CN115998196B - Rotary mop cleaning device - Google Patents

Abstract

This invention proposes a rotating mop cleaning device, which includes a suction port and a rotating mop. The suction port is used to suck up debris, and the rotating mop is used for rotating and cleaning. The rotating mop is equipped with a scraper for scraping away debris from the circumferential sides of the rotating mop. The debris is sucked away by the suction port. By using the aforementioned technical means, the degree to which debris is thrown to the surroundings is reduced, which helps to extend the working time of the rotating mop and thus avoids frequent cleaning of the rotating mop, making it more convenient for users.

Description

Rotary mop cleaning device

Technical Field

The invention relates to the technical field of cleaning devices such as electric mops, floor washers, dust collectors, floor sweeping robots and the like, in particular to a rotary mop cleaning device.

Background

The cleaning device mainly used in indoor scenes (home, office and the like), such as an electric mop, a floor washing machine, a dust collector, a sweeping robot and the like, has the characteristics of small required volume, convenient movement, light weight, low price and the like.

In the cleaning device, the use of a rotary mop to improve the cleaning performance has become an important research direction, and the rotary mop is increasingly applied to an electric mop, a floor washing machine and a floor sweeping robot, and the rotary mop and a common rolling brush become two parallel technical means or two parallel technical routes in the cleaning field. Many roller brushes have been studied in the industry and are widely used, but less so than rotating mops, especially in connection with rotating mop cleaning devices provided with a suction function.

In the deep ploughing cleaning field of the inventor, in the research process, the inventor finds that the cleaning performance of the rotary mop is very strong, but the cleaning motion mode is remarkably different from that of a rolling brush, the rolling brush is generally horizontally arranged, a suction port is arranged at the rear side or above the rolling brush, the rolling brush has positive effects in the forward rolling process, namely, the rotary motion of the rolling brush can effectively enable garbage to move to the suction port, so that the suction port can collect the garbage better, the rotary shaft of the rotary mop is approximately vertical to the surface to be cleaned, and when the rotary mop rotates in the circumferential direction, the garbage is easy to throw around, so that the surface to be cleaned is polluted, the situation of throwing the garbage is reduced, and at present, in order to simplify cleaning, a cleaning base station is arranged to mechanically clean the rotary mop, so that the cleaning rotary mop occupies more time, and is more troublesome for users.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides the rotary mop cleaning device, which adopts a certain technical means to reduce the degree of throwing garbage to the periphery, is beneficial to prolonging the working time of the rotary mop, thereby avoiding frequent cleaning of the rotary mop and further is convenient for users to use.

Compared with the prior art, the invention provides a rotary mop cleaning device which comprises a suction port and a rotary mop, wherein the suction port is used for sucking garbage, the rotary mop is used for rotary cleaning, the rotary mop is provided with a scraping plate, the scraping plate is used for scraping garbage on the circumferential side surface of the rotary mop, and the garbage is sucked by the suction port.

As an improvement, the rotary mop comprises two rotary mops arranged side by side, namely a first rotary mop and a second rotary mop, the scraper is positioned between the first rotary mop and the second rotary mop, the left end of the scraper is used for scraping garbage on the circumferential side of the first rotary mop, and the right end of the scraper is used for scraping garbage on the circumferential side of the second rotary mop.

As an improvement, the scraper comprises a middle portion for blocking said waste from passing over the suction opening.

As an improvement, the intermediate portion is located close to the suction opening.

As an improvement, the left end of the scraper is arranged to extend in the reverse rotation direction of the circumferential side surface of the first rotary mop, and the right end of the scraper is arranged to extend in the reverse rotation direction of the circumferential side surface of the second rotary mop.

As an improvement, the left end of the scraper is extended to be positioned at the left front side of the suction port, and the right end of the scraper is extended to be positioned at the right front side of the suction port.

The improved mop comprises an upper part, wherein the upper part is positioned on the upper side of each rotary mop, the upper part is provided with a front side surface part, a suction port is arranged between the two front side surface parts, a scraping plate is arranged between the two front side surface parts, and the suction port and the scraping plate are arranged up and down.

As an improvement, two front side surface parts are provided with guiding cambered surfaces at one end of the suction port, and the two guiding cambered surfaces and the suction port form a splayed inlet.

As an improvement, both ends of the scraping plate are positioned at the lower sides of the two guiding cambered surfaces.

As an improvement, the two ends of the scraping plate are arranged into an arc shape which is approximately the same as the radian of the corresponding guiding cambered surface.

As an improvement, the scraping plate adopts a detachable scraping strip structure.

As an improvement, the relative rotation direction between the first rotary mop and the second rotary mop is opposite rotation.

As an improvement, the number of the suction openings is one, and the suction openings and the scraping plate are positioned at the front side between the first rotary mop and the second rotary mop.

As an improvement, the suction opening is used for sucking the garbage at the front side of the rotary mop cleaning device and scraping the garbage obtained at the circumferential side of the rotary mop.

Compared with the prior art, the invention has the advantages that the circumferential side surface of the rotary mop can be continuously cleaned, and scraped garbage is sucked by the suction port, so that the garbage carrying amount of the circumferential side surface of the rotary mop is obviously reduced, the garbage throwing degree is reduced, the working time of the rotary mop is prolonged, frequent cleaning of the rotary mop is avoided, and the rotary mop is convenient for users to use.

In addition, if the first rotary mop and the second rotary mop are arranged, the suction port and the scraping plate are positioned at the front side between the first rotary mop and the second rotary mop, and the relative rotation direction between the first rotary mop and the second rotary mop is opposite rotation, so that the effect of the invention is better, because the front part of the rotary mop cleaning device is the surface to be cleaned during cleaning, the structure is arranged, a state is formed that the first rotary mop and the second rotary mop which are cleaned by the scraping plate wipe the surface to be cleaned in a cleaner state, and the scraping plate and the suction port positioned at the front side immediately after the surface to be cleaned are processed by opposite rotation, so that the time that garbage stays at the circumferential side surface of the rotary mop is shorter, thereby forming better working cycle, and being beneficial to better realizing the purpose of the invention.

Drawings

Figure 1 is a schematic perspective view of a rotary mop assembly of a rotary mop cleaning device.

Figure 2 is a bottom view of the rotary mop assembly of figure 1.

Fig. 3 is a cross-sectional view in the A-A direction.

Figure 4 is a schematic perspective view of the rotary mop assembly of figure 1 in a bottom view.

Figure 5 is a schematic perspective view of the rotary mop assembly of figure 1 after removal of the first rotary mop and the second rotary mop.

The reference numerals indicate 1-suction opening, 2-first rotary mop, 3-second rotary mop, 4-baffle, 5-first diversion channel, 6-second diversion channel, 7-collecting channel, 8-upper part, 9-front side part, 10-scraper, 11-suction opening, 12-cambered surface, 13-guiding cambered surface.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the invention. The embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the invention defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In the following, the invention will be described in further detail, the rotary mop cleaning device is exemplified by a floor scrubber which preferably employs two rotary mops arranged side by side, which has a larger cleaning range and a higher cleaning efficiency. The floor washing machine adopting the technology can reduce the degree of throwing garbage around, is beneficial to prolonging the working time of the rotary mop, thereby avoiding frequent cleaning of the rotary mop, and is more convenient for users to use:

The rotary mop assembly of the rotary mop cleaning device is shown in figures 1,2 and 4, which are not in contact with the surface to be cleaned, and thus the rotary mop is not compressed, so that the thickness shown in the figures is thicker, and when in contact with the surface to be cleaned, the rotary mop will be compressed to reduce the thickness, due to the weight of the rotary mop cleaning device, after the rotary mop assembly has been placed on the surface to be cleaned.

The rotary mop assembly comprises a suction port 1 and a rotary mop, wherein the suction port 1 is communicated with the suction assembly, the suction assembly generates suction force, such as an electric motor generates suction force, the suction port 1 is used for sucking garbage, and the rotary mop is used for rotary cleaning.

This example is the most preferred case, in which the number of suction openings 1 is set to one, and both suction openings 1 and scrapers 10 are located on the front side between the first rotary mop 2 and the second rotary mop 3, and the suction openings 1 are used for sucking the garbage on the front side of the rotary mop cleaning device and scraping the garbage obtained from the circumferential side of the rotary mop at the same time, so that after design, the cleaning effect and efficiency are improved, and at the same time the structure is greatly simplified and the cost is reduced.

Of course, the number of suction ports 1 may be more than one.

The rotary mop comprises two rotary mops which are arranged side by side, namely a first rotary mop 2 and a second rotary mop 3, the suction port 1 is positioned between the first rotary mop 2 and the second rotary mop 3, the relative rotation directions of the first rotary mop 2 and the second rotary mop 3 are opposite, the scraping plate 10 is positioned between the first rotary mop 2 and the second rotary mop 3, the left end of the scraping plate 10 is used for scraping garbage on the circumferential side surface of the first rotary mop 2, and the right end of the scraping plate 10 is used for scraping garbage on the circumferential side surface of the second rotary mop 3.

In this case, the left end of the scraper 10 is arranged to extend in the reverse rotation direction of the circumferential side of the first rotary mop 2, and the right end of the scraper 10 is arranged to extend in the reverse rotation direction of the circumferential side of the second rotary mop 3, so that the circumferential sides of the respective rotary mops can be cleaned better and the resistance to formation is smaller.

The left end of the squeegee 10 is extended to be located on the left front side of the suction port 1, and the right end of the squeegee 10 is extended to be located on the right front side of the suction port 1. This allows the cleaned waste to be sucked away by the suction opening 1 better and faster.

In addition to the scraper 10, in this example, a baffle 4 is provided on the front side of the first rotary mop 2, the suction opening 1, and the second rotary mop 3, a first flow guide channel 5 is formed between the front side portion of the circumferential side of the first rotary mop 2 and the baffle 4, a second flow guide channel 6 is formed between the front side portion of the circumferential side of the second rotary mop 3 and the baffle 4, and a collection channel 7 connecting the first flow guide channel 5 and the second flow guide channel 6 is formed between the suction opening 1 and the baffle 4.

As shown in fig. 2, the arrows illustrate the described opposite rotation.

Along the up-down direction, the first diversion channel 5 and the second diversion channel 6 both comprise an upper part and a lower part, the lower part is a part formed between the baffle 4 and the front part corresponding to the circumferential side surface of the rotary mop, the upper part is a part formed between the baffle 4 and the front part 9 of the upper part 8, and the corresponding upper part 8 is positioned on the upper side corresponding to the rotary mop. The upper and lower portions may be as shown with reference to fig. 3. After the design, the depth of the first diversion channel 5 and the second diversion channel 6 is increased, so that the garbage can be contained and moved conveniently, and the position of the suction port 1 is arranged conveniently, so that the suction port 1 can be higher than the rotary mop.

A suction opening 1 is provided between the two front side portions 9. After the design, the garbage collection device is beneficial to more efficiently and comprehensively collecting garbage, and is compact in structure.

The depth of the upper portion is approximately equal to the thickness of the suction opening 1. After the design, the garbage can be smoothly collected, and the garbage can smoothly move.

As shown in fig. 2,4 and 5, a scraper 10 is arranged between the front side parts 9, the left end of the scraper 10 being intended to scrape the waste from the circumferential side of the first rotary mop 2, and the right end of the scraper 10 being intended to scrape the waste from the circumferential side of the second rotary mop 3. After such design, on the one hand, the garbage on the circumferential side is favorable for cleaning the cleaning performance of the rotary mop, on the other hand, the structure is very compact, and on the other hand, the cleaned garbage can be collected near the suction opening 1, so that the garbage can be efficiently collected, the garbage is prevented from being accumulated at two ends of the scraping plate 10 due to the fact that the garbage is not collected, and if the garbage is accumulated, the rotary mop becomes dirty.

The arrangement of the scraper 10 between the two front side parts 9 has the additional positive effect that the first and second rotary mops 2, 3 can be largely prevented from bringing or throwing waste into between the first and second rotary mops 2, 3 when they are rotated in opposite directions, i.e. the scraper 10 also has a blocking effect, and after being blocked by the scraper 10, the blocked waste is sucked away under the action of the suction opening 1, thus being able to clean the circumferential sides of the rotary mops better.

In any case, the blade 10 is very skillfully designed, on the one hand, with a very simple and compact structure and with the two front side parts 9 connected, and on the other hand, with a great cleaning effect.

In order to better exert the cleaning effect, in this case, it is preferable to provide that the two front side portions 9 are provided with guide cambered surfaces 13 at one end of the suction port 1, and that the two guide cambered surfaces 13 and the suction port 1 form a splayed inlet.

In order to exert the cleaning effect more quickly, in this example, it is preferable that both ends of the blade 10 are located below the two guide cambered surfaces 13.

In order to exert the cleaning effect more quickly, in this example, it is preferable that both ends of the blade 10 are formed in an arc shape substantially identical to the arc shape of the corresponding guide arc surface 13.

The number of the scrapers 10 may be one or a plurality, and the openings of the suction port 1 for sucking the garbage may be preferably provided near the scrapers 10, and the number of the openings may be one or a plurality, depending on the specific structure of the scrapers 10.

In this example, the middle part is arranged near the suction port 1, so that the blocked garbage can be sucked away faster under the action of the suction port 1, and the cleaning effect is better.

The scraper 10 adopts a detachable scraper bar structure. After the design, the scraper 10 can be replaced, so that the scraper 10 with small damage to the circumferential side surface of the rotary mop can be selected on one hand, and on the other hand, the scraper 10 can be replaced in time, thereby being beneficial to the cleaning effect on the circumferential side surface of the new rotary mop after the new rotary mop is replaced.

As shown in fig. 1, the baffle 4 is provided with a suction opening 11, by means of which suction opening 11 waste located on the front side of the rotary mop cleaning device can be brought into the flow-guiding channel and/or the suction opening 1 quickly and thus be better collected by the suction opening 1, whereby the suction opening 11 and the flow-guiding channel form a positive co-action.

The baffle 4 is provided with at least one suction opening 11 at the front side of the circumferential side of the corresponding first rotary mop 2, at the front side of the circumferential side of the second rotary mop 3, at the suction opening 1. The number of the suction ports 11 should not be large, and if large, the construction of the diversion channel is not facilitated. In this example, the baffle 4 is provided with a suction inlet 11 at the front side corresponding to the circumferential side of the first rotary mop 2, the front side corresponding to the circumferential side of the second rotary mop 3 and the suction inlet 1, so that after design, garbage can be more comprehensively and rapidly guided into the diversion channel, thereby realizing efficient cleaning, and avoiding adverse effects on the diversion channel.

In this case, the shape of the first flow channel 5 at the front side of the circumferential side of the first rotary mop 2 and the shape of the second flow channel 6 at the front side of the circumferential side of the second rotary mop 3 are both arc-shaped flow channels adapted to the shape of the circumferential side of the corresponding rotary mop. After the design, the garbage can move more conveniently, and the circumferential rotation of the rotary mop cloth can form arc-shaped moving airflow.

As shown in fig. 2 and 5, the shape of the baffle 4 at the front side of the circumferential side corresponding to the first rotary mop 2 and the shape of the front side of the circumferential side of the second rotary mop 3 each adopt an arc shape adapted to the shape of the circumferential side corresponding to the rotary mop, the shape of the front side portion 9 at the front side of the circumferential side corresponding to the first rotary mop 2 and the shape of the front side of the circumferential side of the second rotary mop 3 each adopt an arc shape adapted to the shape of the circumferential side corresponding to the rotary mop, and the arc-shaped baffle 4 portion, the arc-shaped front side portion 9 and the circumferential side corresponding to the rotary mop together form a corresponding arc-shaped flow guide channel. Therefore, the structure is simple and compact, and the production and the assembly are facilitated. In this case, the lower end surface of the upper part 8 is simultaneously used as a supporting surface for the rotary mop, and after the design, the arc-shaped diversion channel is easier to realize, and the structural complexity and the weight are better controlled.

In this case, the transition between the front side part 9 and the lower end face is provided as a cambered surface 12 in order to bring the refuse into the guide channel better.

Other structures of the floor washing machine can adopt the prior art, and the description is omitted here.

Of course, the present invention may be other rotary mop cleaning devices, such as a dust collector, a sweeping robot, etc., and the present invention will be clearly understood by referring to the above description, so that the description thereof will not be repeated.

In understanding the present invention, the above-described structure may be understood together with other drawings, if necessary, and will not be described herein.

The foregoing description is only illustrative of the present invention and is therefore intended to cover all such modifications and changes in form, details, and materials as fall within the true spirit and scope of the invention.

Claims (11)

1. A rotating mop cleaning device, comprising a suction port and a rotating mop, wherein the suction port is used to suction garbage and the rotating mop is used for rotating cleaning, characterized in that the rotating mop is provided with a scraper for scraping off garbage on the circumferential side of the rotating mop, wherein the garbage is sucked away by the suction port. The rotating mop includes two rotating mops arranged side by side, namely the first rotating mop and the second rotating mop. A scraper is located between the first rotating mop and the second rotating mop. The left end of the scraper is used to scrape off the debris on the circumferential side of the first rotating mop, and the right end of the scraper is used to scrape off the debris on the circumferential side of the second rotating mop. The left end of the scraper extends in the opposite direction of rotation along the circumferential side of the first rotating mop, and the right end of the scraper extends in the opposite direction of rotation along the circumferential side of the second rotating mop. It includes an upper part, which is located on the upper side of each rotating mop. The upper part has a front side section, a suction port is set between the two front side sections, and a scraper is set between the two front side sections. The suction port and the scraper are set up above and below each other. 2. The rotary mop cleaning device according to claim 1, characterized in that the scraper includes a middle portion, which is used to prevent the garbage from passing through the suction port. 3. The rotating mop cleaning device according to claim 2, characterized in that the middle part is near the suction port. 4. The rotary mop cleaning device according to claim 1, characterized in that the left end of the scraper extends to be located on the left front side of the suction port, and the right end of the scraper extends to be located on the right front side of the suction port. 5. The rotary mop cleaning device according to claim 1, characterized in that the two front side portions are provided with guide arc surfaces at one end of the suction port, and the two guide arc surfaces and the suction port form a figure-eight shaped inlet. 6. The rotary mop cleaning device according to claim 5, wherein the two ends of the scraper are located on the lower side of the two guide arc surfaces. 7. The rotary mop cleaning device according to claim 6, characterized in that the two ends of the scraper are configured as arcs with the same curvature as the corresponding guide arc surfaces. 8. The rotary mop cleaning device according to claim 1, 2 or 4, characterized in that the scraper adopts a detachable scraper strip structure. 9. The rotating mop cleaning device according to claim 1, wherein the relative rotation direction between the first rotating mop and the second rotating mop is opposite to each other. 10. The rotating mop cleaning device according to claim 1 or 9, characterized in that the number of suction ports is one, and both the suction port and the scraper are located on the front side between the first rotating mop and the second rotating mop. 11. The rotary mop cleaning device according to claim 10, wherein the suction port is used simultaneously to suction debris from the front side of the rotary mop cleaning device and to scrape debris from the circumferential side of the rotary mop.