CN212186403U

CN212186403U - Mop with rocker power and renewable mop cloth

Info

Publication number: CN212186403U
Application number: CN202020531748.5U
Authority: CN
Inventors: 张凤英
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2020-12-22
Anticipated expiration: 2030-04-13

Abstract

The utility model discloses a mop with rocker power and capable of updating mop, which comprises a mop head and a mop rod movably or fixedly connected with the mop head, wherein the mop head comprises a mop seat, a rocking power mechanism, a closed-loop mop belt and a decontamination mechanism, and the mop seat is provided with the closed-loop mop belt which is used for wiping the floor and is wound to the mop surface of the mop seat; the mop seat is provided with a decontamination mechanism for cleaning the closed-loop mopping belt; the mop seat is provided with a shaking power mechanism which drives the closed-loop mop belt to rotate by taking the mop rod to reciprocate up and down as a power source. The utility model discloses can make the mop use more convenient, the mop washs conveniently, easy operation drags the base cloth constantly automatic renewal simultaneously, and simple structure, and the cost is lower, need not touch the mop wiper with the hand.

Description

Mop with rocker power and renewable mop cloth

Technical Field

The utility model relates to the technical field of mops, in particular to the technical field of mop renewable by rocker power.

Background

The mop is a basic cleaning tool in people's life, and the variety of mop is many at present, and the main mop mainly has following several types: the first type is a sponge roller mop represented by patent numbers 201020107667.9, 201620133693.6, 201410131066.4, 201320245775.6 and 201720787477.8, the sponge roller mop wipes the ground through a sponge roller made of special materials when mopping the ground, the sponge roller is pressed to dewater through an extruding device when dewatering and cleaning, the sponge roller of the mop is extremely serious in industrial production and limited in production, meanwhile, the sponge material is hard after being dried, and can be recovered after soaking in water for a long time, the service life is short, and the force required for squeezing water in use is large and is very laborious. The second type is a no-hand flat mop represented by patent numbers ZL201521127257X, 201420623574X, 2012200335586. The flat mop core structure free of hand washing is characterized in that a wringing handle is arranged on a mop rod and connected with a wringing head through a long-strip-shaped connecting mechanism, when wringing is needed, a mop head is rotated to be in a parallel state with the mop rod, then the wringing handle is pulled to drive the wringing head to move, the mop head penetrates into the wringing head, and relative motion between the mop head and the wringing head achieves wringing of a wiping object stuck on the mop head, so that hand washing free of the wiping object is achieved. The flat mop without hand washing is inconvenient to operate and troublesome in dehydration, the mop head is difficult to align and insert into the water squeezing head, and meanwhile, the flat mop is often stuck and laboursome in the pushing and pulling process. The third type is represented by patent number 2016208531802, which is called scraping in the industry as matching with a flat mop and a mop bucket, the flat mop moves up and down in the mop bucket to achieve the purposes of dehydration and cleaning, the mop bucket has a complex structure, large volume, high cost and high price, and meanwhile, the bucket occupies a space indoors. The fourth type is centrifugal rotary dehydration, which adopts a hand-press rotary mop rod, when dehydrating, two ends of the mop plate of the flat mop need to be bent and then placed in the dehydration area of the mop bucket, and the mop rod is pressed down, so that the mop plate of the flat mop is centrifugally rotated and dehydrated. The dewatering mode of the form needs to design the mop plate of the flat mop into a bendable structure, the structure is complex, and the dewatering mode needs to be matched with a hand-press rotary mop rod, so that the cost is high.

Patent No. 2017112564352 discloses a flat mop free from hand washing, which is dewatered by manually pulling a wiper through a squeezing mechanism, then the wiper is withdrawn by utilizing the rolling force of a coil spring 6, the hand is contacted with the wiper unsanitary, and the operation is inconvenient at the same time.

Meanwhile, the mop cloth of the mop is dirty when used, the floor is firstly mopped to be the cleanest, and the floor is gradually unclean along with the pollution of the mop cloth after the mop cloth is used, so that the mop needs to be cleaned, and the cleaning frequency is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems in the prior art, providing a mop with renewable rocker power, which can make the mop more convenient to use, the mop is convenient to clean, the operation is simple, the mop cloth can be continuously and automatically updated, the structure is simple, the cost is lower, and the mop wiping object does not need to be touched by hands.

In order to realize the purpose, the utility model provides a mop with the rocker power and the mop capable of being updated, which comprises a mop head and a mop rod which is movably or fixedly connected with the mop head, and is characterized in that: the mop head comprises a mop seat, a shaking power mechanism, a closed-loop mop belt and a dirt removing mechanism,

the mop seat is provided with a closed-loop mopping area which is used for mopping the floor and is wound on the mopping surface of the mop seat.

The mop seat is provided with a decontamination mechanism for cleaning the closed-loop mopping belt;

the mop seat is provided with a shaking power mechanism which drives the closed-loop mop belt to rotate by taking the mop rod to reciprocate up and down as a power source.

Preferably, the rocking power mechanism comprises a driving shaft connected with the mop rod, a driven shaft used for driving the closed-loop mop to move, and a one-way transmission mechanism used for connecting the driving shaft and the driven shaft in a transmission manner, wherein a shaft seat is arranged on the mop seat, and the driving shaft and the driven shaft are respectively arranged on the shaft seat.

Preferably, the mop rod comprises a power rocker, a handheld rod and a connecting sleeve, the power rocker is connected with the handheld rod through a pin shaft, and the connecting sleeve is sleeved on the power rocker or the handheld rod.

Preferably, the mop seat is provided with a support roller for supporting the closed-loop mop belt.

Preferably, the mop seat is provided with a supporting pressure plate for supporting the closed-loop mopping area.

Preferably, the lower surface of the support platen is attached to the inner surface of a closed loop mopping floor extending to a mopping floor position.

Preferably, the decontamination mechanism is positioned on the end surface of the mop seat.

Preferably, the dirt removing mechanism is positioned on the front face of the mop seat.

Preferably, the dirt removing mechanism comprises a dirt removing scraper fixedly arranged on the mop seat, and the dirt removing scraper is positioned on the side part of the closed-loop mopping belt.

Preferably, the decontamination mechanism further comprises two squeezing rollers, wherein two squeezing rollers form a group, a squeezing gap is formed between the two squeezing rollers in the same group, and the closed-loop dragging belt penetrates through the squeezing gap.

Preferably, the one-way transmission mechanism comprises a driving wheel, a driven wheel, a transmission belt and a one-way bearing, the driving wheel is fixedly arranged on the driving shaft, the driven wheel is fixedly arranged on the driven shaft, the driving wheel and the driven wheel are in transmission connection through the transmission belt, and the one-way bearing is arranged between the driven wheel and the driven shaft or between the driving wheel and the driving shaft.

Preferably, the one-way transmission mechanism comprises a one-way bearing, a driving gear and a driven gear, the driving gear is fixedly arranged on the driving shaft, the driven gear is fixedly arranged on the driven shaft, the driving gear is meshed with the driven gear, and the one-way bearing is arranged between the driven gear and the driven shaft or between the driving gear and the driving shaft.

Preferably, the mop head is hinged with the mop rod.

Preferably, the mop head is fixedly connected with the mop rod.

The utility model has the advantages that: the utility model discloses an utilize the abluent power of mop cloth of mop pole reciprocating rotation, will drag ground mechanism and dehydration structure set to set up on the mop, convenient to use waves power unit simultaneously and can make the wiper at mopping in-process automatic renewal through the reciprocating motion of mop pole, has increased the length and the usable floor area of wiper, can reduce the mop and wash the frequency, and the dehydration mode is unique and easy operation, convenient, need not touch the mop wiper with the hand.

Drawings

The length of the mop rod in the attached drawings of the utility model only shows the part, and the specific length is set according to the actual need.

The above and other features, properties and advantages of the present invention will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings in which like reference characters refer to like features throughout and in which:

FIG. 1 is a schematic perspective view of a rocker-powered mop of the present invention;

FIG. 2 is a right side view of the rocker-powered mop of the present invention showing a mopping position of the updatable mop;

FIG. 3 is a right side view of a dewatering body of a rocker powered mop refresher of the present invention;

FIG. 4 is an exploded view of a rocker-powered mop of the present invention;

FIG. 5 is a schematic view of a mop pole;

FIG. 6 is a schematic view of the mop rod in a bent state;

FIG. 7 is a schematic perspective view of a rocker-powered mop having a scrubbing blade at the front and rear ends;

FIG. 8 is a front perspective view of a scrubbing blade of a rocker-powered mop renewable mop of the present invention;

FIG. 9 is a front perspective view of the mop rod and mop head of a rocker-powered mop renewable mop according to the present invention movably connected;

FIG. 10 is a rear perspective view of the movable connection of the mop rod and the mop head of the rocker-powered mop renewable mop of the present invention;

FIG. 11 is a schematic view of a one-way transmission;

FIG. 12 is a schematic view of another one-way transmission;

FIG. 13 is a schematic perspective view of a rocker-powered mop of the present invention supporting a closed loop mop area with support rollers;

fig. 14 is a partial enlarged view of a portion a in fig. 13;

FIG. 15 is an exploded view of a rocker-powered mop of the present invention supporting a closed loop mop area with support rollers;

fig. 16 is a schematic perspective view of a rocker-powered mop of the present invention with a wringing roller.

In the figure: 1-mop rod, 11-power rocker, 12-handheld rod, 13-connecting sleeve, 2-mop head, 21-mop seat, 211-supporting pressure plate, 212-shaft seat, 213-supporting roller, 22-driving shaft, 23-driven shaft, 24-unidirectional transmission mechanism, 241-driving wheel, 242-driven wheel, 243-transmission belt, 244-unidirectional bearing, 245-driving gear, 246-driven gear, 25-closed-loop mopping belt, 26-decontamination mechanism, 261-decontamination scraper, 262-wringing roller.

Detailed Description

Referring to fig. 1, 2, 3 and 4, the mop with rocker power of the present invention comprises a mop head 2, a mop rod 1 movably or fixedly connected with the mop head 2, the mop head 2 comprises a mop seat 21, a rocking power mechanism, a closed-loop mop belt 25 and a decontamination mechanism 26,

the mop seat 21 is provided with a closed-loop mopping area 25 which is used for mopping the floor and is wound on the mopping surface of the mop seat 21, and the mopping surface of the mop seat 21 is a surface pressed on the floor when in a mopping state. The mopping surface can be the whole plane of the back surface of the mop seat 21, can also be a partial surface, and can also be an arc surface, the back surface of the mop seat 21 refers to the surface where the mopping surface is located, the closed-loop mopping area 25 bypasses from the mopping surface, when the mopping surface is pressed on the ground, the closed-loop mopping area 25 wound on the mopping surface can be contacted with the ground, the ground is wiped through the closed-loop mopping area 25, the closed-loop mopping area 25 refers to a mopping cloth with two ends connected to form a ring shape, the wiping of the closed-loop mopping area 25 on the ground is not limited to a plane, and can also be an arc surface, and can be contacted with at least one side of the ground to wipe the ground, the closed-loop mopping area 25 can be arranged in a front-back rotating mode as shown in figures 1-4, and can also be arranged in a left-right rotating mode, the left-right rotating.

The mop seat 21 is provided with a dirt removing mechanism 26 for cleaning the closed-loop mop belt 25; the dirt removing mechanism 26 is used for removing dirt adhered to the ground due to friction of the closed-loop mopping area 25, the structure form of the dirt removing mechanism can adopt various modes, the dirt removing mechanism 26 can be arranged on one side of the outer portion of the closed-loop mopping area 25, the closed-loop mopping area 25 can also penetrate through the dirt removing mechanism 26, the dirt removing mechanism 26 can clean the closed-loop mopping area 25 in a squeezing mode, a scraping mode or a combination mode of the squeezing mode and the scraping mode, meanwhile, the dirt removing mechanism 26 has resistance to the closed-loop mopping area 25, the closed-loop mopping area 25 can be prevented from rotating in the mopping process, the closed-loop mopping area 25 is driven to rotate by shaking the power mechanism, and water and impurities on the closed-loop mopping area 25 are removed through the dirt removing. The specific position of the dirt removing mechanism 26 can be set as required, and can be arranged at the upper part of the mop seat 21, as shown in fig. 8; or at the side end of the mop base 21, as shown in fig. 7, the mop head 2 can be placed at the edge of the water tub or a pad plate with a hollow lower part can be laid on the floor, and the squeezed water flows to the floor through holes on the pad plate, so as to remove the dirt on the closed-loop mop belt 25;

the mop seat 21 is provided with a shaking power mechanism which takes the reciprocating rotation of the mop rod 1 up and down as a power source to drive the closed-loop mop belt 25 to rotate. In the application process, as shown in fig. 3, during dehydration, dehydration is mainly performed in a toilet, the closed-loop mop belt 25 is washed by water flow, or the mop head 2 is placed in a bucket for stirring, then the mop head 2 is placed on the ground, the mop rod 1 is rotated up and down, the driven shaft 23 in the shaking power mechanism is driven by the mop rod 1 to rotate discontinuously in a single direction, and the closed-loop mop belt 25 is driven by the driven shaft 23 to rotate, as shown in fig. 4, 8, 10 and 15; when mopping, as shown in fig. 2, the mop rod 1 is held by hand, the closed-loop mopping area 25 is contacted with the ground to wipe the ground, the mop rod 1 can move up and down along with the action change of a person in the mopping process, the mop rod 1 drives the driven shaft 23 in the shaking power mechanism to rotate discontinuously in a one-way manner, the driven shaft 23 drives the closed-loop mopping area 25 to rotate, the side, facing the ground, of the closed-loop mopping area 25 can be continuously updated in the mopping process, and meanwhile, the used part of the closed-loop mopping area 25 continuously passes through the dirt removing mechanism 26 and is cleaned. The mop rod 1 is rotated up and down to be used as a power source to drive the closed-loop mop belt 25 to be cleaned, so that the mop cleaning device is simple in action, convenient to operate and simple in structure.

As shown in fig. 4, 7-10 and 15, the rocking power mechanism includes a driving shaft 22 connected to the mop rod 1, a driven shaft 23 for driving the closed-loop mop 25 to move, and a unidirectional transmission mechanism 24 for driving the driving shaft 22 and the driven shaft 23 to be connected, the mop base 21 is provided with a shaft seat 212, the driving shaft 22 and the driven shaft 23 are respectively arranged on the shaft seat 212, the driving shaft 22 is driven by the upward and downward rotation of the mop rod 1, the driving shaft 22 drives the driven shaft 23 to rotate through the unidirectional transmission mechanism 24, the driven shaft 23 drives the closed-loop mop 25 to rotate, the rocking power mechanism is arranged on the front surface of the mop base 21 because the mop rod 1 is connected with the rocking power mechanism, and the driving shaft 22 and the driven shaft 23 respectively pass through the shaft seat 212 on the mop base 21

The mode of the mop rod 1 can be various, can be an independent rod body, can also be two sections of hinged rods, and can be used, and is more convenient to use compared with the latter, as shown in fig. 5 and 6, the mop rod 1 comprises a power rocker 11, a handheld rod 12 and a connecting sleeve 13, the power rocker 11 is connected with the handheld rod 12 through a pin shaft, the connecting sleeve 13 is sleeved on the power rocker 11 or the handheld rod 12, the connecting sleeve 13 can slide up and down on the mop rod 1, in the dehydration process, the connecting sleeve 13 slides to the connecting end far away from the power rocker 11 and the handheld rod 12, the power rocker 11 is rotated back and forth through the handheld rod 12, and the power rocking mechanism is driven to move through the power rocker 11; when mopping, the power rocker 11 and the handheld rod 12 are connected into a rod through the sliding connecting sleeve 13; in a dehydration state, the connecting sleeve 13 can slide to the power rocker 11 and can also slide to the handheld rod 12, in order to make the connecting position of the power rocker 11 and the handheld rod 12 not easy to bend, the connecting sleeve 13 needs to have certain rigidity, the connecting sleeve 13 can be made of metal or hard plastic materials, and when the mop rod 1 is only a single rod, the swinging power mechanism can be driven to move through up-and-down rotation.

In this embodiment, there are various ways for supporting the closed-loop dragging belt 25, and finally, it is only necessary to rotate the closed-loop dragging belt 25, as shown in fig. 13-15, the support roller 213 for supporting the closed-loop dragging belt 25 is disposed on the mop seat 21, the support roller 213 tightly supports the closed-loop dragging belt 25, so that the closed-loop dragging belt 25 on the mopping floor is smoothly contacted with the ground, and the rotatable support roller 213 can reduce the friction force during the rotation of the closed-loop dragging belt 25. As shown in fig. 7, 8 and 10, the mop base 21 is provided with a supporting pressing plate 211 for supporting the closed-loop mop 25, the closed-loop mop 25 is tightly supported by the supporting pressing plate 211, so that the closed-loop mop 25 on the mop floor is smoothly contacted with the floor, the movement resistance of the closed-loop mop 25 in the rotation process can be increased by using the fixed supporting pressing plate 211, but the influence of the resistance on the normal use of the mop is small because the mop rod 1 is long and the moment is large.

If the lower surface of the mop seat 21 is a hole, the closed-loop mop 25 cannot be tightly attached to the ground in the mopping process, the solution is to attach the lower surface of the supporting pressing plate 211 to the inner surface of the closed-loop mop 25 extending to the mopping position, as shown in fig. 7, 8 and 10, the supporting pressing plate 211 is pressed against the inner side of the closed-loop mop 25, so that the closed-loop mop 25 on the mopping surface is not recessed when contacting with the ground, the pressure between the closed-loop mop 25 and the ground can be ensured, the friction force of the mopping is further improved, and the closed-loop mop 25 is ensured to be tightly contacted with the ground.

The function of the dirt removing mechanism 26 is to remove dirt on the closed-loop mop belt 25, the specific arrangement position of the dirt removing mechanism 26 may be various, and may be on the front surface of the mop base or on the end surface of the mop base, as shown in fig. 7, the dirt removing mechanism 26 is located on the end surface of the mop base 21, and when the closed-loop mop belt 25 moves through the dirt removing mechanism 26, dirt is squeezed and/or scraped by the dirt removing mechanism 26. As shown in fig. 8, the dirt removing mechanism 26 is located on the front surface of the mop base 21, and the dirt is squeezed or/and scraped by the dirt removing mechanism 26 during the movement of the closed-loop mop belt 25 through the dirt removing mechanism 26. .

As shown in fig. 7-11, the dirt removing mechanism 26 includes a dirt removing blade 261 fixed on the mop base 21, the scrubbing blade 261 is positioned to the side of the closed loop tow 25, the closed loop tow 25 rotates past the scrubbing blade 261, the dirt on the closed-loop dragging area 25 is scraped by the dirt scraping plates 261, the dirt scraping plates 261 can scrape solid dirt and can scrape partial moisture on the closed-loop dragging area 25, the number of the dirt scraping plates 261 can be set as required, the number of the dirt scraping plates 261 can be 3, the larger the number of the dirt scraping plates 261 is, the larger the resistance of the closed-loop dragging area 25 is, but the cleaner the dirt on the closed loop mop 25 is cleaned, and conversely, the less resistance, the less clean is the cleaning, the decontamination scraper 261 can be integrally injection-molded with the mop base 21, and the decontamination scraper 261 can be fixedly connected with the mop base 21 through bolts.

In this embodiment, although the dirt removing scraper 261 can remove dirt and partial moisture on the closed-loop mop 25, in order to remove more moisture, the dirt removing scraper 261 needs to be pressed on the closed-loop mop 25, in the using process, not only the resistance is large, but also the closed-loop mop 25 is damaged, and the service life of the closed-loop mop 25 is reduced, therefore, the wringing rollers 262 may be installed on the mop base 21, as shown in fig. 16, two of the wringing rollers 262 form one group, a wringing gap is formed between two wringing rollers 262 in the same group, the closed-loop mop 25 passes through the wringing gap, when the closed-loop mop 25 rotates through the gap between two wringing rollers 262 in the same group, the dirt on the closed-loop mop 25 is squeezed out through the wringing rollers 262, in the dirt application process, if the wringing rollers 262 are used in cooperation with the dirt removing scraper 261, the dirt removing scraper 261 is installed in front of the wringing rollers 262, that the closed-loop mop 25 passes through the dirt removing scraper 261, the closed loop draw zone 25 is then passed over the wringer roller 262. The wringing roller 262 can also be used independently, in the using process, solid dirt on the closed-loop dragging belt 25 needs to be removed through washing, water flushing can be carried out, stirring and shaking can be carried out in water, and then water on the closed-loop dragging belt 25 is removed through squeezing of the wringing roller 262; the back of the wringing roller 262 can also be provided with a decontamination scraper 261, water on the closed-loop dragging zone 25 is firstly removed by squeezing through the wringing roller 262, and then solid dirt on the closed-loop dragging zone 25 is removed through the decontamination scraper 261.

In this embodiment, since the movement mode of the mop rod 1 is reciprocating rotation, in order to convert the reciprocating rotation into unidirectional continuous movement, the unidirectional transmission mechanism 24 is required, the mechanism of the unidirectional transmission mechanism 24 is numerous, the key component is a one-way bearing 244, the transmission between the driving shaft 22 and the driven shaft 23 is various, can be in gear transmission, chain transmission or transmission belt 243 transmission, and is specifically set according to requirements, as shown in fig. 11, the one-way transmission mechanism 24 includes a driving wheel 241, a driven wheel 242, a transmission belt 243 and a one-way bearing 244, the driving wheel 241 is fixed on the driving shaft 22, the driven wheel 242 is fixed on the driven shaft 23, the driving wheel 241 and the driven wheel 242 are in transmission connection through a transmission belt 243, and a one-way bearing 244 is arranged between the driven wheel 242 and the driven shaft 23 or between the driving wheel 241 and the driving shaft 22. When the one-way bearing 244 is disposed between the driving wheel 241 and the driving shaft 22, the driving shaft 22 is reciprocally rotated by the mop rod 1, because of the one-way bearing 244, the driving shaft 22 can only drive the driving wheel 241 to rotate in one direction, and the driving wheel 241 drives the driven wheel 242 to intermittently rotate in one direction by the driving belt 243, whereas when the one-way bearing 244 is disposed between the driven wheel 242 and the driven shaft 23, the driven shaft 23 can only be driven to move in one direction by vertically shaking the mop rod 1, and the driving belt 243 can be replaced by a chain as long as the power of the driving wheel 241 can be transmitted to the driven wheel 242. As shown in fig. 12, the unidirectional transmission mechanism 24 includes a unidirectional bearing 244, a driving gear 245 and a driven gear 246, the driving gear 245 is fixed on the driving shaft 22, the driven gear 246 is fixed on the driven shaft 23, the driving gear 245 is meshed with the driven gear 246, and the unidirectional bearing 244 is arranged between the driven gear 246 and the driven shaft 23 or between the driving gear 245 and the driving shaft 22. When the one-way bearing 244 is disposed between the driving gear 245 and the driving shaft 22, the driving shaft 22 is reciprocally rotated by the mop rod 1, because of the one-way bearing 244, the driving shaft 22 can only drive the driving gear 245 to rotate in one direction, and finally drive the driven shaft 23 to intermittently rotate in one direction by the meshed rotation of the driving gear 245 and the driven gear 246, whereas when the one-way bearing 244 is disposed between the driven gear 246 and the driven shaft 23, the driven shaft 23 can only be driven to move in one direction by vertically shaking the mop rod 1.

In this embodiment, the mop head 2 is connected to the mop rod 1 either fixedly or movably, and finally, the closed-loop mop belt 25 can be driven to rotate in one direction by rotating the mop rod 1 up and down, as shown in fig. 9, 10 and 16, the mop head 2 is hinged to the mop rod 1. The mop head 2 is movably connected with the mop rod 1, the mop head 2 can rotate left and right, and also can move up and down under the condition of driving the shaking power mechanism to move, the angle of the mop rod 1 can move up and down along with the action change of a person in the mopping process, the driving shaft 22 can be driven to rotate by a corresponding angle, the shaking power mechanism is driven by the mop rod 1 to move, the closed-loop mopping area 25 is driven to rotate by the shaking power mechanism, the closed-loop mopping area 25 can be continuously updated towards one side of the ground in the mopping process, and meanwhile, the used part of the closed-loop mopping area 25 continuously passes through the decontamination mechanism 26 and is cleaned. As shown in fig. 7-9, 13 and 15, the mop head 2 is fixedly connected with the mop rod 1. The mop head 2 is fixedly connected with the mop rod 1, the angle of the mop rod 1 can move up and down along with the action change of a person in the mopping process, the driving shaft 22 can be driven to rotate by a corresponding angle, the mop rod 1 drives the shaking power mechanism to move, the closed-loop mopping area 25 is driven to rotate through the shaking power mechanism, the closed-loop mopping area 25 can be continuously updated towards one side of the ground in the mopping process, and meanwhile, the used part of the closed-loop mopping area 25 continuously passes through the decontamination mechanism 26 and is cleaned.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims

1. A rocker power mop renewable mop comprises a mop head and a mop rod movably or fixedly connected with the mop head, and is characterized in that: the mop head comprises a mop seat, a shaking power mechanism, a closed-loop mop belt and a dirt removing mechanism,

the mop seat is provided with a closed-loop mopping area which is used for mopping the floor and is wound to the mopping surface of the mop seat;

2. A rocker powered mop refreshable mop as in claim 1 wherein: the shaking power mechanism comprises a driving shaft connected with the mop rod, a driven shaft used for driving the closed-loop mop to move and a one-way transmission mechanism used for connecting the driving shaft and the driven shaft in a transmission manner, wherein a shaft seat is arranged on the mop seat, and the driving shaft and the driven shaft are respectively arranged on the shaft seat.

3. A rocker powered mop refreshable mop as in claim 1 wherein: the mop rod comprises a power rocker, a handheld rod and a connecting sleeve, the power rocker is connected with the handheld rod through a pin shaft, and the connecting sleeve is sleeved on the power rocker or the handheld rod.

4. A rocker powered mop refreshable mop as in claim 1 wherein: and the mop seat is provided with a supporting roller for supporting the closed-loop mop belt.

5. A rocker powered mop refreshable mop as in claim 1 wherein: and a supporting pressure plate for supporting the closed-loop mopping area is arranged on the mop seat.

6. A rocker power mop refreshable mop as in claim 5 wherein: the lower surface of the supporting pressure plate is attached to the inner surface of a closed-loop mopping area extending to the mopping area.

7. A rocker powered mop refreshable mop as in claim 1 wherein: the decontamination mechanism is positioned on the end surface of the mop seat.

8. A rocker powered mop refreshable mop as in claim 1 wherein: the dirt removing mechanism is positioned on the front surface of the mop seat.

9. A rocker powered mop swab updateable according to any one of claims 1, 7 or 8 wherein: the dirt removing mechanism comprises a dirt removing scraper fixedly arranged on the mop seat, and the dirt removing scraper is positioned on the side part of the closed-loop floor mopping belt.

10. A rocker powered mop refreshable mop as in claim 9 wherein: the decontamination mechanism further comprises two water squeezing rollers, the two water squeezing rollers form a group, a water squeezing gap is formed between the two water squeezing rollers in the same group, and the closed-loop dragging belt penetrates through the water squeezing gap.

11. A rocker powered mop refreshable mop as in claim 2 wherein: the one-way transmission mechanism comprises a driving wheel, a driven wheel, a transmission belt and a one-way bearing, the driving wheel is fixedly arranged on the driving shaft, the driven wheel is fixedly arranged on the driven shaft, the driving wheel and the driven wheel are in transmission connection through the transmission belt, and the one-way bearing is arranged between the driven wheel and the driven shaft or between the driving wheel and the driving shaft.

12. A rocker powered mop refreshable mop as in claim 2 wherein: the one-way transmission mechanism comprises a one-way bearing, a driving gear and a driven gear, the driving gear is fixedly arranged on the driving shaft, the driven gear is fixedly arranged on the driven shaft, the driving gear is meshed with the driven gear, and the one-way bearing is arranged between the driven gear and the driven shaft or between the driving gear and the driving shaft.

13. A rocker powered mop refreshable mop as in claim 1 wherein: the mop head is hinged with the mop rod.

14. A rocker powered mop refreshable mop as in claim 1 wherein: the mop head is fixedly connected with the mop rod.