CN213910089U

CN213910089U - Automatic wash and scrape water mop bucket

Info

Publication number: CN213910089U
Application number: CN202022412277.9U
Authority: CN
Inventors: 赖依祥
Original assignee: Dongguan Guangmeihua Technology Co ltd
Current assignee: Dongguan Guangmeihua Technology Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-08-10
Anticipated expiration: 2030-10-26

Abstract

The utility model discloses a mop bucket capable of automatically cleaning and wiping water, which comprises a bucket body, wherein a water wiping area is arranged in the bucket body, a water wiping mechanism is arranged in the water wiping area, an electric driving mechanism and an automatic water adding mechanism are also arranged in the bucket body, and the water wiping mechanism is connected with the electric driving mechanism; the automatic water adding mechanism is connected with a water supply mechanism, and a water adding port of the automatic water adding mechanism is aligned to the water scraping area. The utility model discloses a set up automatic water spray mechanism and electric drive mechanism in the mop bucket, realize automatically to scraping water district/washing district water spray by automatic water spray mechanism, reciprocate by electric drive mechanism drive scraper blade is automatic, realize the automatic scraping to the mop, it is more convenient, light not only to make like this to scrape water the operation, need not the manual work and stimulate the mop from top to bottom hard, it is laborsaving convenient, also do not need the manpower to push down the mop bucket simultaneously so as to prevent that the mop bucket from being mentioned because of lifting the mop together, and can not restrict the use because of not having water, reach the effect that can use anytime and anywhere.

Description

Automatic wash and scrape water mop bucket

Technical Field

The utility model relates to a burnisher technical field, concretely relates to scrape water mop bucket for realizing dull and stereotyped mop.

Background

Mop and mop bucket are the clear important instrument of house, and current mop bucket is of a great variety, the function is diversified, has some mop buckets to have the function of washing and dehydration, and the user is when wasing the mop, directly stretches into the mop bucket with the mop earlier, and the mop head soaks the aquatic in the mop bucket, then puts into the mop head and dewaters in the dehydration basket. However, the flat mop cannot be dehydrated due to its structural limitation. In order to clean and dewater the flat mop and prevent dirt and garbage from remaining on the mop cloth, some mop buckets specially designed for cleaning and squeezing the flat mop are designed, such as the squeezing method of the flat mop and the cleaning tool of the flat mop disclosed in patent CN 201910181435.3. However, the existing mop barrels for flat mops have the following defects that firstly, the flat mops are dewatered by adopting a vertical water squeezing method, and the flat mops are vertically inserted into the barrels from the smoothing openings of the mop barrels to be pulled up and down for squeezing water. However, in order to squeeze the mop more cleanly during water squeezing, enough squeezing force needs to be applied to the mop bucket, and the stroking opening (water squeezing opening) of the mop bucket is made to be narrower, so that the mop bucket is very labor-consuming to pull up and down, and is especially difficult to operate by children and old people; secondly, the mop needs a large force to be pulled up and down, the mop is squeezed tightly by the stroking opening, and the mop bucket is not heavy, so the mop bucket can be easily lifted together with the mop bucket, and the water squeezing operation is very inconvenient. Some mop buckets are stepped by feet through the arrangement of the stepping parts, so that the mop buckets are prevented from being lifted, but firstly, the structure of the mop bucket is more complicated, and secondly, the mop bucket cannot stand in a best force applying mode, so that inconvenience is caused for applying force to pull the mop.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is the defect of prior art, a water-scraping mop bucket is provided, which is more simple in water-scraping operation, more convenient in use, more labor-saving and efficient in automatic cleaning and water-scraping.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides an automatic wash and scrape water mop bucket, has in the staving and scrapes the water district including the staving, is provided with in scraping the water district and scrapes water mechanism, its characterized in that: an electric driving mechanism and an automatic water adding mechanism are also arranged in the barrel body, and the water scraping mechanism is connected with the electric driving mechanism to form a structure which can automatically move to scrape water on the mop; the automatic water adding mechanism is connected with a water supply mechanism, and a water adding port of the automatic water adding mechanism is aligned to the water scraping area to realize automatic water adding of the water scraping area.

Further, still including the inner box, the inner box setting is in the staving, scrapes water mechanism, electric drive mechanism and automatic mechanism of adding water and all installs on the inner box, scrapes the water district and is formed by the storage tank between inner box and the staving.

Furthermore, the electric driving mechanism comprises a motor, a circuit board and an eccentric wheel, the motor is connected with the circuit board and is installed on the inner box together, and the eccentric wheel is connected with the motor to form a structure capable of performing eccentric rotation motion along a vertical surface; the water scraping mechanism is connected with a lifting frame, and the lifting frame is connected with an eccentric wheel to form a structure which drives the lifting frame to do lifting motion through eccentric rotation of the eccentric wheel.

The water-saving barrel further comprises a rechargeable battery, the battery is connected with the circuit board, a charging port for charging the battery is arranged on the barrel body, and an openable sealing plug is arranged on the charging port to prevent water from being affected with damp; the eccentric wheel is a cam, a connecting rod is connected to the eccentric position of the cam, a connecting arm transversely extends out of the side face of the lifting frame, and the connecting arm is connected with the lower end of the connecting rod to form a linkage lifting structure.

Furthermore, the automatic water adding mechanism comprises a water pump and a water spray nozzle, and the water pump is connected with the circuit board; the water spray nozzle is connected with the water pump, the water pump is connected with the water supply mechanism, and the water spray nozzle is arranged at the upper part of the inner box and is aligned with the water scraping area to form a water filling port; the water spray nozzle is a double-end nozzle and is connected with the water pump through a three-way joint and a guide pipe, so that the water spray efficiency is higher, and the water spray area is larger. The time of spraying water, the interval of spraying water, the number of spraying water and the like can be set through the circuit board, the switch can be pressed to spray water, the switch is loosened to stop the water spraying device, and various modes such as the pressing mode, the loosening mode and the stopping mode can be set, and the water spraying device can be realized by directly utilizing the prior art.

Furthermore, the water supply mechanism is a water tank, an assembly groove is formed in the inner tank, and the water tank is in butt joint with the water pump through a quick assembly structure in an inverted mode; be provided with the groove of shaking hands that is convenient for mention the water tank on the water tank, after the water of water tank used up, hold the groove of shaking hands and mention the water tank and adorn water with the hand, also can add detergent etc. as required, the back of filling with again the back-off connect well with the water inlet of water pump in the fabrication trough, of course, this kind of fast-assembling structure can directly utilize prior art to realize.

Preferably, the accommodating groove comprises two positions, namely a first accommodating groove and a second accommodating groove, the two accommodating grooves are water scraping areas, water scraping mechanisms with the same structure are arranged in the first accommodating groove and the second accommodating groove, and the two water scraping mechanisms are respectively connected to the left end and the right end of the lifting frame to form a structure capable of synchronously lifting; the inner box is internally provided with a partition board which is used for being respectively partitioned into a first containing groove and a second containing groove, the partition board is provided with a guide sliding groove, and the lifting frame penetrates through the guide sliding groove and is connected with the two water scraping mechanisms. The mop can be cleaned separately by arranging the two water scraping areas, for example, a mop used in dirty occasions such as a toilet, a kitchen and the like is cleaned in one water scraping area, and a mop used in clean occasions such as a living room, a bedroom and the like is cleaned in the other water scraping area.

Or, the accommodating groove includes two places, namely a first accommodating groove and a second accommodating groove, wherein the first accommodating groove is a water scraping area, a water scraping mechanism is arranged in the first accommodating groove, the second accommodating groove is a cleaning area, the water scraping mechanism is not arranged in the second accommodating groove, but a water filling port is arranged in the second accommodating groove, and the water filling port is connected with an automatic water adding mechanism, so that the second accommodating groove can be used for cleaning the mop, and water is scraped after the mop is cleaned.

Furthermore, the water scraping mechanism comprises a vertical groove-shaped scraping plate, and a plurality of transverse scraping strips are arranged in a groove of the scraping plate; the scraping strip is of a structure with a sharp front end and a wide rear end, two ends of the scraping strip are fixedly connected with the scraping plate, and meanwhile, the sharp part in the front of the scraping strip is contacted with the bottom surface of the mop, so that water and residual dirt on the mop cloth can be effectively scraped by the sharp part. The motor drives the eccentric wheel to rotate, and the eccentric wheel drives the connecting rod to reciprocate up and down, so that the scraper is driven by the lifting frame to move up and down, and the mop is scraped by the scraper bar.

Further, still including the base, staving and inner box are all installed on the base, respectively are equipped with spacing piece in the inside of base position all around, block in order to strengthen fixed inner box in the outside of inner box lower part through each spacing piece.

The utility model discloses a set up automatic water spray mechanism and electric drive mechanism in the mop bucket, realize automatically to scraping water district/washing district water spray by automatic water spray mechanism, reciprocate by electric drive mechanism drive scraper blade is automatic, realize the automatic scraping to the mop, it is more convenient, light not only to make like this to scrape water the operation, need not the manual work and stimulate the mop from top to bottom hard, it is laborsaving convenient, also do not need the manpower to push down the mop bucket simultaneously so as to prevent that the mop bucket from being mentioned because of lifting the mop together, and can not restrict the use because of not having water, reach the effect that can use anytime and anywhere.

Drawings

FIG. 1 is a structural diagram of the mop bucket of the present invention in a state of being used in combination with a flat mop;

FIG. 2 is a structural diagram of the utility model after the barrel body is removed;

FIG. 3 is a view showing the configuration of the scraper and the driving mechanism;

fig. 4 is an internal structure view of the present invention.

In the figure, 1 is a barrel body, 2 is an inner box, 21 is a first accommodating groove, 22 is a second accommodating groove, 23 is a separation plate, 24 is a guide sliding groove, 25 is a charging port, 26 is a sealing plug, 27 is an assembly groove, 3 is a scraping plate, 31 is a scraping strip, 4 is a base, 41 is a limiting piece, 51 is an eccentric wheel, 52 is a motor, 53 is a circuit board, 54 is a battery, 55 is a connecting rod, 56 is a connecting arm, 57 is a lifting frame, 6 is a water tank, 61 is a handle groove, 7 is a water pump, 81 is a water nozzle, 82 is a three-way joint, and 9 is a mop.

Detailed Description

In the embodiment, referring to fig. 1 to 4, the mop bucket capable of automatically cleaning and wiping comprises a bucket body 1, a wiping area is arranged in the bucket body 1, a wiping mechanism is arranged in the wiping area, an electric driving mechanism and an automatic water adding mechanism are further arranged in the bucket body 1, and the wiping mechanism and the electric driving mechanism are connected to form a structure capable of automatically moving to wipe water on a mop 9; the automatic water adding mechanism is connected with a water supply mechanism, and a water adding port of the automatic water adding mechanism is aligned to the water scraping area to realize automatic water adding of the water scraping area.

Still including inner box 2, inner box 2 sets up in staving 1, scrapes water mechanism, electric drive mechanism and automatic mechanism of adding water and all install on inner box 2, scrapes the water district and is formed by the storage tank between inner box 2 and staving 1.

The electric driving mechanism comprises a motor 52, a circuit board 53 and an eccentric wheel 51, the motor 52 is connected with the circuit board 53 and is installed on the inner box 2 together, and the eccentric wheel 51 is connected with the motor 52 to form a structure capable of performing eccentric rotation motion along a vertical surface; the water wiping mechanism is connected with a lifting frame 57, the lifting frame 57 is connected with the eccentric wheel 51, and a structure that the lifting frame 57 is driven to do lifting motion through the eccentric rotation of the eccentric wheel 51 is formed.

The water-saving barrel also comprises a rechargeable battery 54, the battery 54 is connected with a circuit board 53, a charging port 25 for charging the battery 54 is arranged on the barrel body 1, and an openable sealing plug 26 is arranged on the charging port 25 to prevent the inlet water from being affected with damp; the eccentric wheel 51 is a cam, a connecting rod 55 is connected to the eccentric position of the cam, a connecting arm 56 transversely extends out of the side face of the lifting frame 57, and the connecting arm 56 is connected with the lower end of the connecting rod 57 to form a linkage lifting structure.

The automatic water adding mechanism comprises a water pump 7 and a water spray nozzle 81, and the water pump 7 is connected with the circuit board 53; the water spray nozzle 53 is connected with the water pump 7, the water pump 7 is connected with a water supply mechanism, and the water spray nozzle 81 is arranged at the upper part of the inner box 2 and is aligned with the water scraping area to form a water filling opening; the water spray nozzle 81 is a double-head nozzle and is connected with the water pump 7 through a three-way joint 82 and a guide pipe, so that the water spray efficiency is higher and the water spray area is larger. The time of water spraying, the interval of water spraying, the number of water spraying, etc. may be set by the circuit board 53, or may be set in various modes such as pressing a switch, i.e., spraying water, stopping when releasing, etc., which may, of course, be implemented directly by using the prior art.

The water supply mechanism is a water tank 6, an assembly groove 27 is formed in the inner tank 2, and the water tank 6 is in butt joint with the water pump 7 in an inverted mode through a fast-assembling structure; the water tank 6 is provided with the holding groove 61 convenient for lifting the water tank 6, when the water in the water tank 6 is used up, the holding groove 61 is held by hands to lift the water tank 6 for containing water, detergent and the like can be added according to needs, the water tank is buckled in the assembly groove 27 in a reversed mode after being filled with the detergent and is connected with the water inlet of the water pump 7, and the fast assembly structure can be directly realized by the prior art.

As a way, the accommodating groove includes two positions, namely a first accommodating groove 21 and a second accommodating groove 22, both of which are water scraping areas, water scraping mechanisms with the same structure are arranged in the first accommodating groove 21 and the second accommodating groove 22, and the two water scraping mechanisms are respectively connected to the left end and the right end of the lifting frame 57 to form a structure capable of synchronously lifting; the inner box 2 is provided with a partition plate 23 for partitioning the inner box into a first accommodating groove 21 and a second accommodating groove 22, the partition plate 23 is provided with a guide chute 24, and the lifting frame 57 penetrates through the guide chute 24 and is connected with the two water scraping mechanisms. The mop can be cleaned separately by arranging the two water scraping areas, for example, a mop used in dirty occasions such as a toilet, a kitchen and the like is cleaned in one water scraping area, and a mop used in clean occasions such as a living room, a bedroom and the like is cleaned in the other water scraping area.

Or, the accommodating groove includes two positions, namely a first accommodating groove 21 and a second accommodating groove 22, wherein the first accommodating groove 21 is a water scraping region in which a water scraping mechanism is disposed, the second accommodating groove 22 is a cleaning region in which the water scraping mechanism is not disposed, but a water filling port is disposed, the water filling port is connected with an automatic water adding mechanism, and thus the second accommodating groove 22 can be used for cleaning a mop, and water scraping is performed after cleaning.

The water scraping mechanism comprises a vertical groove-shaped scraping plate 3, and a plurality of transverse scraping strips 31 are arranged in a groove of the scraping plate 3; the scraping strip 31 is in a structure with a sharp front and a wide back, two ends of the scraping strip 31 are fixedly connected with the scraping plate 3, and a sharp part in the front of the scraping strip is contacted with the bottom surface of the mop 9, so that the sharp part can more effectively scrape water and residual dirt on the mop cloth. The motor 52 drives the eccentric wheel 51 to rotate, the eccentric wheel 51 drives the connecting rod 55 to reciprocate up and down, so that the lifting frame 57 drives the scraping plate 3 to move up and down, and the scraping of the mop by the scraping strip 31 is realized.

Still including base 4, staving 1 and inner box 2 are all installed on base 4, respectively are equipped with spacing piece 41 in the inside of base 4 all around the position, block in the outer side of inner box 2 lower part through each spacing piece 41 in order to strengthen fixed inner box 2.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims

1. The utility model provides an automatic wash and scrape water mop bucket, has in the staving and scrapes the water district including the staving, is provided with in scraping the water district and scrapes water mechanism, its characterized in that: an electric driving mechanism and an automatic water adding mechanism are also arranged in the barrel body, and the water scraping mechanism is connected with the electric driving mechanism to form a structure which can automatically move to scrape water on the mop; the automatic water adding mechanism is connected with a water supply mechanism, and a water adding port of the automatic water adding mechanism is aligned to the water scraping area to realize automatic water adding of the water scraping area.

2. The self-cleaning and wiping mop bucket of claim 1, wherein: the water scraping device is characterized by further comprising an inner box, the inner box is arranged in the barrel body, the water scraping mechanism, the electric driving mechanism and the automatic water adding mechanism are all arranged on the inner box, and the water scraping area is formed by a containing groove between the inner box and the barrel body.

3. The self-cleaning and wiping mop bucket of claim 2, wherein: the electric driving mechanism comprises a motor, a circuit board and an eccentric wheel, the motor is connected with the circuit board and is installed on the inner box together, and the eccentric wheel is connected with the motor to form a structure capable of performing eccentric rotation motion along a vertical surface; the water scraping mechanism is connected with a lifting frame, and the lifting frame is connected with an eccentric wheel to form a structure which drives the lifting frame to do lifting motion through eccentric rotation of the eccentric wheel.

4. The self-cleaning and wiping mop bucket of claim 3, wherein: the electric heating barrel also comprises a rechargeable battery, the battery is connected with the circuit board, a charging port for charging the battery is arranged on the barrel body, and an openable sealing plug is arranged on the charging port; the eccentric wheel is a cam, a connecting rod is connected to the eccentric position of the cam, a connecting arm transversely extends out of the side face of the lifting frame, and the connecting arm is connected with the lower end of the connecting rod to form a linkage lifting structure.

5. The self-cleaning and wiping mop bucket of claim 1, wherein: the automatic water adding mechanism comprises a water pump and a water spray nozzle, and the water pump is connected with the circuit board; the water spray nozzle is connected with the water pump, the water pump is connected with the water supply mechanism, and the water spray nozzle is arranged at the upper part of the inner box and is aligned with the water scraping area to form a water filling port; the water spray nozzle is a double-end nozzle and is connected with the water pump through a three-way joint and a guide pipe.

6. The self-cleaning and wiping mop bucket of claim 5, wherein: the water supply mechanism is a water tank, an assembly groove is formed in the inner tank, and the water tank is in butt joint with the water pump through a quick assembly structure in an inverted mode; the water tank is provided with a handle groove which is convenient for lifting the water tank.

7. The self-cleaning and wiping mop bucket of claim 4, wherein: the water scraping mechanisms are respectively connected to the left end and the right end of the lifting frame to form a structure capable of synchronously lifting; the inner box is internally provided with a partition board which is used for being respectively partitioned into a first containing groove and a second containing groove, the partition board is provided with a guide sliding groove, and the lifting frame penetrates through the guide sliding groove and is connected with the two water scraping mechanisms.

8. The self-cleaning and wiping mop bucket of claim 4, wherein: the containing groove comprises two positions, namely a first containing groove and a second containing groove, wherein the first containing groove is a water scraping area, a water scraping mechanism is arranged in the first containing groove, the second containing groove is a cleaning area, the water scraping mechanism is not arranged in the second containing groove, but a water filling port is arranged in the second containing groove, and the water filling port is connected with an automatic water filling mechanism.

9. The self-cleaning and wiping mop bucket of claim 3, wherein: the water scraping mechanism comprises a vertical groove-shaped scraping plate, and a plurality of transverse scraping strips are arranged in a groove of the scraping plate; the scraping strip is of a structure with a sharp front end and a wide rear end, two ends of the scraping strip are fixedly connected with the scraping plate, and the sharp part in front of the scraping strip is contacted with the bottom surface of the mop.

10. The self-cleaning and wiping mop bucket of claim 2, wherein: the barrel body and the inner box are both arranged on the base, the positions around the inside of the base are respectively provided with a limiting piece, and the inner box is clamped outside the lower part of the inner box through the limiting pieces to strengthen and fix the inner box.