阅读说明：本技术 一种拖把清洗方法 (Mop cleaning method ) 是由 姚国辉 任峻杉 于 2019-09-27 设计创作，主要内容包括：本发明公开了一种拖把清洗方法,包括拖把头,拖把头上设有擦拭物,擦拭物在清洗装置上清洗,所述清洗装置具有支点、喷水部和排水通道；清洗时,拖把头带动擦拭物在支点上转动,喷水部向擦拭物喷水清洗,水从排水通道排走；清洗后,喷水部停止喷水,拖把头带动擦拭物在支点上转动脱水。该方法始终用清水对擦拭物进行清洗,清洗后可以原位脱水甩干,洗过擦拭物的污水直接排走,免去换水操作,轻巧高效。(The invention discloses a mop cleaning method, which comprises a mop head, wherein a wiping material is arranged on the mop head, and the wiping material is cleaned on a cleaning device, wherein the cleaning device is provided with a fulcrum, a water spraying part and a water drainage channel; when cleaning, the mop head drives the wiper to rotate on the fulcrum, the water spraying part sprays water to the wiper for cleaning, and water is drained from the drainage channel; after cleaning, the water spraying part stops spraying water, and the mop head drives the wiper to rotate on the pivot for dehydration. The method always uses clean water to clean the wiping objects, the wiping objects can be dehydrated and dried in situ after being cleaned, the sewage after the wiping objects are cleaned is directly discharged, the water changing operation is omitted, and the method is light and efficient.)

1. A mop cleaning method comprises a mop head, wherein a wiping material is arranged on the mop head and is cleaned on a cleaning device, and the cleaning device is characterized by comprising a supporting point, a water spraying part and a water drainage channel;

when cleaning, the mop head drives the wiper to rotate on the fulcrum, the water spraying part sprays water to the wiper for cleaning, and water is drained from the drainage channel;

after cleaning, the water spraying part stops spraying water, and the mop head drives the wiper to rotate on the pivot for dehydration.

2. The method of claim 1, wherein the water spraying section comprises a water container and a nozzle disposed on the water container, the water container is connected to a pressurized water source, and the nozzle is controlled by a valve to spray water or stop spraying water.

3. The method of claim 2, wherein the pressurized water source is a tap or pump.

4. A method as claimed in claim 2, wherein the water container is a cylindrical, annular or disc-shaped water container, and a scraping portion is provided on or outside the water container, the scraping portion scraping the wipes to remove dirt.

5. The method as claimed in claim 4, wherein the scraping portion is one or more of a tooth, a blade, and a brush distributed outside the nozzle holes, or the scraping portion is a nozzle tube formed by extending the nozzle holes in an axial direction.

6. A method as claimed in any one of claims 1 to 5, wherein the cleaning means comprises a cartridge housing which prevents the diffusion of water outwardly when the wipe is cleaned or dewatered in the cartridge housing.

7. A method as claimed in any one of claims 1 to 5, wherein a water deflector is provided above the mop head to prevent water from spreading outwardly as the wipe is rotated for cleaning or dewatering.

8. The method of cleaning a mop as defined in claim 6, wherein said cylindrical housing includes a housing bottom, said fulcrum and said water spray portion being disposed inside said housing bottom, said drain passage passing through said housing bottom, and a suction cup being disposed outside said housing bottom.

9. The method of claim 8, wherein a protrusion is provided at the center of the bottom of the housing, the fulcrum is fixed or detachably provided on the protrusion, the water spray part is cylindrical and passes through the lower part of the protrusion to be distributed on both sides of the protrusion, or the water spray part is located on one side of the protrusion and is integrally formed with the protrusion.

10. The method of claim 9, wherein the mop head is connected to a mop pole, the mop pole comprises an upper pole and a lower pole that are nested together, a rotational drive mechanism is disposed between the upper pole and the lower pole, the rotational drive mechanism converts telescoping movement between the upper pole and the lower pole into rotational movement of the lower pole, and the mop head is mounted on the lower pole.

11. The method of claim 9, wherein the mop head is connected to a mop pole, and a motor is provided on the mop pole, the motor driving the mop head to rotate.

12. The method of claim 7, wherein the water guard plate is annularly provided on the mop head and has elasticity to spread the water guard plate toward the wipe for water guard when washing or dehydrating.

13. The method of claim 7, wherein the splash guard is threaded over a mop rod connected to the mop head during cleaning or dewatering of the wipe, the splash guard having an outer edge that is larger than the outer edge of the mop head to retain water.

Technical Field

The invention relates to a cleaning method of a mop.

Background

The cleaning of the mop with the rotatable mop head is generally carried out in a mop bucket, and along with the cleaning, clean water of the mop bucket gradually becomes sewage and loses the cleaning function. The ideal cleaning mode is to always clean the mop with clean water to drain the sewage in time, but if the water is changed once when the existing mop bucket is used for cleaning, the operation is heavy, and the water saving is not facilitated. The invention patent application CN 107684406A discloses a cleaning method of a cleaning tool and a corresponding cleaning tool, wherein a mop head rotates in a mop bucket for cleaning, the mop bucket is divided into a clean water area and a sewage area, water is pumped from the clean water area during cleaning to clean the wiping matters, and then the water flows to the sewage area for storage. The cleaning tool has multiple components and complex structure, only partial wiping materials can be soaked firstly, the cleaning efficiency is poor, partial sewage can also fall in a clean water area to cause pollution to clean water, and the mop head can pump water as long as rotating, so that the mop head cannot be dried. Therefore, the cleaning method and the cleaning tool are not ideal.

Disclosure of Invention

The invention aims to provide a method for cleaning a mop, which is characterized in that a wiping object is always cleaned by clean water, the wiping object can be dewatered and dried in situ after cleaning, sewage after cleaning the wiping object is directly discharged, the water changing operation is omitted, and the method is light and efficient.

In order to achieve the purpose, the invention adopts the following technical scheme:

a mop cleaning method comprises a mop head, wherein a wiping material is arranged on the mop head and is cleaned on a cleaning device, and the cleaning device is provided with a fulcrum, a water spraying part and a water drainage channel; when cleaning, the mop head drives the wiper to rotate on the fulcrum, the water spraying part sprays water to the wiper for cleaning, and water is drained from the drainage channel; after cleaning, the water spraying part stops spraying water, and the mop head drives the wiper to rotate on the pivot for dehydration.

Preferably, the water spraying part comprises a water container and a spraying hole arranged on the water container, the water container is connected with a pressure water source, and the spraying hole is controlled by a valve to spray water or stop spraying water.

Preferably, the pressure water source is a tap or a water pump.

Preferably, the water container is a cylindrical, annular or disc-shaped water container, and a scraping part is arranged on or outside the water container and is used for scraping and decontaminating the wiping objects.

Preferably, the scraping part is one or more of a brush tooth, a scraper blade or a brush distributed outside the spray hole, or the scraping part is a spray pipe formed by the spray hole extending along the axial direction.

Preferably, the cleaning device comprises a cartridge housing which prevents the outward diffusion of water when the wipe is cleaned or dehydrated in the cartridge housing.

Preferably, a water baffle is arranged above the mop head, and when the wiping object rotates to clean or dewater, the water baffle prevents water from diffusing outwards.

Preferably, the cylindrical shell comprises a shell bottom, the fulcrum and the water spraying part are arranged on the inner side of the shell bottom, the water drainage channel penetrates through the shell bottom, and the sucking disc is arranged on the outer side of the shell bottom.

Preferably, a protruding portion is arranged at the center of the shell bottom, the fulcrum is fixed or detachably arranged on the protruding portion, the water spraying portion is cylindrical and penetrates through the lower portion of the protruding portion to be distributed on two sides of the protruding portion, or the water spraying portion is located on one side of the protruding portion and is integrally formed with the protruding portion.

Preferably, the mop head is connected with the mop rod, the mop rod comprises an upper rod and a lower rod which are mutually sleeved, a rotary driving device is arranged between the upper rod and the lower rod, the rotary driving device converts telescopic motion between the upper rod and the lower rod into rotary motion of the lower rod, and the mop head is installed on the lower rod.

Preferably, the mop head is connected with a mop rod, a motor is arranged on the mop rod, and the motor drives the mop head to rotate.

Preferably, the water guard is annularly arranged on the mop head and has elasticity, and when the mop is cleaned or dewatered, the water guard is unfolded towards the wiping object for water guard.

Preferably, when the wiping material is cleaned or dewatered, the water baffle is sleeved on a mop rod connected with the mop head, and the water baffle is provided with an outer edge larger than the mop head so as to block water.

Among the above-mentioned technical scheme, adopt the mode of spraying water towards the wiper to wash the wiper of rotation, sewage after the washing is discharged through drainage channel promptly and is not persisted, sprays dispersion to the wiper with less clear water like this, not only is favorable to the water conservation, can also utilize the impact force of water to promote the cleaning performance to the wiper. The method ensures that the wiping object is cleaned by clean water all the time without changing water, the water spraying part can be directly connected with a tap water which is used as a pressure water source, and the drainage channel can be directly aligned with the floor drain, so that the convenience of operation and the high efficiency of cleaning are enhanced. The scraping part can scrape off attachments such as hair, fibers and sticky objects on the wiping object, and the cleaning effect is further improved by matching with the water spraying cleaning of the water spraying part. The cylindrical shell or the water baffle can prevent water from overflowing and splashing around during cleaning or spin-drying, and the use experience is improved. Through the control valve, water spraying during cleaning and water spraying stopping during spin-drying are easily realized, cleaning and in-situ spin-drying are integrated, and convenience is improved. Because the method adopts the pressure water source to provide the jet power, the structure of the cleaning device is simple, and the manufacturing cost is reduced.

Drawings

FIG. 1 is a schematic view of a mop being cleaned or dewatered in a cleaning apparatus;

FIG. 2 is a schematic view of a cleaning device having a cylindrical water container and a scraping portion;

FIG. 3 is a schematic view of a cleaning apparatus having a ring-shaped water container;

FIG. 4 is a schematic view showing a structure in which the washing apparatus has a disk-shaped water container;

FIG. 5 is a schematic view of a motor on the mop rod driving the mop head to rotate;

FIG. 6 is a schematic view of a mop with a cover-shaped water baffle structure;

FIG. 7 is a schematic view of a mop with an annular water guard plate;

FIG. 8 is a cross-sectional, exploded schematic view of a preferred embodiment of a cleaning apparatus for use in the present invention;

FIG. 9 is a schematic structural view of another preferred embodiment of a cleaning apparatus used in the present invention;

FIG. 10 is a schematic view of a detachable configuration of the boss and fulcrum;

FIG. 11 is a schematic view of the bottom of the cartridge with suction cups.

Detailed Description

The invention is further illustrated by the following specific examples in conjunction with the accompanying drawings.

Example one

Referring to fig. 1 to 7, the mop cleaning method comprises a mop head 1, a wiping material 2 is arranged on the mop head 1, the wiping material 2 is generally in a spike shape, and cleaning is carried out on a cleaning device 3. The cleaning device 3 comprises a fulcrum 301 and a water spraying part 302, the water spraying part 302 comprises a water container 303 and a plurality of spraying holes 304 distributed on the water container 303, and a drainage channel 4 is arranged around the water spraying part 302. If the water spraying part is arranged beside the floor drain, water is directly drained from the drainage channel 4 into the floor drain. The water container 303 is connected to a tap water tap through a pipe, and the tap water tap discharges tap water having a pressure and flushes into the water container 303, and then sprays out toward the wiper from the spray hole 304. Besides tap water as a pressure water source, the water pump can be used for pumping water and supplying the water to the water spraying part. The water spraying part 302 may be a cylindrical shape, such as a square cylinder, a circular cylinder, etc., on which spray holes are provided at intervals, or may be a ring shape on which spray holes are distributed at intervals, or may be a disk shape such as a shower head on which spray holes are uniformly distributed. The spray apertures are generally upwardly disposed so as to spray water toward a wipe of a mop head supported on the fulcrum 301.

The mop head 1 can be supported for rotation on the fulcrum 301, and the rotation can be driven in a variety of ways known in the art. For example, the mop head is connected with the mop rod, the mop rod comprises an upper rod 5 and a lower rod 6 which are sleeved with each other, the upper rod 5 is connected with the lower rod 6 through a rotary driving device, the rotary driving device can convert the telescopic motion between the upper rod 5 and the lower rod 6 into the rotary motion of the lower rod 6, and the mop head 1 is connected with the lower end of the lower rod 6 (as shown in the utility model CN 201431427Y). Certainly, other modes can also be adopted to realize the rotation of the mop head, for example, the mop rod is directly and manually rotated, or the mop rod is removed, the mop head is connected with the output shaft of the motor, the motor drives the mop head to rotate for cleaning or spin-drying, then the mop rod is installed when mopping, the motor 601 can also be arranged on the mop rod, the mop head is connected with the output shaft of the motor 601, and the mop head is driven to rotate by the motor 601. A recess may be provided in the back of the mop head, i.e. in the centre of the side on which the wipe is located, to cooperate with the fulcrum 301 for more stable support and rotation. The fulcrum 301 may be a cylinder, a sphere, a cone, etc., which can support the rotation of the mop head. The fulcrum 301 and the water spraying portion may be fixed to each other, integrally formed, or detachably mounted, or may be separated from each other.

In the method, when the wiping material is cleaned, the mop head 1 rotates on the fulcrum 301, clear water is sprayed towards the wiping material from the spray holes 304 and flows out, water flow is used for beating and cleaning the wiping material, the overall cleaning is realized by matching with the direction change of the rotation and swinging of the wiping material, and the cleaned sewage falls or is swung to the periphery and is discharged from the drainage channel. After cleaning, water supply to the water spraying part is stopped through the water valve, and the mop head drives the wiper to continuously rotate on the fulcrum 301, so that dehydration and spin-drying are realized.

In order to further improve the cleaning effect, a scraping part 7 can be provided for scraping and decontaminating the rotating wiper 2. The scraping part 7 can be one of comb-shaped brush teeth, or a scraping plate, or a brush, or a plurality of brushes and scraping plates can be arranged together, for example. The scraper is beneficial to scraping off seeds and adhesive substances, and the brush or the brush teeth can brush off debris, hair, fibers and the like. The scraping part 7 may be provided on or outside the water spray part, or may be a scraping part in which a nozzle hole of the water spray part is extended upward in the axial direction to form a nozzle tube having a function of scraping teeth.

In order to prevent water from overflowing and splashing everywhere during cleaning or spin-drying, a water retaining device can be arranged, for example, the cylindrical shell 8 which surrounds the cleaning device and the mop head can prevent water from being sprayed outwards, the cleaning device can also be placed on one side of a wall which is provided with tiles and is waterproof, then a half cylindrical shell is surrounded, and an operator operates the cleaning device after the half cylindrical shell. The water retaining device can also be arranged on the mop head, such as a cover-shaped water retaining plate 9 which is worn on a mop rod connected with the mop head, the mop head is covered during cleaning or spin-drying so as to prevent water from scattering, and the cover-shaped water retaining plate 9 is taken down to start mopping during mopping. Or the elastic material such as rubber is connected to the periphery of the front surface of the mop head to form an annular water baffle 110, the annular water baffle is unfolded and shielded towards the direction of the wiping object during cleaning or spin-drying to prevent water from scattering, and the elastic water baffle is reversely pulled to one side facing the mop rod during mopping. The cover-shaped water baffle is arranged on the mop rod in a penetrating mode or the annular water baffle is arranged on the mop head, a cylindrical shell is not needed to be arranged, and the cleaning device only comprises a fulcrum, a water spraying portion and a drainage channel.

Example two

On the basis of the cleaning method of the first embodiment, the used cleaning device is further refined:

as shown in fig. 8 to 11, the cleaning device 3 has a cylindrical shell 8, the cylindrical shell includes a cylindrical bottom 801 and a cylindrical wall 802, a plurality of positions on the cylindrical bottom 801 are hollowed to form the drainage channel 4, a protrusion 10 is arranged at the center of the cylindrical bottom 801, a fulcrum 301 is arranged on the protrusion 10, a through hole 101 is left in the middle of the protrusion, a square or round water container 303 passes through the protrusion 10, two ends of the water container 303 are close to the cylindrical wall 802, one end is sealed, the other end is provided with a connector 102 connected with a water inlet pipe, and the connector 102 is connected with tap water. One row or two rows or more rows of spray holes 304 are arranged on the upper side surface of the water container, the spray holes 304 are mutually spaced, the number of the spray holes and the diameter of the spray holes can be selected according to different style requirements, and when the spray holes are more and the diameter is larger, the water flow is more and larger, so that the water-saving water container is suitable for cleaning a large amount of dirt on a wiping object, is suitable for cleaning a floor with more dust and dirt, and is more water-consuming; the spray holes are few, the diameter is small, the mop cleaning machine is suitable for cleaning mops which are not dirty, and water is saved. The bottom of the cylinder wall can be provided with a jack 103 which is convenient for inserting or pulling out the water container. A plurality of brush teeth, hairbrushes or scrapers are distributed around the water container to be used as scraping parts 7 for scraping and cleaning the wiping matters. The height of the cylinder wall can meet the water retaining requirement.

Boss 10 may be integrally formed with base 801 or may be removable, such that when removed, screw 803 is attached to the boss and the screw is attached to base 802 (fig. 10).

The outside can also set up a plurality of sucking discs 804 (fig. 11) at the bottom of the section of thick bamboo, adsorbs on the bottom surface, can have certain fixed action to the cartridge case, can also produce certain elastic buffer, and the user pushes down the pull mop pole messenger from top to bottom, and this kind of buffering can promote the operation to a certain extent and experience.

In the above embodiment, the water spray container 303 may be formed in a half length only between the protrusion 10 and the cylindrical wall 802, and may be formed integrally with the brush or the scraping portion 7 of the brush teeth. A handle 20 may be provided on the cylindrical shell 8.

The above embodiments are only a few illustrations of the inventive concept and implementation, not limitations thereof, and the technical solutions without substantial changes are still within the scope of protection under the inventive concept.