CN215305631U - Flat mop squeezing bucket - Google Patents

Abstract

The utility model provides a flat-plate water squeezing mop bucket which comprises a bucket body, wherein a water storage cavity is arranged in the bucket body, a cleaning opening is formed in the bucket body, a mop can extend into the water storage cavity, a squeezing device is arranged at the cleaning opening of the bucket body, and an ejection mechanism for ejecting the mop outwards is arranged on the bucket body. The cleaning and water squeezing device is designed into one opening, water squeezing of the mop is realized by water squeezing when the mop is lifted, the mop is cleaned when being inserted into the cleaning opening to the water storage cavity, the squeezing device and mop head wiping objects squeeze water when the mop is pulled out, and the cleaning and water squeezing purposes are realized by one opening and one cavity, so that the cleaning and water squeezing of the mop are more convenient and quicker.

Description

Flat mop squeezing bucket

Technical Field

The utility model belongs to the technical field of cleaning tools, and particularly relates to a flat plate water squeezing mop bucket.

Background

The flat plate water squeezing mop in the market at present realizes cleaning and water squeezing through a matched mop bucket, two cavities are arranged in the mop bucket, one cavity is a cleaning cavity, the other cavity is a water squeezing cavity, the mop is cleaned in the cleaning cavity and then placed in the water squeezing cavity for water squeezing, a partition plate is required to be designed in the design of the mop bucket, the cost is high, and the water squeezing cavity is required to be arranged, so that the space of the cleaning cavity is small, water is easy to dirty due to insufficient water storage capacity of the cleaning cavity, and the mop cannot be cleaned cleanly; and the wringing of the existing mop is that when the mop is pressed downwards, the wiping material of the flat mop is squeezed and wrung by the scraper on the mop bucket, when the mop is wrung, the water wringing part is arranged below, and because the water wringing is the pressing water wringing, the water squeezed out in the wringing process often overflows the upper cover and enters the wringing cavity, even overflows the lower part of the wringed mop, so that the water wringing part absorbs water, and the water is difficult to wring out.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a flat plate water squeezing mop bucket with one opening for cleaning and squeezing water.

The utility model is realized by the following technical scheme:

a flat plate cleaning water squeezing mop bucket comprises a foldable flat plate mop body, a bucket body and a bucket cover, wherein the flat plate mop body comprises a mop rod and a flat plate mop head, the mop rod and the flat plate mop head form the foldable flat plate mop body, a cleaning opening for the flat plate mop to enter a water storage cavity is formed in the upper end of the bucket body, an extruding device capable of cleaning or squeezing garbage and water on the cleaning objects of the flat plate mop body is arranged at the cleaning opening, an ejecting mechanism capable of ejecting the flat plate mop upwards is arranged on the bucket body or the bucket cover, the flat plate mop is inserted into the bucket body from the cleaning opening to complete one-time power storage of the ejecting mechanism when in use, and the ejecting mechanism releases the power to eject the flat plate mop when the flat plate mop is taken out, so that one-time squeezing of the flat plate mop is completed.

The extruding device is provided with a scraper with a blade inclined towards the bottom of the barrel body, the scraper can be rotatably or fixedly connected to the barrel body or the barrel cover, and the extruding device is integrated with the barrel cover.

The extrusion device is arranged on the barrel body and the barrel cover, and the barrel body and the barrel cover are provided with pushing pieces for applying upward pushing force to the scraper; the pushing piece or the convex plate rib integrated with the lower cover or the elastic piece arranged on the barrel body and the barrel cover.

Preferably, a roller is arranged at the position of the cleaning opening of the barrel cover and is movably connected to the upper cover or the lower cover; or is movably arranged between the upper cover and the lower cover.

Preferably, the ejection mechanism comprises a pull rope, a roller for winding the pull rope and a reset mechanism for resetting the roller, the roller is movably connected to the barrel cover, the pull rope is wound on the roller and spans the cleaning opening, the lower end of the mop presses the pull rope when the mop is plugged into the cleaning opening, the roller rotates to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the mop plugging pressure is stopped.

Preferably, the number of the rollers is two, and the two rollers are respectively arranged on the barrel covers on two sides of the cleaning opening.

Preferably, the reset mechanism is a torsion spring or a coil spring, one end of the reset mechanism acts on the roller, and the other end of the reset mechanism acts on the barrel cover.

Preferably, the ejection mechanism comprises an elastic rope and a pulley block arranged on the barrel cover, the pulley block is movably connected to the barrel cover, the elastic rope is wound on the pulley block, at least two positions of the elastic rope transversely cross the cleaning opening, a supporting plate is connected to the position of the elastic rope transversely crossing the cleaning opening, the lower end of the mop is pressed against the supporting plate when the mop is plugged into the cleaning opening, and the supporting plate pushes the mop to ascend through the elastic restoring force of the elastic rope when the mop is pulled out.

Preferably, the pulley blocks are two groups, the number of the elastic ropes is two, the four pulleys are one group, each elastic rope winds around the pulleys, the two ends of each elastic rope are fixed on the barrel cover, the two pulleys are horizontally arranged, and the other two pulleys are vertically arranged.

Preferably, the ejection mechanism comprises a pull rope, rollers for winding the pull rope, a rotating shaft for mounting the rollers, and a reset mechanism for resetting the rollers, wherein two ends of the pull rope are respectively wound on the two rollers, the pull rope crosses the cleaning opening and is wound on the rollers through the guide of the guide wheel, the rollers are fixed at two ends of the rotating shaft, the rotating shaft is movably connected to the barrel cover, the reset mechanism is connected to the rotating shaft, the lower end of the mop presses the pull rope when the mop is plugged into the cleaning opening, the rollers rotate to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the plugging pressure of the mop stops being applied.

Preferably, the reset mechanism is a torsion spring, one end of the reset mechanism acts on the rotating shaft, and the other end of the reset mechanism acts on the barrel cover.

Preferably, the ejection mechanism comprises an elastic rope and a pulley block, wherein a supporting plate is arranged at the cleaning opening and connected with the elastic rope, a part of pulleys in the pulley block are arranged on the barrel body, the lower end of the mop is pressed against the supporting plate when the mop is plugged into the cleaning opening, and the supporting plate pushes the mop to rise through the elastic restoring force of the elastic rope when the mop is pulled out.

As the preferred, install the pulley on the staving and locate the staving outer wall to the setting of erroneous tendency staving bottom is equipped with the through-hole that supplies the elasticity rope to pass on the staving.

Preferably, the ejection mechanism comprises a pull rope, a roller for winding the pull rope and a reset mechanism for resetting the roller, the roller is movably connected to the barrel body and arranged outside the barrel body, the pull rope is wound on the roller and spans the cleaning opening, the pull rope is connected with the roller outside the barrel body in a guiding mode through a guide wheel, the lower end of the mop presses the pull rope when the mop is plugged into the cleaning opening, the roller rotates to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the mop plugging pressure is stopped.

Preferably, the two rollers are symmetrically arranged on two sides of the outer wall of the barrel body, the reset mechanism is a torsion spring or a coil spring, one end of the reset mechanism acts on the rollers, and the other end of the reset mechanism acts on the barrel body.

Preferably, the ejection mechanism comprises an elastic rope and a pulley block arranged on the barrel cover, each guide wheel of the pulley block is movably connected to the barrel cover, the elastic rope winds around each pulley to form a long-distance rope, one end of the rope is fixed to the barrel cover, a supporting plate is arranged at the position of the cleaning opening, the other end of the elastic rope is fixedly connected with the supporting plate, the lower end of the mop is pressed against the supporting plate when the mop is plugged into the cleaning opening, and the supporting plate pushes the mop to ascend through the elastic restoring force of the elastic rope when the mop is pulled out.

Preferably, the pulley blocks are two groups, and the two elastic ropes are symmetrically arranged.

The utility model has the beneficial effects that: the cleaning and water squeezing device is designed into one opening, water squeezing of the mop is realized by water squeezing when the mop is lifted, the mop is cleaned when being inserted into the cleaning opening to the water storage cavity, the squeezing device and mop head wiping objects squeeze water when the mop is pulled out, and the cleaning and water squeezing purposes are realized by one opening and one cavity, so that the cleaning and water squeezing of the mop are more convenient and quicker.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a schematic view of the structure of the lower barrel of the present invention;

FIG. 3 is a schematic view of the connection structure of the scraper blade of the present invention;

FIG. 4 is a schematic view of the construction of the doctor blade of the present invention;

FIG. 5 is a schematic structural diagram of an ejection mechanism according to an embodiment of the present invention;

fig. 6 is a schematic view of a connection structure between the ejection mechanism and the lower cover according to an embodiment of the utility model;

FIG. 7 is a schematic structural diagram of a second ejection mechanism according to an embodiment of the present invention;

fig. 8 is a schematic view of a connection structure between the ejection mechanism and the lower cover according to the second embodiment of the present invention;

FIG. 9 is a schematic structural view of the third embodiment;

FIG. 10 is a schematic structural view of a fourth embodiment;

FIG. 11 is a schematic view of a connection structure between the elastic cord and the barrel cover according to the fourth embodiment;

FIG. 12 is a schematic structural view of the fifth embodiment;

fig. 13 is a schematic structural view of the sixth embodiment.

Detailed Description

The present invention will be further described with reference to the following examples.

Example one

As shown in fig. 1-6, the flat mop squeezing bucket includes a bucket body with a water storage chamber therein, in this embodiment, the bucket body has only one chamber therein, the bucket body is provided with a cleaning opening 1 for a mop to extend into the water storage chamber, in this embodiment, the cleaning opening 1 is also a water squeezing opening, the cleaning opening 1 of the bucket body is provided with a squeezing device 2, and the bucket body is provided with an ejection mechanism 3 for ejecting the mop outwards. The barrel body in the embodiment comprises a lower barrel 5 and a barrel cover 4, and the ejection mechanism 3 is arranged on the barrel cover 4. The squeezing device 2 in this embodiment is a scraper with a blade inclined toward the bottom of the barrel, and the scraper is rotatably connected to the barrel in this embodiment in order that the mop is not blocked by the scraper when inserted into the barrel. In the embodiment, the scraper is movably connected to a barrel cover 4 of a barrel body, a mechanism for limiting the rotation range of the scraper is arranged on the barrel cover 4, in order to ensure that the scraper is at an inclination angle when a mop rises, a top rib 21 is arranged on the scraper, the top rib 21 is abutted against the barrel cover 4 when the mop rises, so that the scraper cannot continue to rotate upwards, the lower end of the mop pushes the scraper when the mop is inserted into the barrel body from a cleaning port 1, the scraper is movably connected to the barrel cover 4 and rotates downwards when pushed by the mop, so that a space is reserved for the mop, and in order to ensure that the scraper can be abutted against the mop to generate a water squeezing effect when the mop rises, a pushing piece 421 for applying upward pushing force to the scraper is arranged on the barrel cover 4; the pushing member 421 is a raised rib integrated with the barrel cover 4. The pushing member 421 is disposed on the lower cover 42 in this embodiment.

In the embodiment, in order to facilitate the production of the barrel cover 4 and the installation of the components on the barrel cover 4, the barrel cover 4 is designed to include an upper cover 41 and a lower cover 42, and the extruding device 2 is movably disposed between the upper cover 41 and the lower cover 42.

The ejection mechanism 3 described in this embodiment includes a pulling rope 31, a roller 32 for winding the pulling rope 31, and a resetting mechanism for resetting the roller 32, the roller 32 is movably connected to the barrel cover 4, in this embodiment, the roller 32 is connected to the lower cover 42, the pulling rope 31 is wound on the roller 32, and the pulling rope 31 is arranged across the cleaning opening 1, the lower end of the mop presses the pulling rope 31 when the mop is plugged into the cleaning opening 1, the roller 32 rotates to generate an elastic restoring force for the resetting mechanism, and the elastic restoring force generated by the resetting mechanism pushes the mop to rise when the application of the mop plugging pressure is stopped.

The cylinder 32 be two in this embodiment, locate respectively on the bung 4 of washing mouth 1 both sides, including 31 winding parts of stay cord and canceling release mechanical system installation part on the cylinder 32, off tracking when in order to prevent 31 winding of stay cord, it is protruding to be equipped with the fender that prevents 31 off tracking of stay cord on 31 winding parts of stay cord on cylinder 32, canceling release mechanical system be torsional spring 33 in this embodiment, torsional spring 33 cup joints on 32's canceling release mechanical system installation part, torsional spring 33 one end joint is on cylinder 32, the other end overlap joint is on bung 4, cylinder 32 one end activity inserts on bung 4 in this embodiment, other end swing joint is on cardboard 34, cardboard 34 joint is on bung 4. The stay cord 31 can be plastic rope in this embodiment, also can be wire rope, and for the cooperation mop that the stay cord 31 can be better in this embodiment, the tip department of mop sets up the recess that supplies stay cord 31 to go into best, and stay cord 31 can block in the recess of mop when the mop inserts washing mouth 1 like this, prevents stay cord 31 off tracking. In this embodiment for accurate control stay cord 31 is located the position of washing mouth 1, this embodiment is equipped with V-arrangement on bung 4 and supports mouth 411, stay cord 31 supports mouth 411 entering washing mouth 1 through V-arrangement after walking around cylinder 32, stay cord 31 can block all the time at the intermediate position that V-arrangement supported mouth 411 after receiving to push down to reset, because washing mouth 1 size is with the mop size is different, the mop is at the position basic uniformity of washing mouth 1 when the mop inserts, stay cord 31 is in V-arrangement and supports under the condition that mouth 411 position can obtain the assurance, can both accurately push away stay cord 31 when guaranteeing that the mop inserts at every turn.

In order to reduce the damage of the mop and the barrel cover 4 when the mop is inserted into the cleaning opening 1, in the embodiment, the roller 6 is installed at the cleaning opening 1 of the barrel cover 4, and the roller 6 is movably connected to the upper cover 41 or the lower cover 42; or the mop is movably arranged between the upper cover 41 and the lower cover 42, when the mop is inserted into or pulled out of the cleaning opening 1, the reverse side of the mop mopping surface is abutted against the roller 6, and the mop is in rolling fit with the roller 6, so that the abrasion of the mop and the barrel cover 4 is reduced.

Example two

As shown in fig. 7 and 8, the difference between the present embodiment and the first embodiment is that the ejection mechanism 3 includes an elastic rope 35 and a pulley block disposed on the barrel cover 4, the pulley block is movably connected to the barrel cover 4, the elastic rope 35 is wound around the pulley block, at least two positions of the elastic rope 35 transversely cross the cleaning opening 1, a supporting plate 36 is connected to the position of the elastic rope 35 transversely crossing the cleaning opening 1, the lower end of the mop presses the supporting plate 36 when the mop is inserted into the cleaning opening 1, and the supporting plate 36 pushes the mop to rise through the elastic restoring force of the elastic rope 35 when the mop is pulled out. The two ends of the supporting plate 36 are fixedly connected with the elastic ropes 35, the supporting plate 36 comprises a supporting part and rope pressing parts, the rope pressing parts fix the elastic ropes 35 on the supporting part, the rope pressing parts and the supporting part are fixed through screws, the number of the pulley blocks is two, the number of the elastic ropes 35 is two, the number of the pulleys 37 is one, the two ends of each elastic rope 35 are fixed on the barrel cover 4 after passing around the pulleys 37, the two pulleys 37 are horizontally installed, and the other two pulleys are vertically installed (see fig. 7). In this embodiment, the elastic rope 35 may be made of rubber or other rope with elastic expansion function.

EXAMPLE III

The difference between the present embodiment and the first embodiment as shown in fig. 9 is that: the ejection mechanism comprises a pull rope 31, rollers 6 for winding the pull rope 31, a rotating shaft 61 for installing the rollers 6 and a reset mechanism for resetting the rollers 6, wherein two ends of the pull rope 31 are respectively wound on the two rollers 6, the pull rope 31 strides across the cleaning opening 1 and is wound on the rollers 6 through the guide of a guide wheel 7, the rollers 6 are fixed at two ends of the rotating shaft 61, the rotating shaft 61 is movably connected onto the barrel cover 4, the reset mechanism is connected onto the rotating shaft 61, the lower end of the mop presses the pull rope 31 when the mop is plugged into the cleaning opening 1, the rollers 6 rotate to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to ascend when the mop plugging pressure is stopped to be applied. The reset mechanism in this embodiment is a torsion spring 33, one end of the reset mechanism acts on the rotating shaft 61, and the other end acts on the barrel cover 4.

Example four

The present embodiment differs from the first embodiment in that: the ejection mechanism comprises an elastic rope 35 and a pulley block, wherein a supporting plate 36 is arranged at the cleaning opening 1, the supporting plate 36 is connected with the elastic rope 35, a part of the pulley 37 in the pulley block is arranged on the barrel body, the lower end of the mop presses the supporting plate 36 when the mop is plugged into the cleaning opening 1, the supporting plate 36 pushes the mop to ascend through the elastic restoring force of the elastic rope 35 when the mop is pulled out, the pulley 37 arranged on the barrel body in the embodiment is arranged on the outer wall of the barrel body and is arranged at the bottom of the barrel body in a biased manner, and a through hole for the elastic rope to pass through is formed in the barrel body.

EXAMPLE five

The difference between the present embodiment and the first embodiment as shown in fig. 12 is that: the ejection mechanism comprises a pull rope 31, a roller 32 for winding the pull rope and a reset mechanism for resetting the roller 32, the roller 32 is movably connected to the barrel body and arranged outside the barrel body, the pull rope 31 is wound on the roller 32, the pull rope 31 crosses the cleaning opening 1, the pull rope 31 is connected with the roller 32 outside the barrel body in a guiding mode through a guide wheel 7, the lower end of the mop presses the pull rope 31 when the mop is plugged into the cleaning opening 1, the roller 32 rotates to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the mop plugging pressure is stopped. The rollers 32 are symmetrically arranged on two sides of the outer wall of the barrel body, the reset mechanisms are torsion springs or coil springs, one end of each reset mechanism acts on the rollers 32, and the other end of each reset mechanism acts on the barrel body.

EXAMPLE six

The difference between the present embodiment and the first embodiment as shown in fig. 13 is that: the ejection mechanism comprises an elastic rope 35 and a pulley block arranged on the barrel cover, each guide wheel 7 of the pulley block is movably connected to the barrel cover 4, the elastic rope 35 bypasses each pulley 37 to form a long-distance rope, one end of the rope is fixed on the barrel cover, a supporting plate 36 is arranged at the position of the cleaning opening 1, the other end of the elastic rope 35 is fixedly connected with the supporting plate 36, the lower end of the mop presses the supporting plate 36 when the mop is plugged into the cleaning opening 1, and the supporting plate 36 pushes the mop to ascend through the elastic restoring force of the elastic rope 35 when the mop is pulled out. The pulley blocks are two groups, and the two elastic ropes 35 are symmetrically arranged.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to explain the principles of the utility model, and that various modifications and alterations can be made by those skilled in the art without departing from the spirit and scope of the utility model.

Claims (14)

1. The utility model provides a dull and stereotyped crowded water mop bucket, includes folding dull and stereotyped mop, staving and bung, dull and stereotyped mop includes mop pole and dull and stereotyped mop head, and mop pole and dull and stereotyped mop head form folding dull and stereotyped mop, its characterized in that: the upper end of the barrel body is provided with a cleaning opening for the flat mop to enter the water storage chamber, the cleaning opening is provided with an extruding device capable of cleaning or extruding garbage and water on the cleaning object of the flat mop, the barrel body or the barrel cover is provided with an ejection mechanism capable of ejecting the flat mop upwards, when the barrel body or the barrel cover is used, the flat mop is inserted into the barrel body from the cleaning opening to complete one-time force storage of the ejection mechanism, when the flat mop is pulled out, the ejection mechanism releases the stored force to eject the flat mop, and one-time squeezing of the flat mop is completed.

2. A flat mop bucket as defined in claim 1 wherein: the extruding device is provided with a scraper with a blade inclined towards the bottom of the barrel body, the scraper can be rotatably or fixedly connected to the barrel body or the barrel cover, and the extruding device is integrated with the barrel cover.

3. A flat mop bucket as defined in claim 2 further characterized by: the extrusion device is arranged on the barrel body and the barrel cover, and the barrel body and the barrel cover are provided with pushing pieces for applying upward pushing force to the scraper; the pushing piece or the convex plate rib integrated with the lower cover or the elastic piece arranged on the barrel body and the barrel cover.

4. A flat mop bucket as claimed in claim 1, 2 or 3 wherein: the ejection mechanism comprises a pull rope, a roller for winding the pull rope and a reset mechanism for resetting the roller, the roller is movably connected to the barrel cover, the pull rope is wound on the roller and crosses the cleaning opening, the lower end of the mop presses the pull rope when the mop is plugged into the cleaning opening, the roller rotates to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the mop plugging pressure is stopped.

5. The flat mop bucket of claim 4, wherein: the two rollers are respectively arranged on the barrel covers on two sides of the cleaning opening, the reset mechanism is a torsion spring or a coil spring, one end of the reset mechanism acts on the rollers, and the other end of the reset mechanism acts on the barrel covers.

6. A flat mop bucket as claimed in claim 1 or claim 2 or claim 3 or claim 4 further including: the ejection mechanism comprises an elastic rope and a pulley block arranged on the barrel cover, the pulley block is movably connected to the barrel cover, the elastic rope is wound on the pulley block, the cleaning opening is transversely crossed at least two positions of the elastic rope, a supporting plate is connected to the position of the elastic rope transversely crossing the cleaning opening, the lower end of the mop is pressed against the supporting plate when the mop is plugged into the cleaning opening, and the supporting plate is pushed to rise through the elastic restoring force of the elastic rope when the mop is pulled out.

7. The flat mop bucket of claim 6, wherein: the pulley block be two sets ofly, the elasticity rope is two, four pulleys are a set of, every elasticity rope is walked around pulley back both ends and is fixed on the bung, two of them pulley horizontal installation, two other vertical installations.

8. A flat mop bucket as claimed in claim 1 or claim 2 or claim 3 or claim 4 further including: the ejection mechanism comprises a pull rope, rollers for winding the pull rope, a rotating shaft for mounting the rollers, and a reset mechanism for resetting the rollers, wherein two ends of the pull rope are respectively wound on the two rollers, the pull rope crosses the cleaning opening and is wound on the rollers through the guide of the guide wheel, the rollers are fixed at two ends of the rotating shaft, the rotating shaft is movably connected to the barrel cover, the reset mechanism is connected to the rotating shaft, the pull rope is jacked at the lower end of the mop when the mop is plugged into the cleaning opening, the rollers rotate to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to ascend when the mop stops applying the plugging pressure.

9. The flat mop bucket of claim 8, wherein: the reset mechanism is a torsion spring, one end of the reset mechanism acts on the rotating shaft, and the other end of the reset mechanism acts on the barrel cover.

10. A flat mop bucket as claimed in claim 1 or claim 2 or claim 3 or claim 4 further including: the ejection mechanism comprises an elastic rope and a pulley block, wherein a supporting plate is arranged at the cleaning opening and connected with the elastic rope, a part of pulleys in the pulley block are arranged on the barrel body, the lower end of the mop is pressed against the supporting plate when the mop is plugged into the cleaning opening, and the supporting plate pushes the mop to rise through the elastic restoring force of the elastic rope when the mop is pulled out.

11. A flat mop bucket as defined in claim 10 further comprising: the pulley arranged on the barrel body is arranged on the outer wall of the barrel body and is deviated to the bottom of the barrel body, and a through hole for the elastic rope to pass through is arranged on the barrel body.

12. A flat mop bucket as claimed in claim 1 or claim 2 or claim 3 or claim 4 further including: the push-out mechanism comprises a pull rope, a roller for winding the pull rope and a reset mechanism for resetting the roller, the roller is movably connected to the barrel body and arranged outside the barrel body, the pull rope is wound on the roller and spans the cleaning opening, the pull rope is connected with the roller outside the barrel body through a guide wheel in a guiding mode, the lower end of the mop presses the pull rope when the mop is plugged into the cleaning opening, the roller rotates to generate elastic restoring force for the reset mechanism, and the elastic restoring force generated by the reset mechanism pushes the mop to rise when the mop plugging pressure is stopped.

13. A flat mop bucket as defined in claim 12 wherein: the drum is two symmetrical outer wall sides of the barrel body, the reset mechanism is a torsion spring or a coil spring, one end of the reset mechanism acts on the drum, and the other end of the reset mechanism acts on the barrel body.

14. A flat mop bucket as claimed in claim 1 or claim 2 or claim 3 or claim 4 further including: the ejection mechanism comprises an elastic rope and pulley blocks arranged on the barrel cover, each guide wheel of each pulley block is movably connected to the barrel cover, the elastic rope bypasses each pulley to form a long-distance rope, one end of the elastic rope is fixed to the barrel cover, a supporting plate is arranged at the position of the cleaning opening, the other end of the elastic rope is fixedly connected with the supporting plate, the supporting plate is jacked at the lower end of the mop when the mop is plugged into the cleaning opening, the supporting plate jacks the mop to ascend through the elastic restoring force of the elastic rope when the mop is pulled out, the number of the pulley blocks is two, and the two elastic ropes are symmetrically arranged.

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