at the first insertion position or the second insertion position. Therefore, when the flat mop moves up and down in the first inserting position or the second inserting position, the roller not only can support the back side of the flat mop, but also can achieve adaptive deformation, so that the extrusion force of the first extruder or the second extruder on the wiping object can be finely adjusted, and the flat mop can be inserted and moved up and down more smoothly.

Preferably, the end part of the supporting shaft is provided with a radial through notch and a limiting shaft shoulder protruding out of the side surface of the supporting shaft, and the end part of the limiting shaft shoulder is provided with a slope; the center of the roller is provided with a fixing hole, and the fixing hole of the roller is penetrated on the supporting shaft by elastically deforming the end part of the supporting shaft towards the notch; the supporting shaft and the barrel cover are integrally formed. The end part of the supporting shaft is pinched by hands to enable the end part of the supporting shaft to elastically deform towards the notch, then the roller is penetrated on the supporting shaft, and the end part of the supporting shaft recovers the elastic deformation, so that the roller installation can be completed.

Preferably, when the first squeezer squeezes and dewaters the wiping object, water squeezed from the wiping object is discharged into the barrel body through the first water leakage hole and is discharged through the water outlet; when the second squeezer squeezes and dewaters the wiping object, the water squeezed from the wiping object is discharged into the barrel body through the second water leakage hole and is discharged through the water outlet.

Preferably, the flush port is located above a first wiper blade, the first wiper blade comprising a first wiper blade, and the second wiper blade comprising a second wiper blade. So that the water from the flush port can flow directly onto the flat mop wipe being cleaned at the end of the first wiper blade.

Preferably, a plurality of parallel guide plates are arranged on the first extruder and the second extruder, and the guide plates extend to the edges of the first extruder or the second extruder and are provided with arc-shaped ends or wedge-shaped ends, and when the flat mop is inserted into the first insertion position or the second insertion position, the arc-shaped ends or the wedge-shaped ends guide the flat mop. The flat mop is beneficial to being led into corresponding insertion positions along the arc-shaped end or the wedge-shaped end, and can also play a role in guiding water flow and strengthening the strength of the first extruder and the second extruder.

Preferably, wiper teeth are provided below the first wiper blade.

Preferably, the flushing port is a slit consistent with the extending direction of the first extruder or is a rectangular port arranged on the side wall of the flushing bin, the first water leakage hole is arranged between the flushing port and the first extruder, and the second water leakage hole is arranged on the second extruder.

Preferably, a plurality of suckers are arranged on the side wall of the barrel body. The barrel body can be firmly fixed on the wall surface.

Preferably, the first extruder, the second extruder and the barrel cover are integrally formed. The processing and the assembly are more convenient.

Preferably, the water flushing bin is provided with a clamping tongue, the barrel cover is provided with a clamping groove corresponding to the clamping tongue, the water flushing bin is clamped and fixed on the barrel cover by clamping the clamping tongue on the clamping groove, or the water flushing bin is provided with the clamping groove, the barrel cover is provided with the clamping tongue corresponding to the clamping groove, and the water flushing bin is clamped and fixed on the barrel cover by clamping the clamping tongue on the clamping groove. The flushing bin is very convenient to install.

Preferably, the first and second sockets are connected in a through-going manner to form a substantially rectangular opening area. The barrel cover is simpler to process.

Preferably, the first inserting position and the second inserting position are separately and independently arranged, and the strength of the barrel cover is higher.

Preferably, the bottom of the barrel body is funnel-shaped.

Preferably, the supporting frame and the barrel cover are integrally formed; or the support frame is detachably connected with the barrel cover, when the support frame is detachably connected with the barrel cover, clamping edges are arranged on two sides of the support frame, clamping grooves corresponding to the clamping edges are formed in the barrel cover, and the support frame is detachably connected with the barrel cover through the clamping edges and the clamping grooves. The supporting frame and the barrel cover are integrally formed, so that the assembly is more convenient and the strength is higher; or the supporting frame is connected with the barrel cover in a detachable way through the clamping edge and the clamping groove, and the supporting frame is simpler to install, detach and replace.

Preferably, the lower part of the support frame is connected with the side wall of the barrel cover on the corresponding side through a connecting piece, the connecting piece is provided with a connecting arm, a first connecting protrusion and a second connecting protrusion, the first connecting protrusion is connected with the lower part of the support frame, and the second connecting protrusion is connected with the side wall of the barrel cover on the corresponding side. The lower part of the support frame is connected with the side wall of the barrel cover through the connecting piece, the support frame is prevented from deforming towards the side of the far roller, the rotating shaft is caused to fall off from the mounting groove, the roller is caused to fall off, and the roller mounting reliability is higher.

Preferably, the lower part of the supporting frame is provided with a first connecting hole or a first connecting groove matched with the first connecting protrusion, the side wall of the barrel cover on the corresponding side is provided with a second connecting hole or a second connecting groove matched with the second connecting protrusion, the first connecting protrusion is inserted into the first connecting hole or the first connecting groove, the second connecting protrusion is inserted into the second connecting hole or the second connecting groove, the lower part of the supporting frame is connected with the side wall of the barrel cover on the corresponding side by the connecting piece, and the installation is very convenient.

Further preferably, the barrel cover is provided with marks for distinguishing different extrusion forces. For example, a conventional squeezing mark is arranged on the first inserting position side, and a deep squeezing mark is arranged on the second inserting position side, so that the use of a user is more convenient.

Drawings

FIG. 1 is a schematic top view of a first embodiment of a dual sided extrusion mop bucket;

FIG. 2 is a schematic perspective view of a first embodiment of the present double-sided squeeze mop bucket;

fig. 3 is a schematic view showing an exploded perspective structure of a first embodiment of a tub cover;

FIG. 4 is a schematic cross-sectional view of a first embodiment of a lid;

fig. 5 is a schematic view showing an exploded perspective structure of a second embodiment of a tub cover;

FIG. 6 is a schematic top view of a third embodiment of a dual sided squeeze mop bucket;

FIG. 7 is a schematic perspective view of a third embodiment of a double-sided squeeze mop bucket;

fig. 8 is a schematic view showing an exploded perspective structure of a third embodiment of a tub cover;

FIG. 9 is a schematic top view of a fourth embodiment of the dual sided squeeze mop bucket (with the first and second inserts separately disposed);

fig. 10 is a schematic view showing an exploded perspective structure of a fifth embodiment of a tub cover;

fig. 11 is a schematic top view of the double-sided squeezing mop bucket (with a logo).

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 11, the double-sided squeezing mop bucket comprises a bucket body 1, wherein a bucket cover 2 is arranged on the bucket body 1, a water outlet 3 is arranged at the lower part or the bottom of the bucket body 1, a water flushing bin 4 is arranged on the bucket cover 2, a water inlet 41 and a water flushing port 42 are arranged on the water flushing bin 4, the water inlet 41 is connected with a water pipe, a first inserting position 51 for the flat mop to move up and down and a second inserting position 52 for the flat mop to move up and down are arranged on the bucket cover 2, a first squeezer 61 is arranged on the first inserting position 51, a second squeezer 62 is arranged on the second inserting position 52, and the first squeezer 61 and the second squeezer 62 are opposite to each other, namely, are different by 180 degrees, so that when the flat mop moves up and down at the first inserting position 51, the wiping object is flushed from the water flushing port 42, the first squeezer 61 squeezes and washes the wiping object, after the water flushing port 42 stops, the first squeezer 61 squeezes and dehydrates the wiping object, and the water squeezed out of the wiping object is discharged into the bucket body through the water outlet 3; as the flat mop moves up and down at the second insert 52, the second press 62 presses the wipe to remove water from the wipe, which is drained into the bucket and through the drain. Therefore, no matter the wiping object side of the flat mop is aligned with the first extruder side or the second extruder side which is 180 degrees different from the first extruder side, the flat mop can squeeze water, double-side extrusion is achieved, the posture adjustment step of wiping objects is omitted, the flat mop is more convenient to squeeze water, the user can squeeze water more randomly, the experience is improved, and the service lives of the first extruder and the second extruder are prolonged. In this embodiment, a rotatable roller 7 is disposed between the first extruder 61 and the second extruder 62, so that when the flat mop moves up and down at the first insertion position 51, the flat mop is inserted between the first extruder 61 and the roller 7, and the roller 7 abuts against the back side of the flat mop, so that the flat mop can move up and down between the first extruder 61 and the roller 7 more smoothly and in a labor-saving manner, and the first extruder can press, clean or dewater the wiping object; when the flat mop moves up and down at the second inserting position 52, the flat mop is inserted between the second squeezer 62 and the roller 7, and the roller 7 abuts against the back side of the flat mop, so that the flat mop can move up and down between the second squeezer 62 and the roller 7 more smoothly and in a labor-saving manner, and the second squeezer 62 squeezes and dewaters the wiping object. The rollers 7 are symmetrically provided with two or two groups, when the rollers are provided with two groups, the first inserting position 51 and the second inserting position 52 share the two rollers, when the rollers are provided with two groups, one group of rollers are arranged near the first extruder 61, the other group of rollers are arranged near the second extruder 62, when the flat mop moves up and down at the first inserting position 51, the flat mop is inserted between the first extruder 61 and the near first extruder side roller 710, and the near first extruder side roller 710 abuts against the back side of the flat mop; as the flat mop moves up and down at the second insertion location 52, the flat mop is inserted between the second press 62 and the near second press side roller 720, the near second press side roller 720 abutting the back side of the flat mop. In this embodiment, the first insert 51 and the second insert 52 are connected in a penetrating manner to form a substantially rectangular opening area, and the first insert and the second insert share the roller, so that the overall structure is simpler and more compact. The first insertion site 51 and the second insertion site 52 may be separately provided.

In a preferred embodiment, the second extruder 62 applies a greater extrusion force to the wipe than the first extruder 61 applies to the wipe, so that the user can achieve different extrusion forces and extrusion effects of the extruder on the wipe as desired, and can easily meet different moisture requirements of the wipe, with greater flexibility. When the ceramic tile and the glass are wiped, the flat mop can be moved up and down at the first inserting position, so that the first extruder can carry out conventional extrusion dehydration on the wiping objects, and the conventional humidity requirement is met; when the wooden floor is wiped, water stains are removed, the flat mop can be moved up and down at the second inserting position, the second squeezer can deeply squeeze and dewater the wiping objects, the lower humidity requirement is achieved, and the application range is wider. Specifically, when two rollers are provided, the distance between the roller and the first extruder 61 is greater than the distance between the roller and the second extruder 62; when the rollers are provided with two groups, the distance between the roller near the first extruder side and the first extruder is larger than the distance between the roller near the second extruder side and the second extruder. Further, the rotating shafts 71 for supporting the rollers are integrally arranged on two sides of the roller 7, the supporting frames 72 are arranged on two sides of the barrel cover 2, the mounting grooves 73 corresponding to the rotating shafts 71 on two sides of the roller are arranged on the supporting frames 72, the rotating shafts 71 can penetrate into the mounting grooves 73 and slide up and down in the mounting grooves 73, so that the rollers move up and down freely along with the flat mop when the flat mop moves up and down at the first inserting position or the second inserting position, the extrusion force of the first extruder 61 or the second extruder 62 on the wiping objects is adjusted, the extrusion force is high when the flat mop is pressed down, and the extrusion force is small when the flat mop is pulled up, so that the flat mop is easy to pull out. The supporting frame 72 and the barrel cover 2 are integrally formed, so that the assembly is more convenient and the strength is higher; still further, the lower part of the supporting frame 72 and the corresponding side of the barrel cover side wall 210 are connected through a connecting piece 220, the connecting piece 220 is integrally formed and provided with a connecting arm 221, a first connecting bulge 222 and a second connecting bulge 223, the first connecting bulge 222 is connected with the lower part of the supporting frame, and the second connecting bulge 223 is connected with the corresponding side of the barrel cover side wall 210, so that the supporting frame and the barrel cover are easier to integrally form and process, and meanwhile, the supporting frame 72 can be prevented from deforming towards the far roller side, the rotating shaft is prevented from falling off from the mounting groove, the roller is prevented from falling off, and the roller mounting reliability is higher; specifically, a first connection hole 224 or a first connection groove matched with the first connection protrusion 222 is formed at the lower part of the support frame 72, a second connection hole or a second connection groove 225 matched with the second connection protrusion 223 is formed on the corresponding side of the barrel cover side wall 210, the first connection protrusion 222 is inserted into the first connection hole 224 or the first connection groove, the second connection protrusion 223 is inserted into the second connection hole or the second connection groove 225, and the lower part of the support frame 72 is connected with the corresponding side of the barrel cover side wall 210 by the connecting piece 220 quickly. The support frame 72 can also be detachably connected with the barrel cover, when the support frame 72 is detachably connected with the barrel cover, the clamping edges 721 are arranged on the two side edges of the support frame 72, the clamping grooves 722 corresponding to the clamping edges 721 are formed in the barrel cover 2, the clamping edges 721 are elastically deformed to enable the clamping edges to be clamped in the clamping grooves 722, the support frame 72 is detachably connected with the barrel cover, and the support frame and the rollers are simpler to install, detach and replace. In one embodiment, the roller 7 is rotatably arranged on the elastic supporting shaft 74, and the supporting shaft 74 and the barrel cover 2 are integrally formed, so that the number of parts and the installation procedure are further reduced. The end part of the supporting shaft 74 is provided with a radial through notch 75 and a limit shaft shoulder 76 protruding out of the side surface of the supporting shaft 74, the end part of the limit shaft shoulder 76 is provided with a slope, the center of the roller is provided with a fixing hole 78, the end part of the supporting shaft 74 is enabled to be smaller in size by enabling the end part of the supporting shaft 74 to elastically deform towards the notch 75, the fixing hole 78 can be smoothly arranged on the supporting shaft 74 in a penetrating mode, the slope enables the fixing hole 78 to be rapidly and smoothly arranged on the supporting shaft 74 in a penetrating mode, the end part of the supporting shaft 74 is elastically deformed in a restoring mode, and the limit shaft shoulder 76 plays a limiting role on the fixing hole 78 to ensure that the roller cannot fall off. The diameter of the supporting shaft is preferably 2-10mm, so that when the flat mop moves up and down in the first inserting position or the second inserting position, the roller can support the back side of the flat mop and also can achieve adaptive deformation, the extrusion force of the first extruder or the second extruder on the wiping object is finely adjusted, and the flat mop can be inserted and moved up and down more smoothly. The end part of the supporting shaft is pinched by hands to enable the end part of the supporting shaft to elastically deform towards the notch, then the roller is penetrated on the supporting shaft, and the end part of the supporting shaft recovers the elastic deformation, so that the roller installation can be completed.

Further, marks 12 for distinguishing different extrusion forces can be arranged on the barrel cover 2. For example, a conventional squeezing mark 121 is arranged on the first inserting position side, and a deep squeezing mark 122 is arranged on the second inserting position side, so that the use of the device is more convenient.

In a preferred embodiment, when the wiper is squeezed and dehydrated by the first squeezing means 61, water squeezed from the wiper is discharged into the tub through the first water leakage hole 81 and is discharged through the water discharge hole; when the second press 62 presses and dewaters the wiper, water pressed from the wiper is discharged into the tub through the second water leakage hole 82 and is discharged through the water discharge hole. The above-described flush port 42 is provided in a side wall of the flush tank 4 above the first wiper blade 61, the first wiper blade 611 being included in the first presser 61, and the second wiper blade 621 being included in the second presser 62. So that the water flushed from the flushing port 42 can directly flow to the flat mop wiper being cleaned at the end of the first wiper blade 611, and the first water leakage hole 81 serves to drain the cleaned dirty water. A wiper tooth 612 may be added to a lower portion of the first wiper blade 611 for combing the wiper to remove filaments such as hair. The first water leakage hole 81 is preferably provided between the water flushing port 42 and the first press 61, and the second water leakage hole 82 is provided on the second press 62. The flushing port 42 may be a slit in the same direction as the first extruder 61 or a rectangular port arranged on the side wall of the flushing chamber, and has a larger water flow than a common round hole, so that the flushing is cleaner. In this embodiment, a plurality of parallel guide plates 9 are disposed on the first extruder 61 and the second extruder 62, and the guide plates 9 extend to the edges of the first extruder or the second extruder and have arc ends 91 or wedge ends, so that when the flat mop is inserted into the first insertion position or the second insertion position, the arc ends 91 or the wedge ends can guide the flat mop, which is beneficial to guiding the flat mop into the corresponding insertion position along the arc ends 91 or the wedge ends, and can also play a role in guiding water flow and enhancing the strength of the first extruder 61 and the second extruder 62. The first extruder, the second extruder and the barrel cover are integrally formed, so that the strength is higher, the installation is more convenient, and the production cost is lower.

In a preferred embodiment, the clamping tongue 44 is arranged on the flushing bin 4, the clamping groove 21 corresponding to the clamping tongue 44 is arranged on the bin cover 2, the flushing bin 4 is clamped and fixed on the bin cover 2 by clamping the clamping tongue 44 on the clamping groove 21, or the clamping groove is arranged on the flushing bin 4, the clamping tongue corresponding to the clamping groove is arranged on the bin cover, the flushing bin is clamped and fixed on the bin cover by clamping the clamping tongue on the clamping groove, and the flushing bin is very convenient to install. Furthermore, the bottom of the barrel body is funnel-shaped, so that sewage can be completely discharged, and the funnel-shaped bottom surface plays a role in guiding acceleration and flushing in the sewage discharge process, so that precipitated pollutants are discharged along with the funnel-shaped bottom surface.

In a preferred embodiment, a plurality of suction cups 10 are provided on the side wall of the tub 2 for sucking the tub to the wall. The suction cup 10 is divided into two to three layers, and each layer is provided with one to three layers, so that the barrel 10 can be more firmly fixed on the wall surface.

The present embodiments are merely illustrative of the present utility model and are not intended to be limiting, and the technical solutions that are not substantially transformed under the present utility model are still within the scope of protection.

Claims (23)

1. The double-sided extrusion type mop bucket is characterized in that a first inserting position and a second inserting position which can be used for a flat mop to move up and down are arranged on the bucket cover, a first extruder is arranged on the first inserting position, a second extruder is arranged on the second inserting position, the first extruder and the second extruder are opposite, when the flat mop moves up and down at the first inserting position, the flushing opening flushes water to a wiping object of the flat mop, the first extruder extrudes and washes the wiping object, after the flushing opening stops flushing water, the first extruder extrudes and dehydrates the wiping object, and water extruded from the wiping object can be discharged into the bucket body and discharged through the water outlet; when the flat mop moves up and down at the second inserting position, the second squeezer squeezes and dewaters the wiping object, and water squeezed from the wiping object can be discharged into the barrel body and discharged through the water outlet.

2. The dual sided squeeze mop bucket of claim 1, wherein the second squeeze applies a greater squeeze force on the wipe than the first squeeze applies on the wipe.

3. The double-sided squeeze mop bucket of claim 1 or 2, wherein rotatable rollers are provided between the first and second squeezers, the flat mop being interposed between the first squeezer and the rollers as the flat mop moves up and down at the first insertion site, the rollers being abutted against the back side of the flat mop, the flat mop being movable up and down between the first squeezer and the rollers, the first squeezer squeezing the wipes for cleaning or dewatering; when the flat mop moves up and down at the second inserting position, the flat mop is inserted between the second squeezer and the roller, the roller is propped against the back side of the flat mop, the flat mop can move up and down between the second squeezer and the roller, and the second squeezer squeezes and dewaters the wiping objects.

4. The double-sided squeeze mop bucket of claim 3, wherein the rollers are provided in two or more groups, and when the rollers are provided in two groups, the first insertion position and the second insertion position share the rollers, and when the rollers are provided in two groups, one group of rollers is provided near the first squeezer side, and the other group of rollers is provided near the second squeezer side.

5. The double-sided squeeze mop bucket of claim 4, wherein when the rollers are provided in two, a distance between the rollers and the first squeeze is greater than a distance between the rollers and the second squeeze; when the rollers are provided with two groups, the distance between the roller near the first extruder side and the first extruder is larger than the distance between the roller near the second extruder side and the second extruder.

6. The double-sided squeeze mop bucket of claim 4, wherein the rollers are provided with rotating shafts on both sides, the bucket cover is provided with supporting frames on both sides, the supporting frames and the bucket cover side walls on the corresponding sides are provided with mounting grooves corresponding to the rotating shafts on both sides of the rollers, the rotating shafts can penetrate into the mounting grooves, and the rollers move freely up and down along with the flat mop when the flat mop moves up and down at the first insertion position or the second insertion position.

7. The double-sided squeeze mop bucket of claim 4, wherein the roller is disposed on and rotatable on a support shaft having elasticity, the support shaft being elastically deformed and forming a supporting and squeezing force to the flat mop by the roller when the flat mop moves up and down at the first insertion position or the second insertion position.

8. The double-sided extrusion type mop bucket of claim 7, wherein the end part of the supporting shaft is provided with a radial through notch and a limit shaft shoulder protruding out of the side surface of the supporting shaft, and the end part of the limit shaft shoulder is provided with a slope; the center of the roller is provided with a fixing hole, and the fixing hole of the roller is penetrated on the supporting shaft by elastically deforming the end part of the supporting shaft towards the notch; the supporting shaft and the barrel cover are integrally formed.

9. The double-sided squeeze mop bucket of claim 3, wherein when the first squeeze squeezes and dewaters the wiper, water squeezed from the wiper is discharged into the bucket through the first water leakage hole and is discharged through the water discharge hole; when the second squeezer squeezes and dewaters the wiping object, the water squeezed from the wiping object is discharged into the barrel body through the second water leakage hole and is discharged through the water outlet.

10. The double sided squeeze mop bucket of claim 9, wherein the flush port is located above a first squeeze, the first squeeze including a first wiper blade and the second squeeze including a second wiper blade.

11. The double sided squeeze mop bucket of claim 9, wherein a plurality of parallel guide plates are provided on each of the first and second squeegees, the guide plates extending to the edges of the first or second squeegees and having arcuate or wedge-shaped ends that guide the flat mop when the flat mop is inserted into the first or second insertion position.

12. The double sided squeeze mop bucket of claim 10, wherein wiper teeth are provided below the first wiper blade.

13. The double-sided squeeze mop bucket of claim 10, wherein the flush opening is a slit in line with the direction of extension of the first squeeze or is a rectangular opening arranged on the side wall of the flush bin, the first water leakage hole is disposed between the flush opening and the first squeeze, and the second water leakage hole is disposed on the second squeeze.

14. The double-sided squeeze mop bucket of claim 3, wherein a plurality of suction cups are provided on the sidewall of the bucket body.

15. The double sided squeeze mop bucket of claim 3, wherein the first squeeze and the second squeeze are integrally formed with the bucket cover.

16. The double-sided squeezing type mop bucket according to claim 3, wherein the water flushing bin is provided with a clamping tongue, the bucket cover is provided with a clamping groove corresponding to the clamping tongue, the water flushing bin is clamped and fixed on the bucket cover by clamping the clamping tongue on the clamping groove, or the water flushing bin is provided with the clamping groove, the bucket cover is provided with the clamping tongue corresponding to the clamping groove, and the water flushing bin is clamped and fixed on the bucket cover by clamping the clamping tongue on the clamping groove.

17. The double sided squeeze mop bucket of claim 3, wherein the first insert and the second insert are connected through to form a substantially rectangular open area.

18. The double sided squeeze mop bucket of claim 3, wherein the first insert and the second insert are separately provided.

19. The double-sided squeeze mop bucket of claim 3, wherein the bucket body bottom is funnel-shaped.

20. The double-sided squeeze mop bucket of claim 6, wherein the support bracket is integrally formed with the bucket cover; or the support frame is detachably connected with the barrel cover, when the support frame is detachably connected with the barrel cover, clamping edges are arranged on two sides of the support frame, clamping grooves corresponding to the clamping edges are formed in the barrel cover, and the support frame is detachably connected with the barrel cover through the clamping edges and the clamping grooves.

21. The double-sided squeeze mop bucket of claim 6, wherein the lower portion of the support frame and the corresponding side of the bucket cover side wall are connected by a connecting member having a connecting arm, a first connecting protrusion and a second connecting protrusion, the first connecting protrusion being connected to the lower portion of the support frame, and the second connecting protrusion being connected to the corresponding side of the bucket cover side wall.

22. The double-sided squeeze mop bucket of claim 21, wherein a first coupling hole or a first coupling groove is provided at the lower portion of the supporting frame to be engaged with the first coupling protrusion, and a second coupling hole or a second coupling groove is provided at the sidewall of the tub cover at the corresponding side to be engaged with the second coupling protrusion, and the coupling member couples the lower portion of the supporting frame to the sidewall of the tub cover at the corresponding side by inserting the first coupling protrusion into the first coupling hole or the first coupling groove and inserting the second coupling protrusion into the second coupling hole or the second coupling groove.

23. The double-sided extrusion type mop bucket according to claim 2, wherein marks for distinguishing extrusion forces are arranged on the bucket cover.