CN217488529U - High-efficient decontamination wiper mechanism and cleaning appliance - Google Patents

Abstract

The utility model discloses a high-efficient decontamination wiper mechanism and cleaning device, wherein high-efficient decontamination wiper mechanism includes clean cylinder and produces the crowded water strip of first interference indent on clean cylinder surface, be equipped with a plurality of water jets on the crowded water strip, every water jet is not higher than the notch of first interference indent. When the cleaning roller is used, the cleaning roller rotates, clear water is sprayed out from the clear water supply pipeline through the water spray nozzle at high pressure and acts on the surface of the cleaning roller, when the surface of the cleaning roller is extruded, fine dust in the cleaning roller can be brought out by liquid such as water in the cleaning roller, and under the double actions of sewage extrusion water flow and clear water flushing, on one hand, fine particles which can be attached to the surface of the cleaning roller can be flushed and separated from the cleaning roller, so that the fine particles are prevented from being attached to the rear end of the water extrusion strip and causing peculiar smell; on the other hand, the cleaning roller can be wetted, and certain cleaning humidity on the surface of the cleaning roller is kept. Meanwhile, the cleaning roller has better cleaning effect on the long and thin objects attached to the surface of the cleaning roller.

Description

High-efficient decontamination wiper mechanism and cleaning appliance

Technical Field

The utility model relates to a cleaning equipment technical field especially relates to a high-efficient decontamination wiper mechanism and cleaning appliance.

Background

Early ground cleaning tools used by people were brooms, mops, etc., which relied primarily on manual operation of the person to accomplish the cleaning task. As technology advances, demands for floor cleaning tools have increased, and first, there have been vacuum cleaners which are powered by electricity to suck up garbage, dust, etc. on the floor by generating negative pressure. The technology is classified by means of cleaning and a circulation path of small-particle garbage and large-particle garbage, and the technology is generally classified into a gas-dust circulation technology.

Chinese patent document CN100581433B discloses a floor cleaner combined with a floor wiping device with a floor sweeping function, which includes a housing, a floor wiping device installed at the front end of the housing, a decontamination device used for cleaning the floor wiping device, and a transmission device, wherein the floor wiping device includes a rotating shaft and a wiping layer coated on the rotating shaft, the decontamination device forms a cleaning cavity containing cleaning liquid on the surface of the wiping layer and in a direction parallel to the axial direction of the rotating shaft, the transmission device drives the rotating shaft to rotate, and the floor cleaner is characterized in that: the cleaning cavity is characterized in that an inlet of the cleaning cavity is connected with a clean water container, an outlet of the cleaning cavity is connected with a sewage container, the transmission device further comprises a water pump, cleaning liquid in the clean water container is injected into the cleaning cavity by the water pump, a garbage collecting device is arranged at a rotating shaft of the floor wiping device and comprises a guide surface which is tightly attached to the ground and close to a wiping layer of the floor wiping device, and the rotating wiping layer of the floor wiping device drives garbage to enter the garbage collecting device along the guide surface through friction force. Although the scheme can realize water dust cleaning, the cleaning cavity is formed on the decontamination device, so that clean water for cleaning, extruded sewage and sewage formed on the surface of the roller are mixed, the surface of the roller cannot be cleaned thoroughly, and partial garbage is brought to a cleaned surface, so that the cleaning efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a high-efficient decontamination wiper mechanism and cleaning appliance, can better clear away cylinder surface rubbish when this high-efficient decontamination wiper mechanism washs, and cylinder cleaning efficiency is higher, and the effect is better.

In order to solve the problem, the utility model provides a clean floor cleaning machine of multichannel water spray, this high-efficient decontamination wiper mechanism, including clean cylinder and the crowded water strip that produces first interference indent on clean cylinder surface, be equipped with a plurality of water jets on the crowded water strip, every water jet is not higher than the notch of first interference indent.

Further, the water spraying area of the water spraying opening at least comprises the area where the first interference pressing groove is jointed with the surface of the non-interference cleaning roller.

Furthermore, the water squeezing strip is provided with a water supply pipeline which is communicated with each water spraying opening.

Further, the water jet is located on the front side in the rotation direction when working with the cleaning roller.

Furthermore, the water squeezing strip is also provided with a prepressing structure which generates a plurality of second interference pressure grooves on the surface of the cleaning roller.

Further, the water jet is arranged on the prepressing structure.

Furthermore, the pre-pressing structure comprises a plurality of pre-pressing blocks distributed on a straight line, and a gap for discharging sewage extruded by the water squeezing strips is formed between every two pre-pressing blocks.

Further, the second interference indent is located in the first interference indent or the surface of the cleaning roller is not interfered.

Further, the depth of the first interference indent is greater than the depth of the second interference indent.

The utility model also provides a cleaning appliance, this cleaning appliance include wiper mechanism, and this wiper mechanism includes cleaning roller and the crowded water strip that produces first interference indent on cleaning roller surface, be equipped with a plurality of water jets on the crowded water strip, every water jet is not higher than the notch of first interference indent.

Further, the water spraying area of the water spraying opening at least comprises the area where the first interference pressing groove is jointed with the surface of the non-interference cleaning roller.

Further, the water squeezing strip is provided with a water supply pipeline which is communicated with each water spraying opening.

Further, the water jet is located on the front side in the rotation direction when working with the cleaning roller.

Furthermore, the water squeezing strip is also provided with a prepressing structure which generates a plurality of second interference pressure grooves on the surface of the cleaning roller.

Furthermore, the water jet is arranged on the prepressing structure.

Furthermore, the pre-pressing structure comprises a plurality of pre-pressing blocks distributed on a straight line, and a gap for discharging sewage extruded by the water squeezing strips is formed between every two pre-pressing blocks.

Further, the second interference indent is located in the first interference indent or the surface of the cleaning roller is not interfered.

Further, the depth of the first interference indent is greater than the depth of the second interference indent.

The utility model provides a high-efficient decontamination wiper mechanism and cleaning device, wherein high-efficient decontamination wiper mechanism includes clean cylinder and produces the crowded water strip of first interference indent on clean cylinder surface, be equipped with a plurality of water jets on the crowded water strip, every water jet is not higher than the notch of first interference indent. When the cleaning roller is used, the cleaning roller rotates, clear water is sprayed out from the clear water supply pipeline through the water spray nozzle at high pressure and acts on the surface of the cleaning roller, when the surface of the cleaning roller is extruded, fine dust in the cleaning roller can be brought out by liquid such as water in the cleaning roller, and under the double actions of sewage extrusion water flow and clear water flushing, on one hand, fine particles which can be attached to the surface of the cleaning roller can be flushed and separated from the cleaning roller, so that the fine particles are prevented from being attached to the rear end of the water extrusion strip and causing peculiar smell; on the other hand, the cleaning roller can be wetted, and certain cleaning humidity on the surface of the cleaning roller is kept. Meanwhile, the cleaning roller has better cleaning effect on the long and thin objects attached to the surface of the cleaning roller.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without exceeding the protection scope of the present application.

FIG. 1 is a schematic structural diagram of an embodiment of an efficient decontamination cleaning mechanism in a sectional view along a direction perpendicular to a rotating shaft of a cleaning roller.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of a part of the structure of a second embodiment A of the high-efficiency decontamination cleaning mechanism.

Fig. 4 is an enlarged schematic view of a portion D of fig. 3.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The following claims are presented in conjunction with the detailed description of the invention and the accompanying drawings, it being understood that the embodiments described are only some embodiments of the invention and not all embodiments. Based on the embodiments of the present invention, those skilled in the art can find out all other embodiments without creative efforts, and all the embodiments also belong to the protection scope of the present invention.

It should be understood that in the embodiments of the present invention, all directional terms, such as "upper", "lower", "left", "right", "front", "back", etc., are used herein based on the orientation and position shown in the drawings or the orientation and position of the product, and are not intended to limit the present invention, but to simplify the description of the present invention. For the purpose of explaining only the relative positional relationship between the respective components, the movement, and the like, as shown in the drawings, when the specific posture is changed, the directional indication may be changed accordingly.

Furthermore, the use of ordinal numbers such as "first", "second", etc., in the present application is for distinguishing purposes only and is not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. The features defining "first" and "second" may be explicit or implicit in relation to at least one of the technical features. In the description of the present invention, "a plurality" means at least two, i.e., two or more, unless expressly defined otherwise; the meaning of "at least one" is one or both.

In the present invention, unless explicitly specified or limited otherwise, the terms "mounting," "setting," "connecting," "fixing," "screwing" and the like are to be understood in a broad sense, and for example, the positional relationship between the components may be relatively fixed, or the components may be physically fixed and connected, or may be detachably connected, or may be integrated into a single structure; the connection can be mechanical connection or electrical signal connection; either directly or indirectly through intervening media or components; the two elements may be connected to each other or may be in an interaction relationship with each other, and unless otherwise explicitly limited by the specification, the specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations, except that the corresponding function or effect cannot be achieved in other understanding.

The present invention relates to a control technique or unit that is conventional for those skilled in the art, such as a controller and a control circuit, and the control circuit of the controller can be implemented by those skilled in the art using existing techniques, such as simple programming. Software or programs related to the implementation of the control result in cooperation with hardware, such as software or program control procedures related to the software or program control procedure, which are not described in detail, belong to the technical field of the prior art or the conventional technology of the ordinary person skilled in the art. The power also adopts belong to this field of prior art, and the utility model discloses main utility model technical point lies in improving mechanical device, so the utility model discloses no longer explain in detail concrete circuit control relation and circuit connection.

The present disclosure provides many different embodiments or examples for implementing different structures of the present invention. In order to simplify the disclosure of the present invention, the components and arrangements of the specific examples are described in the present invention. Of course, they are merely examples and are not intended to limit the present invention. Furthermore, the present disclosure may repeat reference numerals and/or reference letters in the various examples for purposes of simplicity and clarity and do not in itself dictate a relationship between the various embodiments and/or arrangements discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the application of other processes and/or the use of other materials.

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

The embodiments of the present application will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, the present invention provides an embodiment of a high-efficiency decontamination cleaning mechanism.

The efficient decontamination cleaning mechanism comprises a cleaning roller 2 and a water squeezing strip 3 which generates a first interference pressure tank 4 on the surface of the cleaning roller 2, wherein a plurality of water spraying nozzles 33 are arranged on the water squeezing strip 3, and each water spraying nozzle 33 is not higher than a notch of the first interference pressure tank 4.

Specifically, the washing mechanism includes a housing 1 for mounting a cleaning roller 2 and a wringer strip 3, the cleaning roller 2 being driven by a motor (not shown). After assembly, the water squeezing strips 3 generate squeezing interference on partial surface areas of the cleaning roller 2 and generate first interference grooves 4 on the surface of the cleaning roller 2, and the water squeezing strips 3 are generally arranged in parallel along the rotating shaft of the cleaning roller 2, so that the first interference grooves 4 formed on the surface of the cleaning roller 2 are parallel to the rotating shaft of the cleaning roller 2. The water squeezing strip 3 comprises a water squeezing part 30 and a clean water pipeline 31 arranged on the water squeezing part 30, and the clean water pipeline is communicated with each water spraying opening 33 respectively. Each water jet 33 sprays horizontally over a range greater than the width of the water jet 33 itself.

The water jet 33 is located on the front side of the rotation direction of the cleaning roller 2 in operation, i.e., the water jet 33 jets water in the direction opposite to the rotation direction of the cleaning roller 2.

The water spraying area of the water spraying opening 33 at least comprises the area where the first interference pressure groove 4 meets the surface E of the non-interference cleaning roller, namely the area C in the figure. Because the water spraying area of the water spraying opening 33 is located in the junction area of the first interference pressure groove 4 and the surface E of the non-interference cleaning roller, when the surface of the cleaning roller is extruded, a large extrusion stress area can be formed, so that the extrusion force of liquid in the cleaning roller is large, the liquid is extruded from the front side of the first interference pressure groove 4 under large pressure, large and rapid water flow can be formed in the junction area of the first interference pressure groove 4 and the surface E of the non-interference cleaning roller, the water flow generated by extrusion is far smaller than the water flow speed sprayed out from the water spraying opening 33, and by superposing large flow speed of flushing clear water, on one hand, the particles can be flushed away from the first interference pressure groove 4, thereby preventing fine particles from attaching to the rear end of the water extrusion strip and causing odor generation, and meanwhile, the surface of the cleaning roller in the flushing area is kept in a clear water state, so that certain cleaning humidity on the surface of the cleaning roller is kept.

For more effective cleaning effect on the long and thin objects adhered to the surface of the cleaning roller, the water-squeezing strip 3 is further provided with a pre-pressing structure 34 for generating a plurality of second interference pressing grooves 5 on the surface of the cleaning roller 2. The water spraying opening 33 is arranged on the pre-pressing structure 34. The pre-pressing structure 34 includes a plurality of pre-pressing blocks (not shown in the drawings) distributed on a straight line, and a gap (not shown in the drawings) for discharging the sewage extruded by the water-extruding strips 3 is formed between each two pre-pressing blocks. Since the pre-pressing block can generate a plurality of second interference press grooves 5 on the surface of the cleaning roller 2, the depth of each second interference press groove 5 is b, since the second interference press grooves 5 are formed by a plurality of pre-pressing blocks, and each second interference press groove 5 is discontinuous, when the slender garbage is attached to the surface of the cleaning roller 2, part of the slender garbage can be separated from the surface of the cleaning roller 2 at the second interference press grooves 5 due to the existence of a plurality of second interference press grooves 5, and at the moment, the slender garbage can be easily separated from the surface of the cleaning roller 2 through the proper arrangement of the water spraying opening 33, so that the cleaning effect is improved.

The second interference pressure groove 5 is positioned in the first interference pressure groove 4 or on the surface C of the non-interference cleaning roller, and can automatically strip part of the slender garbage from the surface of the cleaning roller 2 by utilizing the sewage extrusion effect generated during extrusion. The purpose of the second interference pressing groove 5 is to separate the elongated debris attached to the surface of the cleaning roller 2 from the cleaning roller, which makes it easier to clean the elongated debris attached to the surface of the cleaning roller 2.

The depth a of the first interference indent 4 is greater than the depth b of the second interference indent 5 as required. This avoids the generation of a large resistance in the operation of the cleaning roller 2, thereby increasing noise and power consumption.

The utility model discloses still provide a cleaning implement embodiment.

The cleaning appliance comprises a cleaning mechanism, wherein the cleaning mechanism comprises a cleaning roller 2 and a water squeezing strip 3 which generates a first interference pressure groove 4 on the surface of the cleaning roller 2, a plurality of water spraying ports 33 are arranged on the water squeezing strip 3, and each water spraying port 33 is not higher than the notch of the first interference pressure groove 4.

Specifically, the cleaning device comprises a handle connected with the shell, a roller arranged on the shell, a control circuit, a clean water supply mechanism and a sewage collection mechanism, wherein the clean water supply mechanism comprises a clean water tank, a water supply pipeline communicated with the clean water tank and a water spray opening 33, and a water pump for providing power for clean water. The sewage collecting mechanism comprises a sewage tank, a sewage pipe and a sewage pump, wherein the sewage pipe is communicated with the sewage tank and the sewage discharging port, and the sewage pump provides power for sewage.

The washing mechanism comprises a housing 1 for mounting a cleaning roller 2 and a wringing strip 3, the cleaning roller 2 being driven by a motor (not shown). After assembly, the water squeezing strips 3 generate squeezing interference on partial surface areas of the cleaning roller 2 and generate first interference grooves 4 on the surface of the cleaning roller 2, and the water squeezing strips 3 are generally arranged in parallel along the rotating shaft of the cleaning roller 2, so that the first interference grooves 4 formed on the surface of the cleaning roller 2 are parallel to the rotating shaft of the cleaning roller 2. The water squeezing strip 3 comprises a water squeezing part 30 and a clean water pipeline 31 arranged on the water squeezing part 30, and the clean water pipeline is respectively communicated with each water spraying opening 33. Each water jet 33 sprays horizontally over a range greater than the width of the water jet 33 itself.

The water jet 33 is located on the front side of the rotation direction of the cleaning roller 2 in operation, i.e., the water jet 33 jets water in the direction opposite to the rotation direction of the cleaning roller 2.

The water spraying area of the water spraying opening 33 at least comprises the area where the first interference pressure groove 4 meets the surface E of the non-interference cleaning roller, namely area C in the figure. Because the water spraying area of the water spraying opening 33 is located in the junction area of the first interference pressure groove 4 and the surface E of the non-interference cleaning roller, when the surface of the cleaning roller is extruded, a large extrusion stress area can be formed, so that the extrusion force of liquid in the cleaning roller is large, the liquid is extruded from the front side of the first interference pressure groove 4 under large pressure, large and rapid water flow can be formed in the junction area of the first interference pressure groove 4 and the surface E of the non-interference cleaning roller, the water flow generated by extrusion is far smaller than the water flow speed sprayed out from the water spraying opening 33, and by superposing large flow speed of flushing clear water, on one hand, the particles can be flushed away from the first interference pressure groove 4, thereby preventing fine particles from attaching to the rear end of the water extrusion strip and causing odor generation, and meanwhile, the surface of the cleaning roller in the flushing area is kept in a clear water state, so that certain cleaning humidity on the surface of the cleaning roller is kept.

In order to effectively clean the long and thin objects adhered to the surface of the cleaning roller, the water squeezing strip 3 is also provided with a prepressing structure 34 for generating a plurality of second interference pressing grooves 5 on the surface of the cleaning roller 2. The water jet 33 is arranged on the pre-pressing structure 34. The pre-pressing structure 34 includes a plurality of pre-pressing blocks (not shown in the drawings) distributed on a straight line, and a gap (not shown in the drawings) for discharging the sewage extruded by the water-extruding strips 3 is formed between each two pre-pressing blocks. Since the pre-pressing block can generate a plurality of second interference press grooves 5 on the surface of the cleaning roller 2, the depth of each second interference press groove 5 is b, since the second interference press grooves 5 are formed by a plurality of pre-pressing blocks, and each second interference press groove 5 is discontinuous, when the slender garbage is attached to the surface of the cleaning roller 2, part of the slender garbage can be separated from the surface of the cleaning roller 2 at the second interference press grooves 5 due to the existence of a plurality of second interference press grooves 5, and at the moment, the slender garbage can be easily separated from the surface of the cleaning roller 2 through the proper arrangement of the water spraying opening 33, so that the cleaning effect is improved.

The second interference pressure groove 5 is positioned in the first interference pressure groove 4 or on the surface C of the non-interference cleaning roller, and can automatically strip part of the slender garbage from the surface of the cleaning roller 2 by utilizing the sewage extrusion effect generated during extrusion. The purpose of the second interference pressing groove 5 is to separate the elongated debris attached to the surface of the cleaning roller 2 from the cleaning roller, which makes it easier to clean the elongated debris attached to the surface of the cleaning roller 2.

The depth a of the first interference indent 4 is greater than the depth b of the second interference indent 5 as required. This avoids the generation of a large resistance in the operation of the cleaning roller 2, thereby increasing noise and power consumption.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments, or equivalent substitutions and combinations of parts (features) of one or more of the embodiments, without departing from the spirit and scope of the embodiments, unless otherwise indicated by the claims.

Claims (10)

1. The efficient decontamination cleaning mechanism comprises a cleaning roller and a water squeezing strip for generating a first interference pressing groove on the surface of the cleaning roller, and is characterized in that a plurality of water spraying ports are arranged on the water squeezing strip, and each water spraying port is not higher than a notch of the first interference pressing groove.

2. The mechanism of claim 1, wherein the water jet area comprises at least an area where the first interference indent meets the surface of the non-interference cleaning roller.

3. The mechanism of claim 2, wherein the water-squeezing strip is provided with a water supply line, and the water supply line is communicated with each water jet.

4. The mechanism of claim 3, wherein the water jet is located on a forward side of the direction of rotation of the cleaning roller during operation.

5. The mechanism according to claim 1, wherein the wringing bar is further provided with a pre-pressing structure for generating a plurality of second interference grooves on the surface of the cleaning roller.

6. The mechanism of claim 5, wherein the water jet is provided in a pre-pressing structure.

7. The mechanism according to claim 6, wherein the pre-pressing structure comprises a plurality of pre-pressing blocks distributed in a straight line, and a gap for discharging the sewage extruded by the water-squeezing strips is arranged between each pre-pressing block.

8. The mechanism of claim 6, wherein the second interference indent is located within the first interference indent or does not interfere with cleaning of the cylinder surface.

9. The mechanism of claim 6, wherein the first interference indent has a depth greater than the second interference indent depth.

10. A cleaning appliance comprising a cleaning mechanism, wherein the cleaning mechanism comprises any one of the high-efficiency decontamination cleaning mechanisms 1-9.

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