CN218907189U - Solid collecting mechanism for scrubbing vehicle device - Google Patents

Abstract

The utility model is suitable for the technical field of vehicle cleaning. The utility model discloses a solid collecting mechanism for a scrubbing vehicle device, which comprises an interference strip which is parallel to the axial direction of a scrubbing roller and is arranged on the surface, close to the surface of the scrubbing roller, wherein a collecting space is formed between one side of the interference strip on the surface of the remote vehicle and the surface of the scrubbing roller. When the surface of the scrubbing roller is used, fine solid particles in the belt are separated from the surface of a vehicle, the surface of the scrubbing roller is extruded by the interference strip, so that the surface of the scrubbing roller is suddenly changed, the rear side of the interference strip is quickly recovered under the elastic action of the scrubbing roller, the fine solid particles attached to the surface of the scrubbing roller are separated from the surface of the scrubbing roller, and a collecting cavity is formed on one side of the interference strip, which is far from the surface of the scrubbing roller, so that the fine solid particles are gathered and concentrated, and scratches are prevented from being generated on the surface of the vehicle after the surface of the scrubbing roller is attached to the surface of the scrubbing roller.

Description

Solid collecting mechanism for scrubbing vehicle device

Technical Field

The utility model relates to the technical field of vehicle cleaning, in particular to a solid collecting mechanism for a vehicle washing and wiping device.

Background

The existing vehicle washing and scrubbing device can wash the surface of the vehicle by continuously rotating the washing and scrubbing roller. However, when the vehicle is in actual use, tiny sand grains are inevitably arranged on the surface, and when solid particles such as sand grains are adhered to the surface of the scrubbing roller during continuous scrubbing by the scrubbing roller, scratches are easily generated on the paint surface of the vehicle, so that the aesthetic appearance of the vehicle is affected.

Chinese patent CN201910970445.5 discloses a quick cleaning device for car, including box body and pump, the opening has been seted up to the lateral wall of box body, the lateral wall fixedly connected with micro motor of box body, micro motor's output shaft runs through the inner wall of box body and fixedly connected with cleaning drum, cleaning drum's lateral wall runs through the opening, the upper end inner wall fixedly connected with mount pad of box body, the lower extreme lateral wall fixedly connected with arc deflector of mount pad, the lateral wall fixedly connected with scraper blade of arc deflector, the lateral wall of scraper blade offsets with cleaning drum's lateral wall, pump's both sides lateral wall fixedly connected with sewage groove and water purification groove respectively. The utility model can be matched with structures such as the inflator pump, the micro motor, the cleaning roller, the scraping plate, the rubber scraping plate and the like to quickly and efficiently remove various dirt on the vehicle body and glass, has extremely high dirt removing efficiency, can greatly reduce the waste of water resources, saves resources, and can also blow off sand grains on the glass and the vehicle body to prevent the glass and the vehicle body from being scratched. In this scheme through second air nozzle with floating dust and sand grain blow off, then drive clean cylinder through micro motor and rotate to can be fast with the dust brush on automobile body surface and the glass, the air cock, the air pump that adopt in the scheme can blow off the sand grain from waiting clean surface, but also increased noise and the consumption of system during operation.

Disclosure of Invention

The utility model mainly solves the technical problem of providing a solid collecting mechanism for a vehicle washing and cleaning device, which can prevent the scratch of solid particles attached to the surface of a washing and cleaning roller on the surface of a vehicle during vehicle washing and cleaning, and simultaneously, does not need an additional power part to enable the solid particles to leave the surface to be cleaned, thereby reducing noise and power consumption.

In order to solve the technical problem, the utility model provides a solid collecting mechanism for a scrubbing device, which comprises an interference strip which is parallel to the axial direction of a scrubbing roller and is arranged close to the surface of the scrubbing roller, wherein a collecting space is formed between one side of the interference strip on the surface of a remote vehicle and the surface of the scrubbing roller.

Further, two ends of the interference strip are provided with water-pocket protrusions for depositing the granular garbage.

Further, the two ends of the interference strip are provided with collapse sections for releasing gas pressure, and the leakage-proof protrusions are located at the junctions of the collapse sections and the interference sections, and extend away from the inner side of the end part of the scrubbing rod and in the direction away from the surface of the vehicle.

Further, the solids collection mechanism further includes a cleaning assembly forming a sealed liquid exchange zone on the surface of the scrubbing roll, the cleaning assembly continuously cleaning the surface of the portion of the scrubbing roll after scrubbing of the vehicle surface and maintaining the surface humidity of the scrubbing roll.

Further, the cleaning assembly comprises a first interference part which forms extrusion with the surface of the scrubbing rod, the first interference part is respectively provided with a fixing part and a sealing part which forms a sealing liquid exchange area on the surface of the scrubbing rod along the two sides of the circumferential direction of the surface of the scrubbing rod, and a groove is arranged between the sealing part and the fixing part which are far away from the opposite side of the first interference part.

Further, a fixing plate is provided between the sealing portion and the fixing portion on the opposite side from the first interference portion.

Further, the fixing plates are respectively arranged in a flat shape when a plurality of fixing plates are arranged.

Further, the cleaning mechanism also comprises a water diversion structure which is connected with the sealing part and is contacted with the surface of the scrubbing rod to form watertight contact.

Further, the water diversion structure comprises a water diversion part contacted with the surface of the scrubbing rod and a water storage part connected with the water diversion part.

Further, the water diversion part extends into the sealed liquid exchange area, the water diversion part close to the sealed liquid exchange area is in contact with the surface of the scrubbing rod, and a gap is arranged between the water diversion part far away from the sealed liquid exchange area and the surface of the scrubbing rod.

Further, the sealed liquid exchange area is respectively provided with a clean water input port and a sewage output port.

Further, the cross section of the sealing liquid exchange area along the length vertical direction is arc-shaped.

The solid collecting mechanism for the scrubbing vehicle device comprises an interference strip which is parallel to the axial direction of a scrubbing roller and is arranged on the surface, close to the surface of the scrubbing roller, of the scrubbing vehicle, and a collecting space is formed between one side of the interference strip on the surface of the remote vehicle and the surface of the scrubbing roller. Further, the collection space includes a fine particle waste collection space. When the surface of the scrubbing roller is used, fine solid particles in the belt are separated from the surface of a vehicle, the surface of the scrubbing roller is extruded by the interference strip, so that the surface of the scrubbing roller is suddenly changed, the rear side of the interference strip is quickly recovered under the elastic action of the scrubbing roller, the fine solid particles attached to the surface of the scrubbing roller are separated from the surface of the scrubbing roller, and a collecting cavity is formed on one side of the interference strip, which is far from the surface of the scrubbing roller, so that the fine solid particles are gathered and concentrated, and scratches are prevented from being generated on the surface of the vehicle after the surface of the scrubbing roller is attached to the surface of the scrubbing roller.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the following brief description will be given of the drawings required for the description of the embodiments or the prior art, it being apparent that the drawings in the description only illustrate certain embodiments of the utility model and should not be construed as limiting the scope, and that other relevant drawings can be obtained from these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a schematic structural view of an embodiment of a continuous scrubbing apparatus.

Fig. 2 isbase:Sub>A schematic view of the scrub roller inbase:Sub>A sectional view taken along the directionbase:Sub>A-base:Sub>A in fig. 1.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic view of the structure of fig. 2 without the scrub roller.

Fig. 5 is an exploded view of the structure of fig. 2.

FIG. 6 is a schematic diagram of an explosion of an embodiment of a water diversion structure.

Fig. 7 is a schematic structural view of an embodiment of a continuous scrubbing apparatus without scrub rollers.

Fig. 8 is a structural elevation view of an embodiment of a scrubber device.

Fig. 9 is a schematic view of a solid collection mechanism of a scrubbing apparatus without a scrubbing roll mounted.

FIG. 10 is a schematic illustration of the priming structure in its axial direction.

Reference numerals:

the cleaning rod 1, the cleaning mechanism 2, the shell 3, the sealing liquid exchange area A, the pressure release chamber B, the first gap B1, the second gap B2, the air outlet 27, the shell upper cover 34, the fixing hole 31 and the installation guide groove 32

A first fixing member 22,

Gap 221, pressure relief hole 222, cambered surface 223,

A second fixing member 23,

A third interference portion 231, a third interference portion outer side 2311, a third interference portion inner side 2312, a collapse section 232, a water pocket protrusion 234, a fine particle garbage collection space G,

An interference unit 20,

A first interference part 200, a fixing part 201, a sealing part 202, a rib 203, a housing upper cover clamping groove 205, a mounting part 207, a pressure relief cavity 220,

A water diversion structure 21,

Extension 210, water diversion portion 211, second interference portion 2111, guide bar 212, inclined surface 2121, protrusion 2122, water storage portion 214, straight portion 216,

The achievement of the object, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings in conjunction with the embodiments.

Detailed Description

The claims hereof are to be read in further detail with reference to specific embodiments and to the accompanying drawings, in which the embodiments described are only some, but not all embodiments of the utility model. Based on the embodiments of the present utility model, one of ordinary skill in the art would be able to devise all other embodiments that are obtained without inventive effort and that are within the scope of the present utility model.

It should be understood that, in the embodiments of the present utility model, all directional terms, such as "upper", "lower", "left", "right", "front", "rear", etc., are used for convenience in describing the present utility model only and are not intended to be limiting, since the directional terms, such as "upper", "lower", "left", "right", "front", "rear", etc., are based on the orientation, positional relationship shown in the drawings or the orientation or positional relationship in which the inventive product is conventionally put in use. Merely to explain the relative positional relationship, movement, etc. between the components shown in the drawings, the directional indication may be changed when the specific posture is changed.

Furthermore, ordinal words such as "first," "second," and the like in the description of the present utility model are used for distinguishing purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of technical features indicated. The features defining "first", "second" may be explicit or implicit and at least one of the features. In the description of the present utility model, the meaning of "plurality" means at least two, i.e., two or more, unless otherwise specifically defined; the meaning of "at least one" is one or more.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly, and may, for example, be defined as having a relatively fixed positional relationship between components, as having a physically fixed connection between components, as being detachably connected, or as a unitary structure; the connection can be mechanical connection or electric signal connection; can be directly connected or indirectly connected through intermediate media or components; the communication between two elements or the interaction relationship between two elements is not limited by the specification, and the specific meaning of the terms in the present utility model will be understood by those skilled in the art according to the specific circumstances except that the corresponding function or effect cannot be achieved when other understanding is made.

The utility model, if related to a controller, a control circuit is a control technology or a unit conventional to a person skilled in the art, and the control circuit of the controller can be implemented by a person skilled in the art by adopting existing, such as simple programming. The software or program for realizing the control result in cooperation with the hardware is used as the conventional technology of the prior art or the person skilled in the art if the description does not show the control process of the related software or program in detail. The power supply also adopts the prior art in the field, and the main technical point of the utility model is to improve the mechanical device, so the utility model does not describe specific circuit control relation and circuit connection in detail.

The disclosure of the present utility model provides many different embodiments or examples for implementing different structures of the utility model. In order to simplify the present disclosure, components and arrangements of specific examples are described herein. They are, of course, merely examples and are not intended to limit the utility model. Furthermore, the present utility model may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present utility model provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

As shown in fig. 1-10, the present utility model provides an embodiment of a solids collection mechanism for a scrubber device.

As shown in fig. 1 and 2, the solid collecting mechanism of the scrubbing vehicle comprises a scrubbing head and a handle (not shown in the drawing) connected with the scrubbing head, wherein the scrubbing head comprises a shell 3, a scrubbing rod 1 and a cleaning mechanism 2 which are arranged on the shell 3, and the scrubbing roller 1 realizes continuous scrubbing by continuously rolling on the surface of a vehicle; the cleaning mechanism 2 continuously cleans the surface of the part of the scrubbing roller after scrubbing the surface of the vehicle and maintains the surface humidity of the scrubbing roller, and the cleaning mechanism 2 comprises a sealing liquid exchange area A. The surface of the scrubbing roller 1 is provided with a water absorbing layer capable of absorbing water, and in the embodiment, the water absorbing layer adopts sponge. The scrubbing roller 1 is directly driven by a motor, or can be driven by a motor or the like through a transmission mechanism, and continuous scrubbing is realized by rolling the scrubbing roller on the surface of a vehicle. The cleaning mechanism 2 continuously cleans a part of the surface of the scrub roller 1 after the surface of the vehicle is scrubbed and maintains the surface humidity of the scrub roller, and comprises a cleaning assembly including an interference structure 20 forming a sealed liquid exchange area A on the part of the surface of the scrub roller 1 and extruding liquid on the scrub roller 1 to the sealed liquid exchange area A.

The cleaning mechanism 2 may be an integral structure, and although the cleaning mechanism 2 is implemented by matching multiple parts in the following embodiments, the serial numbers and names of parts involved in the following description are consistent with those of the present embodiment, or those skilled in the art make simple modifications and extensions on the basis of the following text description and the accompanying drawings, which are all within the scope of the technical solutions disclosed in the present embodiment.

As a further improved embodiment, the cleaning mechanism 2 can also be implemented by adopting a plurality of parts in a matched manner, wherein the processing and manufacturing difficulty of the cleaning mechanism can be reduced when a plurality of separated parts are implemented in a matched manner.

The present embodiment will be described taking the cleaning mechanism 2 as an example of a separate component structure.

As shown in fig. 2, 4 and 5, the interference structure 20 includes a first interference portion 200 that forms an extrusion with the surface of the scrubbing roller 1, where the first interference portion 200 is provided with a fixing portion 201 and a sealing portion 202 along two sides of the surface of the scrubbing roller 1 in the circumferential direction, the sealing portion 202 extends outwards to form a mounting portion 207 with a flat mounting surface for fixing the water diversion structure 21, the sealing portion 202 cooperates with the water diversion structure 21 to form a sealed liquid exchange area a on the surface of the scrubbing roller 1, and the fixing portion 201 can be fixed with the housing 3. The water diversion structure 21 can be connected with the sealing part 202 to form water sealing contact with the surface of the scrubbing roller 1.

As shown in fig. 3, 4 and 5, the water diversion structure 21 includes a water diversion portion 211 contacting the surface of the scrubbing roller 1, a water storage portion 214 connected to the water diversion portion 211, a guide bar 212 for interfering the two end surfaces of the scrubbing roller 1, and an extension portion 210 having a first gap B1 between the water diversion portion 211 and the surface of the scrubbing roller 1, a second interference portion 2111 forming watertight contact with the surface of the scrubbing roller 1 is provided at the circumferential end of the water diversion portion 211, and guide bars 212 for interfering the two end surfaces of the scrubbing roller 1 are provided at the two ends of the water diversion portion 211 in the length direction, that is, the guide bar 212 is in partial contact with the surface of the scrubbing roller 1. The inside of the guide bar 212 is provided with a bevel 2121, and the bevel 2121 has an arc-shaped structure, and the arc-shaped structure of the bevel 2121 can keep the contact pressure of each part of the bevel when the bevel contacts with the surface of the scrub roller 1 substantially the same. The guide bar 212 extends in the direction of the sealing liquid exchange area a, and the protrusions 2122 form a sealing liquid exchange area a with the first interference portion 200, the second interference portion 2111, the water storage portion 214, and the sealing portion 202 around the surface of the scrub roller 1 at both sides of the sealing liquid exchange area a. The water storage part 214, the water diversion part 211, the guide strip 212 and the sealing part 202 are matched with the surface of the scrubbing rod 1 to form a sealed liquid exchange area A. The extension portion 210 and the water diversion portion 211 are respectively located at two sides of the water storage portion 214. The water storage part 214 is fixed with the sealing part 202 in a waterproof connection.

As shown in fig. 2, 3 and 4, the cleaning mechanism 2 further includes a first fixing member 22 and a second fixing member 23 that cooperate with the sealing portion 202 to fix the water diversion structure 21, where the first fixing member 22 needs to be fixed by the second fixing member 23, one side surface of the first fixing member 22, which is close to the scrubbing roller 1, is provided with an arc structure, and a second gap B2 that is communicated with the first gap B1 is provided between the arc structure and the surface of the scrubbing roller 1, and the first gap B1 and the second gap B2 form a pressure release chamber B, and because the first gap B1 and the second gap B2 form a large-area projection on the surface of the scrubbing roller 1, when pressure needs to be released, the pressure release air outlet 27 and the pressure release chamber B are communicated by a solenoid valve (not labeled in the drawing), so that the pressure can be absorbed by the scrubbing roller 1 faster, thereby avoiding phenomena such as bubbles when the pressure is released to the scrubbing roller 1.

According to the need, the pressure release chamber B is a semi-sealed structure, and the pressure release chamber further includes a third interference portion 231 which is parallel to the axial direction of the scrubbing roller 1 and forms a semi-seal in the circumferential direction of the scrubbing roller, and is disposed on the surface of the scrubbing roller 1 close to the vehicle surface. The third interference portion may be a separate removable part or may be a part of a certain part. The pressure relief cavity B is called as a "semi-sealing structure", mainly because the third interference portion forms a semi-seal with the circumferential direction of the scrub roller only in the length direction of the third interference portion, a gap (not labeled in the drawing) is left between two ends of the third interference portion in the length direction and the scrub roller 1, and a pressure relief channel is left at the two ends of the pressure relief cavity B near the scrub roller 1 in the paragraphs and fig. 7 and 10 of the specification describing the pressure relief channel specifically later, so the pressure relief cavity B is a semi-sealing structure.

As a further improved embodiment, as shown in fig. 2, 3, 4 and 5, the cleaning mechanism further includes a third interference portion 231 of the second fixing member 23 interfering with the surface of the scrub roller 1, and the third interference portion 231 may have a strip-like structure, such as an interference strip. The third interference portion 231 may be provided on the first fixing member 22 or may be provided on another member. If the first fixing member 22 needs to be fixed by the second fixing member 23, the third interference portion 231 may be disposed on the second fixing member 23, where the third interference portion 231 is disposed near the surface of the vehicle and is parallel to the axial direction of the scrubbing roller shaft 1, and the third interference portion 231, the water diversion portion 211, the second interference portion 2111 and the guide bar 212 form a closed pressure release chamber B, so as to avoid occurrence of bubbles on the surface of the scrubbing roller 1 when the release pressure is high.

As shown in fig. 5, the third interference part 231 includes a third interference part outer side 2311 located at the outer side as seen in the direction of the scrubbing rod 1 rotating in the clockwise direction and a third interference part inner side 2312 located at the inner side as seen in the direction of the scrubbing rod 1 rotating in the clockwise direction, and at the same time, since the third interference part 231 is located closest to the vehicle surface, when the particulate garbage exists, it can be separated from the scrubbing rod 1 surface by the action of the third interference part outer side 2311 and form a gather at the third interference part inner side 2312. When the third interference part 231 is positioned on the second fixing member 23, it can be conveniently detached, thereby facilitating cleaning.

As a further improved embodiment, the third interference part 231 may be provided on other parts, if necessary, so that it can be easily removed, thereby facilitating cleaning.

As a further improved embodiment, as shown in fig. 7 and 9, the second fixing member 23 continues to extend in the longitudinal direction at both ends of the third interference portion 231 and simultaneously extends radially upwards along the outer surface of the scrubbing rod 1 to form an a-shaped water pocket protrusion 234, and the second fixing member 23 continues to extend at both ends at the water pocket protrusion 234 while the interference with the outer surface of the scrubbing rod 1 gradually decreases to zero until a gap is left between the two to form a collapse section 232. The second fixing member 23 is slightly interference-fitted with the outer surface of the scrubbing roll 1 at the third interference portion 231 and the two water protrusions 234, and a collecting space G is formed at the lower portion of the second gap B2. Further, the collection space includes a fine particle waste collection space. On the other hand, the third interference portion outside 2311 outside the third interference portion 231 is located closest to the vehicle surface, and when the particulate garbage is present, the particulate garbage can be separated from the surface of the scrubbing roll 1 by the action of the third interference portion outside 2311, and after the particulate garbage is adhered to the highest point of the third interference portion 231 by the viscosity of the water-absorbing layer 11 on the surface of the wetted scrubbing roll 1, the particulate garbage forms a deposit on the concave side 2312 of the third interference portion by the impact of the discharged air discharged through the air outlet 27, accompanied by the re-wetting of the water-absorbing layer 11 by the sewage squeezed out through the first interference portion 200. When the third interference part 231 is positioned on the second fixing member 23, it can be conveniently detached, thereby facilitating cleaning of the particulate waste deposited in the fine particulate waste collection space G. On the other hand, when the fine particle garbage collection space G is filled with the particle garbage or sewage, the collapse section 232 of the second fixing member 23 and the surface water-absorbing layer 11 of the scrubbing rod 1 leave a gap to form a first exhaust gap D1 and a second exhaust gap D2, and the discharged air is discharged from the first exhaust gap D1 and the second exhaust gap D2 to the outside of the vehicle cleaning device after encountering the obstruction of the fine particle garbage collection space G, thereby realizing the discharge of the accumulated pressure inside the vehicle cleaning device.

The solid collecting mechanism for the scrubbing vehicle device comprises an interference strip 231 which is parallel to the axial direction of the scrubbing roller and is arranged on the surface, close to the vehicle, of the scrubbing roller 1, and a fine particle garbage collecting space G is formed between one side of the interference strip on the surface of the remote vehicle and the surface of the scrubbing roller.

When the cleaning roller is used, the surface of the cleaning roller is extruded by the interference strip when the fine solid particles leave the surface of the vehicle, so that the surface of the cleaning roller is suddenly changed, the rear side of the interference strip is quickly recovered under the elastic action of the cleaning roller, the fine solid particles attached to the surface of the cleaning roller leave the surface of the cleaning roller, and a fine particle garbage collection space G exists on one side of the interference strip away from the surface of the cleaning roller, so that the fine solid particles can be gathered and concentrated, and scratches generated on the surface of the vehicle after the fine solid particles are attached to the surface of the cleaning roller are avoided.

Meanwhile, since the third interference part 231 is located closest to the surface of the vehicle, when the particle garbage exists, the particle garbage can be separated from the surface of the scrubbing roller 1 through the action of the third interference part 231, and can not enter the fine particle garbage collection space G because of aggregation formed at the outer side 2311 of the third interference part, and only after the particle garbage is adhered to the highest point of the third interference part 231 under the action of the viscosity of the water absorption layer 11 on the surface of the immersed scrubbing roller 1, a small amount of fine particle garbage can be deposited in the collection space G, and the fine particle garbage blocked outside the collection space G and deposited on the collection space G can not scrape the surface of the vehicle body again along with the rotation of the scrubbing roller 1, so that the surface paint of the vehicle to be cleaned can be protected. When the third interference part 231 is positioned on the second fixing member 23, it can be conveniently detached, thereby facilitating cleaning.

As a further improved embodiment, as shown in fig. 2 and 5, the sealing portion 202 forms a groove (not shown in the drawings) between the fixing portion 201 and the opposite side away from the first interference portion 200, and the groove is a V-shaped groove in a cross section along a vertical direction of the length. In order to improve strength and stability of the sealing portion 202, a rib 203 is provided between the sealing portion 202 and the fixing portion 201 on the opposite side from the first interference portion 200, and each rib 203 is provided in a flat shape when a plurality of ribs 203 are provided.

As shown in fig. 8, in conjunction with fig. 2, in order to keep the sealed liquid exchange area a continuously exchanged during operation, the sealed liquid exchange area a may be provided with a clean water inlet port A1 communicating with the outlet pipe outlet 41 and a sewage outlet port A2 communicating with the return water inlet 51, wherein the clean water inlet port may be communicated with a cleaning liquid container (not shown in the drawing) through a water pump (not shown in the drawing), the sewage outlet port may also be communicated with a sewage container (not shown in the drawing) through the water pump, and a conversion device (not shown in the drawing) may be provided between the sewage container and the cleaning liquid container, for example, sewage is converted into cleaning liquid, so that a vehicle can be continuously cleaned for a long time. The cleaning liquid can comprise clean water or a mixed liquid of clean water and cleaning liquid, and can also be cleaning liquid only. The cleaning liquid input port and the sewage output port are respectively positioned at two ends of the sealed liquid exchange area.

After passing through the two checkpoints of the outer side 2311 of the third interference part and the fine particle garbage collecting space G, the very small amount of fine particle garbage is adhered to enter the sealed liquid exchange area A under the action of the viscosity of the water absorbing layer 11 on the surface of the wet scrubbing rod 1, and is taken away along with water flow under the action of water flow, and does not scrape the surface of the vehicle body again along with the surface rotation of the scrubbing rod 1, so that the surface paint of the vehicle to be cleaned is protected.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may be modified or some technical features may be replaced with other technical solutions, which may not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (12)

1. A solid collecting mechanism for a scrubbing apparatus, comprising an interference bar axially parallel to the scrubbing roller disposed adjacent the surface of the scrubbing roller and forming a collecting space between one side of the interference bar at a remote vehicle surface and the surface of the scrubbing roller.

2. The solid collecting mechanism for a scrubber device as claimed in claim 1, wherein both ends of the interference bar are provided with water-pocket protrusions for depositing particulate garbage.

3. The solid collecting mechanism for a scrubbing apparatus as defined in claim 2, wherein two ends of the interference bar are provided with collapse sections for releasing gas pressure, and the water pocket protrusions are located at the junctions of the collapse sections and the interference sections, and extend away from the inside of the scrubbing rod end and away from the vehicle surface.

4. The solids collection mechanism for a vehicle scrubbing apparatus of claim 1, further comprising a cleaning assembly forming a sealed liquid exchange area on the surface of the scrubbing roll, the cleaning assembly continuously cleaning the surface of the portion of the scrubbing roll after scrubbing of the vehicle surface and maintaining the surface humidity of the scrubbing roll.

5. The solid collecting mechanism for a scrubber device as recited in claim 4, wherein the cleaning assembly comprises a first interference portion which forms a squeeze with the surface of the scrubber stick, the first interference portion being provided with a fixing portion along both sides of the surface of the scrubber stick in the circumferential direction, and a sealing portion which forms a sealing liquid exchanging area on the surface of the scrubber stick, and a groove being provided between the sealing portion and the fixing portion on the side opposite from the first interference portion.

6. The solids collection mechanism for a scrubber device as recited in claim 5, wherein a retaining plate is provided between the sealing portion and the retaining portion on the opposite side from the first interference portion.

7. The solids collection mechanism for a scrubber device as recited in claim 6, wherein the plurality of mounting plates are each configured in a flat configuration.

8. The solids collection mechanism for a scrubber device as recited in claim 4, wherein the cleaning assembly further comprises a water diverting structure coupled to the seal in water tight contact with the surface of the scrubber stick.

9. The solids collection mechanism for a scrubber device of claim 8 wherein the water diverting structure comprises a water diverting portion in contact with the surface of the scrubber stick and a water storage portion connected to the water diverting portion.

10. A solids collection mechanism for a scrubber device as claimed in claim 9 wherein the water diversion portion extends into the sealed liquid exchange zone, the portion of the water diversion portion adjacent the sealed liquid exchange zone being in contact with the surface of the scrubber stick and a gap being provided between the portion of the water diversion portion remote from the sealed liquid exchange zone and the surface of the scrubber stick.

11. The solids collection mechanism for a scrubber device as recited in claim 4, wherein the sealed liquid exchange zone is provided with a clean water input and a sewage output, respectively.

12. The solids collection mechanism for a scrubber device as recited in claim 4, wherein the sealed liquid exchange zone is circular in cross-section along a length and perpendicular.

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