JP3809128B2 - Wheel washing machine and wheel washing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wheel washer for removing dirt on wheels of vehicles such as wheelchairs, trolleys, and distribution vehicles.
[0002]
[Prior art]
It is desirable that wheelchairs used in hospitals and facilities be clean. Therefore, in order to remove dust and dirt on the wheel of a wheelchair, a wheel washer has been studied. As wheelchair wheel washer, a dry washer (for example, JP-A-8-208879) in which the wheelchair wheel is in sliding contact with a wheel cleaning roller, or a part of the wheel is immersed in water for washing. A wet type cleaning machine (for example, JP-A-9-108266) is known.
[0003]
In addition to wheelchairs, wheel washers can be used to remove dirt from wheels such as trolleys and various trolleys for use in places that require clean conditions such as laying rooms and clean rooms. Use and removal are also being considered.
[0004]
[Problems to be solved by the invention]
The wheel washing machine as described above is required to remove not only the dirt adhering to the ground contact surface of the wheel, but also the dirt adhering to the side surface of the wheel, for the hygiene in hospitals and facilities. In order to improve work efficiency, it is desired to reduce the time required for cleaning the wheels.
[0005]
However, in the case of a dry-type cleaning machine, the ground contact surface of the wheel is mainly cleaned, and the level is not sufficiently satisfied with respect to the dirt on the side surface of the wheel 9, and the dust adhering to the wheel is removed. It is inevitable that it will splash around. Moreover, in the case of a wet type washing machine, washing with water is the main, and washing takes a considerable time. In addition, in a vehicle such as a wheelchair, the width of the wheel and the interval between the rear wheel and the front wheel (auxiliary wheel) may not be unified with a certain length, and are different for each type of vehicle. Therefore, there is a need for a washing machine that can wash four wheels according to the distance between the wheels of each vehicle.
[0006]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a wheel washer having improved cleaning ability.
[0007]
[Means for Solving the Problems]
  In the wheel washer according to claim 1 of the present invention, the wheel 9 of the vehicle 108 can be placed on the upper surface, can be rotationally driven so that the upper surface moves in the front-rear direction, and at least the outer surface is water-absorbing. The endless belt 3 formed of the material and the wheel 9 of the vehicle 108 placed on the endless belt 3 are surrounded from the front or the rear.In the arranged stateA cleaning unit 2 for spraying steam toward the wheels 9;Detecting means for detecting whether or not the cleaning unit 2 is at a predetermined position with respect to the wheel 9, and based on a detection result by the detecting means, the cleaning unit 2 is moved from the predetermined standby position in the front-rear direction and the left-right direction. A drive unit that moves to a position that surrounds the wheel 9 of the vehicle 108;It is characterized by comprising.
[0008]
The invention of claim 2 comprises the cleaning machine main body 1 having the endless belt 3 and the control unit 69 having a steam generator for generating steam to be supplied to the cleaning unit 2 according to claim 1. The machine main body 1 and the control unit 69 having a steam generator are formed so as to be separable.
[0009]
  The invention of claim 3 is the invention according to claim 1 or 2,As the detecting means, a pressure sensor for detecting whether or not predetermined positions of the cleaning unit 2 and the wheel 9 are in contact with each other is provided.
[0010]
  The invention of claim 4 is the invention according to claim 3,In the state where the cleaning unit 2 is disposed so as to surround the wheel 9 from the front or the rear, the contact piece 5 that contacts the side surface of the wheel 9 and the outer surface of the wheel 9 in the above state are contacted. A pressure sensor that detects whether or not the contact piece 5 is in contact with the side surface of the wheel 9, and whether or not the roller 7 is in contact with the outer peripheral surface of the wheel 9. And a pressure sensor for detecting this.
[0011]
  The invention of claim 53. The apparatus according to claim 1, further comprising a motor as a driving source for the moving means, and a torque sensor for detecting a torque of the rotating shaft of the motor as the detecting means.
[0012]
  The invention of claim 6 is the invention of claim 5,In the state where the cleaning unit 2 is disposed so as to surround the wheel 9 from the front or the rear, the contact piece 5 that contacts the side surface of the wheel 9 and the outer surface of the wheel 9 in the above state are contacted. The roller 7 which contacts is provided.
[0013]
  The invention of claim 7In claim 4 or 6, as a driving source of the moving means, the cleaning unit 2 is moved in the left-right direction from the standby position until the detection means detects that the contact piece 5 of the cleaning unit 2 is in contact with the side surface of the wheel. After the sliding movement, there is provided a mechanism for sliding the cleaning unit 2 back and forth until it is detected by the detecting means that the roller 7 of the cleaning unit 2 is in contact with the outer peripheral surface of the wheel 9. It is what.
[0014]
According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the cleaning unit 2 is provided with the brush 4 that is in sliding contact with the surface of the wheel 9 when the cleaning unit 2 surrounds the wheel 9. It is characterized by comprising.
[0015]
The invention of claim 9 is characterized in that, in claim 8, the cleaning unit 2 is provided with a brush 4 slidably contacting the outer peripheral surface of the wheel 9 when the cleaning unit 2 surrounds the wheel 9. It is what.
[0016]
According to a tenth aspect of the present invention, in the eighth or ninth aspect, the cleaning unit 2 is provided with a brush 4 that slidably contacts a side surface of the wheel 9 when the cleaning unit 2 surrounds the wheel 9. It is a feature.
[0017]
Further, the invention of claim 11 is that, in claim 8, the tip of the bristles is substantially the same as the brush 4 slidably contacting the surface of the wheel 9 when the cleaning unit 2 is in a state of surrounding the wheel 9. It is characterized by providing a U-shaped arrangement.
[0018]
A twelfth aspect of the present invention provides the cleaning unit 2 according to any one of the eighth to eleventh aspects, wherein the brush 4 is slidably contacted with the surface of the wheel 9 when the cleaning unit 2 surrounds the wheel 9. This is characterized in that a hair brush is planted on the outer periphery of the wheel 9, and a rotating brush that rotates in a state of sliding in contact with the wheel 9 is provided.
[0019]
According to a thirteenth aspect of the present invention, in any one of the eighth to twelfth aspects, the brush 4 slidably contacting the surface of the wheel 9 when the cleaning unit 2 surrounds the wheel 9 is attached to and detached from the cleaning unit 2. It is characterized by being formed freely.
[0020]
The invention of claim 14 is characterized in that, in any one of claims 1 to 13, the endless belt 3 has a structure that sinks along the shape of the wheel 9 with the wheel 9 placed on the upper surface thereof. It is what.
[0021]
Further, the invention of claim 15 comprises the plurality of parallel support rollers 51 for supporting the endless belt 3 in claim 14, and the roller group 81 comprising at least a part of the support rollers 51 is connected to the endless belt 3. It is formed so as to be movable up and down along the shape of the wheel 9 placed thereon.
[0022]
According to a sixteenth aspect of the present invention, in any one of the first to fifteenth aspects, bristles made of a water-absorbing material are raised on the outer surface of the endless belt 3, and the bristles are unidirectionally arranged on the upper surface of the endless belt 3. It is characterized by being inclined toward the surface.
[0023]
The invention of claim 17 is characterized in that in any one of claims 1 to 16, a brush 83 is partially formed on the outer surface of the endless belt 3.
[0024]
The invention according to claim 18 is the invention according to any one of claims 1 to 17, wherein the plurality of parallel support rollers 51 that support the endless belt 3 are arranged substantially horizontally, and one end side is bounced upward. It is characterized by being formed so as to be rotatable between the two.
[0025]
According to a nineteenth aspect of the present invention, in any one of the first to eighteenth aspects, the support roller 51 (51a, 51b) that supports the end portion in the front-rear direction of the endless belt 3 is made to loosen the tension applied to the endless belt 3. It is formed so as to be movable.
[0026]
A twentieth aspect of the invention is characterized in that, in any one of the first to nineteenth aspects, a tray 100 is provided below the endless belt 3.
[0027]
The invention of claim 21 is characterized in that in any one of claims 1 to 20, the brush 101 is slidably contacted with the endless belt 3 on the outer surface other than the upper surface of the endless belt 3.
[0028]
According to a twenty-second aspect of the present invention, in any one of the first to twenty-first aspects, the scraper 102 that is in sliding contact with the endless belt on the outer surface other than the upper surface of the endless belt 3 is provided.
[0029]
The invention of claim 23 is characterized in that in any one of claims 1 to 22, it comprises a clamping roller 103 for clamping the endless belt 3 from the outer surface side and the inner surface side at a place other than the upper surface of the endless belt 3. It is a feature.
[0030]
According to a twenty-fourth aspect of the present invention, in any one of the first to twenty-third aspects, an air ejector that ejects air to the outer surface of the endless belt 3 at a location other than the upper surface of the endless belt 3 is provided. Is.
[0031]
According to a twenty-fifth aspect of the present invention, in any one of the first to twenty-fourth aspects, the cover 105 covering the upper surface of the endless belt 3 is provided.
[0032]
According to a twenty-sixth aspect of the present invention, in any one of the first to twenty-fifth aspects, the cleaning machine main body 1 provided with the endless belt 3 is installed between the cleaning machine main body 1 and the floor surface. And a lifter 113 that moves up and down between the position of the floor and the position of the floor.
[0033]
A twenty-seventh aspect of the invention is characterized in that, in any one of the first to twenty-fifth aspects, the cleaning machine main body 1 including the endless belt 3 and the lifter 113 that drives the cleaning machine main body 1 up and down are provided. It is what.
[0034]
Further, the invention of claim 28 is the presence or absence of foreign matter at any place other than the mounting position of the wheel 9 during washing of the wheel on the washing machine body 1 provided with the endless belt 3 in any of claims 1 to 27. It comprises a sensor for detection.
[0035]
The invention of claim 29 is characterized in that in any one of claims 1 to 28, it is formed so as to be foldable.
[0036]
A thirty-third aspect of the present invention is the spray according to any one of the first to twenty-ninth aspects, wherein the cleaning unit 2 ejects steam from both sides of the wheel 9 in a direction inclined to the wheel side in a state of surrounding the wheel 9. An outlet 6 is provided.
[0037]
The invention of claim 31 is characterized in that, in any one of claims 1 to 30, a moving wheel is provided in the lower part.
[0038]
  A wheel cleaning method according to claim 32 of the present invention includes:With the cleaning unit 2 placed at a predetermined standby position,The wheel 9 of the vehicle 108 is placed on the upper surface of the endless belt 3 formed at least on the outer surface from a water-absorbing material, and the cleaning unit 2On the basis of the detection result by the detecting means for detecting whether or not the wheel 9 is at a predetermined position, the washing unit 2 is slid in the front-rear direction and the left-right direction from the standby position to move the wheel 9 forward or Move it from the back to the surrounding positionThe wheel 9 is washed by rotating the endless belt 3 at a predetermined steady speed while suppressing the movement of the vehicle 108 and jetting steam from the washing unit 2 toward the wheel 9. It is.
[0039]
  A wheel cleaning method according to claim 33 of the present invention includes:With the cleaning unit 2 placed at a predetermined standby position,At least the outer surface of the endless belt 3 formed of a water-absorbing material is placed on the upper surface of the endless belt 3 and the endless belt 3 is rotated at a low speed.On the basis of the detection result by the detecting means for detecting whether or not the wheel 9 is at a predetermined position, the washing unit 2 is slid in the front-rear direction and the left-right direction from the standby position to move the wheel 9 forward or Move it from the back to the surrounding positionThe wheel 9 is washed by rotating the endless belt 3 at a predetermined steady speed while suppressing the movement of the vehicle 108 and jetting steam from the washing unit 2 toward the wheel 9. It is.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings. In the following embodiment, a wheel washer for washing the wheels 9 of a four-wheel vehicle 108 having two wheels 9 on the front and rear sides is taken as an example. Further, in this specification, when the vehicle 108 is introduced into the wheel washer, the traveling direction of the vehicle 108 is the front direction, the opposite direction is the rear direction, and the left and right sides of the wheelchair 108a introduced into the wheel washer are the left and right directions. As shown.
[0041]
As shown in FIGS. 1 and 2, the wheel washer is disposed on the front and rear of the washing table (washing machine main body 1) on which the vehicle 108 is placed and set. The slope part 11 which an upper surface climbs and inclines toward the washing machine main body 1 is provided.
[0042]
The cleaning machine main body 1 is provided with unit drive units 63 at the front end and the rear end, and between each unit drive unit 63, a conveyor unit 64 and a conveyor drive unit 65 are provided. (See FIG. 3). The conveyor unit 64 is provided on each of the left and right sides, and a conveyor driving unit 65 is disposed between the conveyor units 64.
[0043]
The washing machine main body 1 is formed with a passage 13 in the front-rear direction through which the left and right wheels 9 (not shown in FIG. 1) of the vehicle 108 pass on the left side and the right side. The endless belt 3 that is freely rotatable is arranged in parallel. The endless belt 3 is disposed in each conveyor section 64, and supports the wheels 9 of the vehicle 108 introduced into the washing machine body 1 on the endless belt 3.
[0044]
Here, each conveyor section 64 is provided with a belt support 67 configured by hanging a plurality of support rollers 51 between a pair of parallel support frames 66 long in the front-rear direction. The belt support 67 is attached. At this time, the endless belt 3 is disposed in the front-rear direction on the upper surface side and the lower surface side, and the upper surface side constitutes a central portion excluding the front end portion and the rear end portion of the passage 13 and is folded at both ends in the front-rear direction. Are arranged in a loop. The endless belt 3 can be rotationally driven or stopped by driving at least one support roller 51 by a driving device such as a motor 68 disposed in the conveyor driving unit 65.
[0045]
The washing machine body 1 is provided with a standby box 12 and a center cover 26 so as to separate the passages 13 between the left and right passages 13. The standby boxes 12 are provided at the front and rear, respectively, and a central cover 26 is provided between the two standby boxes 12. In the standby box 12, the cleaning unit 2 in a standby state is accommodated as will be described later. At this time, each standby box 12 is provided so as to cover a region extending from the central portion in the left-right direction of the unit driving portion 63 to one end portion of the conveyor driving portion 65, and the central cover 26 is on the conveyor driving portion 65. It is provided so as to cover a portion sandwiched between the standby boxes 12. The center cover 26 may be formed in a concave shape so that the upper surface thereof is located below the upper surface of the standby box 12 as shown in the figure. Alternatively, it may be formed in a flat plate shape.
[0046]
Further, the wheel washer is provided with a passage cover 22 at the front end portion and the rear end portion of the passage 13 before and after the endless belt 3 of the washing machine body 1, and each passage 13 is endless with the upper surface of the passage cover 22. The upper surface of the belt 13 is formed substantially flush. The passage cover 22 is provided so as to cover both the left and right sides of the portion of the unit driving unit 63 covered with the standby box 12. A drive unit (drive unit) composed of various belts and various motors used for driving the cleaning unit 2 is accommodated in the lower side of the passage cover 22 and in the unit drive unit 63 of the cleaning machine body 1. ing.
[0047]
Further, the wheel washer includes a control unit 69 on one side (right side in the drawing) of the washer body 1. The control unit 69 hooks the first storage box (control unit 14) that stores electrical components and the like, the second box (steam generation unit 15) that stores the steam generator, and the hand switch 16 when not in use. The holding frame 17 is provided.
[0048]
The control unit 14 is directly connected to one side of the cleaning machine main body 1, and its upper surface protrudes above the upper surface of the passage 13. The control unit 14 houses various electric parts such as a timer and a relay for controlling the driving of the wheel washer, has a main power switch 70 on the outer surface, and an external power source via an electric wiring 19. Connected. The hand switch 16 is connected to the control unit 14 via the electric wiring 18 and includes a start button and a stop button for driving the wheel washer, and an operator who performs wheel cleaning of the vehicle 108. (A person on the wheelchair 108a or a caregiver thereof) can be operated at hand.
[0049]
The steam generation unit 15 is disposed on the upper surface of the control unit 14 and incorporates a steam generator. The steam generator supplies the generated steam to the cleaning unit 2 described later. The steam generation unit 15 includes an indicator 20 on the upper surface that warns the steam generator that the water amount is insufficient and displays whether the steam temperature has reached an appropriate temperature. Reference numeral 21 denotes a lid of a water inlet that supplies water to the steam generator.
[0050]
An outer frame 23 that covers the side surface of the cleaning machine body 1 is provided on the other side of the cleaning machine body 1 opposite to the control unit 69 side. The outer frame 23 is formed so as to protrude above the passage 13, and a U-shaped guide frame 71 is provided above the outer frame 23 with both ends connected to the upper surface of the outer frame 23.
[0051]
And the said wheel washing machine is equipped with the washing | cleaning unit 2 which can surround the wheel 9 lower part for every wheel 9 of the vehicle 108 supported on the endless belt 3. FIG. In the illustrated example, four cleaning units 2 are provided because the four-wheel vehicle 108 is formed for cleaning the wheels. When washing the wheels 9, these washing units 2 surround the front wheels 9b from the front side of the vehicle and the rear wheels 9a from the rear side of the vehicle 108 so as to sandwich the lower portions of the wheels 9. As shown in FIG. 4, the cleaning unit 2 is located at the lower part of the wheel 9 (not shown in FIG. 4), and has an outer piece 31 disposed outside the outer surface of the wheel 9 and an inner surface of the wheel 9. It is provided with an inner piece 33 disposed on the inner side to face the outer piece 31 and a connecting piece 32 for connecting the base ends of the outer piece 31 and the inner piece 33, and is formed in a substantially U shape in plan view. The In the cleaning unit 2, a space 34 surrounded by the outer piece 31, the connecting piece 32, and the inner piece 33 is formed, and the lower portion of the wheel 9 is inserted into this space 34.
[0052]
In the space 34, the roller 7 is installed between the inner piece 33 and the outer piece 31. This roller 7 is provided on the side of the connecting piece 32 in the space 34 and is provided so as to be freely rotatable around a horizontal axis in the left-right direction. When the lower part of the wheel 9 is inserted into the space 34, the roller 7 When the outer peripheral surface of the wheel 9 abuts and the wheel 9 rotates in this state, it is configured to rotate accordingly.
[0053]
Further, the cleaning unit 2 has a connecting cover body 35. The connecting cover body 35 is formed from the side surface opposite to the space 34 of the inner piece 33 to the tip. At this time, the connecting cover body 35 is formed longer in the front-rear direction than the inner piece 33 and a notch-like recess is formed on one side of the base end side, and the inner piece 33 is formed on the inner surface of the recess. The outer side surface and the front end surface are formed so as to come into contact with each other, whereby the connection cover body 35 extends from the base end portion of the inner piece 33 to the front end portion on the surface opposite to the space 34 with respect to the inner piece 33. At the same time, the distal end portion of the connection cover body 35 is formed so as to protrude further toward the distal end side than the distal end of the inner piece 33. A screw shaft 36 is connected to the base end portion of the connection cover body 35. The screw shaft 36 is formed long in the front-rear direction, and one end thereof is screwed into and connected to a screw hole 72 formed in the base end portion of the connection cover body 35. Further, the connecting cover body 35 is provided with an abutment piece 5 projecting inwardly on an inner surface on the distal end side of the distal end of the inner piece 33, A plurality of balls 73 are loosely fitted so that some of them are exposed on the surface. When the contact piece 5 and the side surface of the wheel 9 are in contact with each other, the ball 73 rotates freely according to the rotation of the wheel 9.
[0054]
In addition, the steam pipe 8 is connected to the tip of the connection cover body 35. The steam pipe 8 is formed so that the steam generated by the steam generator in the steam generation unit 15 circulates, has flexibility, and can cope with the movement of the cleaning unit 2.
[0055]
The brush 4 is attached to the cleaning unit 2 such that the hair tips protrude toward the space 34 side. 4, the brush 4 is provided with a brush 4a attached to the outer piece 31 side and a brush 4b attached to the inner piece 33 side. Each brush 4a, 4b is provided with the outer piece 31. The base end is inserted into a lateral groove (not shown) that is located above the inner side surface of the inner piece 33 and opens to the space 34 side. Each brush 4a, 4b is formed so that the hair length becomes longer toward the connecting piece 32 side, and the hair tips are arranged in a substantially U shape along the shape of the outer surface of the wheel 9. The pair of brushes 4 a and 4 b are in sliding contact with the side surface of the wheel 9 inserted into the space 34 from both sides. Further, the cleaning unit 2 is formed with a recess 74 in contact with the tip of the inner piece 33 in a part of the upper surface on the tip side of the concave portion of the connecting cover body 35, so that the brush 4 a can be easily attached to the lateral groove of the inner piece 33. ing.
[0056]
When the brush 4 is arranged in a substantially U shape along the shape of the outer surface of the wheel 9 in this way, when the wheel 9 is washed, the brush 4 passes from one side surface of the wheel 9 to the outer peripheral surface (grounding surface). The surface can be slid so as to surround the side surface, and the dirt on this portion can be removed. That is, the dirt on the side surface of the wheel 9 where dirt easily adheres is scraped off along with the dirt on the outer peripheral surface (the ground contact surface) of the wheel 9 that is particularly dirty due to contact with the floor surface or the ground. Cleaning efficiency can be improved.
[0057]
5, the brush 4 includes a brush 4a attached to the outer piece 31 side, a brush 4b attached to the inner piece 33 side, and a brush 4c attached to the connecting piece 32 side. Each of the brushes 4a, 4b, 4c is located above the inner surface of each of the outer piece 31, the inner piece 33, and the connecting piece 32 on the space 34 side, and is formed in a lateral groove (not shown) opened on the space 34 side. The end is inserted and attached. The brushes 4a, 4b, and 4c are in sliding contact with one side surface, the other side surface, and the outer peripheral surface of the wheel 9 inserted into the space 34, respectively. In this case, dirt on the outer peripheral surface of the wheel 9 is removed by the brush 4c slidably in contact with the outer peripheral surface of the wheel 9, and dirt on both sides of the wheel 9 is removed by the brushes 4a and 4b slidably in contact with both side surfaces of the wheel 9, respectively. It is something that can be done. That is, the brush 4c is used to scrape off dirt on the outer peripheral surface (grounding surface) of the wheel 9 which is particularly dirty due to contact with the floor or the ground, and the dirt on the side surface of the wheel 9 where dirt is likely to adhere is brushed. The cleaning efficiency of the wheel 9 can be improved by scraping with 4a and 4b.
[0058]
FIG. 6 shows a specific example of a configuration in which the brush 4 is detachably formed. In the illustrated example, a lateral groove (fitting groove 75) that opens upward and inward on the space 34 side is provided in the outer piece 31, the inner piece 33, or the connecting piece 32 of the cleaning unit 2. On the other hand, the brush 4 is formed by protruding a plurality of hairs laterally from the side surface of the base body 76 having a shape that matches the fitting groove 75. Then, the base body 76 is fitted into the fitting groove 75 so that the brush 4 protrudes toward the space 34, and the fixing plate 77 is disposed so as to cover the upper surface of the base body 76, with a fixing tool 78 such as a screw. The brush 4 is attached to the cleaning unit 2 by fixing the fixing plate 77 and fixing the base body 76 to the outer piece 31, the inner piece 33 or the connecting piece 32. At this time, the base body 76 on which the brush 4 is provided is prevented from being detached upward by the fixing plate 77, and the base member 76 protrudes upward provided at the space 34 side edge at the bottom of the fitting groove 75. The base 76 is locked by the stop rib 79, and the detachment of the base 76 toward the space 34 is suppressed.
[0059]
When the brush 4 is replaced, the fixing plate 78 and the outer piece 31, the inner piece 33, or the connecting piece 32 are removed from the fixing plate 78, the fixing plate 77 and the base body 76 are detached, and the brush 4 is provided. A new base 76 is attached to the outer piece 31, the inner piece 33 or the connecting piece 32 in the same manner as described above.
[0060]
Further, as the brush 4, a rotating brush 4 d in which hair is planted on the outer surface of a roller to be rotationally driven can be provided. In the example shown in FIG. 7, the rotating brush 4 d is provided between the inner piece 33 and the outer piece 31 in the space 34. The rotating brush 4d is provided on the side of the connecting piece 32 in the space 34, and is provided so as to be freely rotatable around a horizontal axis in the left-right direction. When the lower part of the wheel 9 is inserted into the space 34, the rotating brush 4d is provided. The outer peripheral surface of the wheel 9 is in sliding contact with 4d. In addition to the rotating brush 4d, the inner piece 33 and the outer piece 31 are attached with brushes 4 (4a, 4b) protruding toward the inside of the space 34. And when the wheel 9 rotates in this state, it forms so that the rotating brush 4d may be rotationally driven in the opposite direction, In this case, the removal power of the stain | pollution | contamination by the brush 4 can be improved.
[0061]
The cleaning unit 2 includes a spout 6 for injecting steam into the space 34 below the connecting piece 32. The jet nozzle 6 can jet steam toward the wheel 9 in a state where the cleaning unit 2 surrounds the wheel 9. The steam to be used is generated by the steam generator and supplied to the cleaning unit 2 through the steam pipe 8 extending from the gap between the central cover 26 of the cleaning machine body 1 and the passage 13. The steam is jetted from the jet outlet 6 through a pipe (not shown) in the connection cover body 35 or in the connection piece 32. Since the steam is ejected at 90 ° C. or higher and hits the surface of the wheel 9 at a temperature of about 70 to 80 ° C., it has an effect of sterilizing the wheel 9 simultaneously with the cleaning of the wheel 9.
[0062]
In the example shown in FIG. 5, one ejection port 6 is provided in each cleaning unit 2, and is formed in the middle in the left-right direction of the connecting piece 32, and the ejection port 6 is in a state where the cleaning unit 2 surrounds the wheel 9. It is provided so that the steam injected from the side is injected toward the outer surface of the wheel 9.
[0063]
In the example shown in FIG. 8, two jet outlets 6 are provided in each cleaning unit 2, and the jet outlets 6 are provided side by side on the lower side of the connecting piece 32. It is formed so as to open obliquely inward, and steam injected from the outlet 6 in a state where the cleaning unit 2 surrounds the wheel 9 extends over one side, the outer peripheral surface, and the other side of the wheel 9. It is provided to be injected.
[0064]
The wheel washer improves the cleaning ability by employing steam for cleaning. Since this wheel washer uses steam, it is possible to easily remove dirt and dirt adhered to sand and dust that are difficult to remove with hot water.
[0065]
The moving mechanism (drive unit) of the cleaning unit 2 will be described. The wheel washer includes a left and right motor 41 and a tension pulley 42 as shown in FIG. 9 in the unit drive unit 63 of the washer body 1 with a space in the left and right direction, and the left and right motor 41 is operated. The first belt 43 suspended between the left and right motor 41 and the tension pulley 42 rotates. The plate plate 44 connected to the first belt 43 is mounted on the slide rail 46 in the left-right direction so as to be slidable in the left-right direction along the slide rail 46. Is provided with a front / rear motor 45. The front / rear motor 45 is connected to a tension pulley 47 provided at the base end of the screw shaft 36 via a second belt 46. The plate plate 44 is connected to a storage plate 49 disposed on the upper surface of the cleaning machine main body 1. At this time, the plate plate 44 and the storage plate 49 are connected via a connecting piece 48. The storage plate 49 is provided with a slide rail 37 in the front-rear direction, and the cleaning unit 2 is connected to the slide rail 37 so as to be slidable in the front-rear direction along the slide rail 37.
[0066]
In the wheel washer, when the left / right motor 41 is operated, the first belt 43 is rotated, and the plate plate 44 connected to the first belt 43 is moved in the left / right direction along the slide rail 46. As the plate plate 44 moves, the storage plate 49 and the cleaning unit 2 move in the left-right direction and project from the standby box 12 into the passage 13. At this time, the storage plate 49 slides on the upper surface of the passage cover 22 of the cleaner body 1. When the front / rear motor 45 is operated, the second belt 46 is rotated, the screw shaft 36 is rotated, and the cleaning unit 2 is moved in the front / rear direction along the slide rail 37.
[0067]
The state of the movement of the cleaning unit when performing wheel cleaning of the vehicle 108 will be described with reference to FIGS. In these drawings, a region where the front wheel 9b of the vehicle 108 is in contact with the upper surface of the endless belt 3 is indicated by a region surrounded by a dotted line 80b, and a region where the rear wheel 9a is in contact with the upper surface of the endless belt 3 is indicated by a region 80a.
[0068]
Each cleaning unit 2 stands by in a state of being accommodated on the storage plate 49 at a predetermined position of the standby box 12 before the cleaning is started (see FIG. 10). Then, the cleaning start switch is turned on, and the left and right motor 41 is operated. The cleaning unit 2 starts moving from the standby box 12 toward the left or right side outward, protrudes from the standby box 12 toward the passage 13, and the contact piece 5 contacts the inner side surface of the wheel 9. In this state, the left / right motor 41 stops and the movement in the left / right direction stops (see FIG. 11). Next, when the front / rear motor 45 is operated, the cleaning unit 2 advances forward or rearward from the storage plate 49 as the screw shaft 36 rotates, and the lower part of the wheel 9 is moved into the space 34 of the cleaning unit 2. Insert (see FIGS. 12 and 13). In the cleaning unit 2, when the roller 7 hits the outer peripheral surface (grounding surface) of the wheel 9, the front / rear motor 45 stops and the cleaning unit 2 stops moving in the front-rear direction. In this way, the cleaning unit 2 moves to the positions of the left and right wheels 9 and the front and rear wheels 9 of the vehicle 108.
[0069]
At this time, the cleaning unit 2 into which the front wheel 9b is inserted is formed such that the inner piece 33 and the outer piece 31 protrude rearward from the connecting piece 32, and from the front of the front wheel 9b to the front wheel 9b side when moving back and forth. The cleaning unit 2 is arranged so as to move and surround the front and both sides of the front wheel 9b, and the cleaning unit 2 into which the rear wheel 9a is inserted has an inner piece 33 and an outer piece 31 forward from the connecting piece 32. It is formed so as to protrude, and is arranged so as to move from the rear of the rear wheel 9a to the rear wheel 9a side in the case of forward and backward movement so as to surround the rear and both sides of the rear wheel 9a.
[0070]
In the wheel washer, the front and rear motor 45 is operated to store the cleaning unit 2 in the storage plate 49 after the cleaning is completed, and then the left and right motor 41 is operated to store the cleaning unit 2 in the standby box 12. To do.
[0071]
The moving operation of the cleaning unit 2 as described above is performed automatically by providing detection means for detecting whether or not the cleaning unit 2 is in a predetermined arrangement state with respect to the wheel 9 and surrounds the wheel 9. Can be done automatically.
[0072]
An example of such a detecting means is a pressure sensor. When such a pressure sensor is provided, for example, a pressure sensor that detects the pressure applied to the inner surface of the contact piece 5 of the cleaning unit 2 and a pressure sensor that detects the pressure applied to the roller 7 of the cleaning unit may be provided. it can. At this time, a signal is transmitted from the pressure sensor that detects the pressure applied to the contact piece 5 of the cleaning unit 2 to the left and right motor 41, and when the pressure sensor detects a predetermined pressure, the left and right motor 41 is Try to stop. Further, a signal is transmitted from the pressure sensor for detecting the pressure applied to the roller 7 of the cleaning unit 2 to the front / rear motor 45, and the front / rear motor 45 is stopped when the roller 7 detects a predetermined pressure. .
[0073]
In this way, when the left / right motor 41 is driven to move the cleaning unit 2 in the left / right direction from the standby position, the contact piece 5 contacts the side surface of the wheel 9 as shown in FIG. When the position of 2 in the left-right direction reaches a predetermined position with respect to the wheel 9, the pressure sensor provided on the contact piece 5 detects the predetermined pressure, whereby the left-right motor 41 stops and the cleaning unit 2 When the lateral movement is stopped and the front / rear motor 45 is further driven to move the cleaning unit 2 in the front / rear direction, the roller 7 comes into contact with the outer peripheral surface of the wheel 9 as shown in FIG. When the position in the front-rear direction reaches a predetermined position with respect to the wheel 9, the front-rear motor 45 stops when the pressure sensor provided on the roller 7 detects the predetermined pressure, and the cleaning unit moves in the front-rear direction. Stops. Accordingly, the cleaning unit 2 can be automatically moved so that the wheel 9 is inserted into the space 34.
[0074]
Further, a torque sensor that detects the torque of the rotating shafts of the motors 41 and 45 that are the driving source of the moving means of the cleaning unit 2 can be provided as the detecting means. In the case of providing such a torque sensor, for example, a torque sensor for detecting whether or not the torque applied to the drive shaft of each motor 68 exceeds a predetermined value is provided in each of the left and right motors 41 and the front and rear motors 45. At this time, a signal is transmitted from the torque sensor that detects the torque applied to the drive shaft of the left and right motor 41 to the left and right motor 41, and when the torque sensor detects a predetermined torque, the left and right motor 41 is stopped. To do. Further, a signal is transmitted from the torque sensor for detecting the torque applied to the drive shaft of the front / rear motor 45 to the front / rear motor 45 so that the front / rear motor 45 stops when the torque sensor detects a predetermined torque. To do.
[0075]
In this way, when the left / right motor 41 is driven to move the cleaning unit 2 in the left / right direction from the standby position, the contact piece 5 contacts the side surface of the wheel 9 as shown in FIG. When the position of 2 in the left and right direction reaches a predetermined position with respect to the wheel 9, the torque applied to the drive shaft of the left and right motor 41 increases, and the torque sensor provided in the left and right motor 41 detects the predetermined torque. As a result, the left / right motor 41 stops and the movement of the cleaning unit 2 in the left / right direction stops. Further, when the front / rear motor 45 is driven to move the cleaning unit 2 in the front / rear direction, the roller 7 contacts the outer peripheral surface of the wheel 9 as shown in FIG. When the predetermined position is reached, the torque applied to the drive shaft of the front / rear motor 45 increases, and the front / rear motor 45 stops when the torque sensor provided in the front / rear motor 45 detects the predetermined torque. As a result, the forward / backward movement of the cleaning unit stops. Accordingly, the cleaning unit 2 can be automatically moved so that the wheel 9 is inserted into the space 34.
[0076]
In this way, the wheel washer has four washing units 2, senses the positions of the left and right wheels 9 of the wheelchair 108 a placed on the endless belt 3, and waits for each washing unit 2. It is possible to move from within each standby box 12 as a position to a position surrounding the lower portion of each wheel 9.
[0077]
Further, the wheel washer has a structure in which the endless belt 3 sinks along the shape of the wheel 9 when the vehicle 108 gets into the washer main body 1 and the wheel 9 is placed on the upper surface of the endless belt 3. Is preferred.
[0078]
For example, among a plurality of support rollers 51 constituting the belt support portion, a part of the roller group 81 corresponding to the arrangement position of the wheel 9 when the vehicle 108 is arranged in the cleaning machine body 1 is shown in FIG. It arrange | positions in arc shape (concave structure) so that the outer diameter shape of the wheel 9 may be followed by sectional view. At this time, a tension roller 52 for applying a predetermined tension by applying a biasing force to the endless belt 3 by a spring elastic force or the like is brought into contact with the outer surface on the lower surface side of the endless belt 3. In a state where the endless belt 3 is not disposed on the belt 3, the endless belt 3 is stretched without sinking at the formation position of the roller group 81 disposed in an arc shape by the tension applied to the endless belt 3 by the tension roller 52. Yes.
[0079]
In the wheel washer thus formed, when the vehicle 108 gets into the washer main body 1, as shown in FIG. 14 (a), the load from the wheel 9 is applied at the location where the roller group 81 is arranged in an arc shape. Thus, the endless belt 3 sinks until it abuts on the roller group 81, and thereby the wheel 9 sinks until it abuts on the roller group 81 via the endless belt 3. At this time, since the roller group 81 is arranged in a shape along the outer diameter shape of the wheel 9, the wheel 9 is stably disposed above the position where the roller group 81 is formed. For this reason, the dispersion | variation in the arrangement position of the wheel 9 on the washing machine main body 1 at the time of wheel washing | cleaning can be decreased, and the movement of the washing | cleaning unit 2 at the time of moving and aligning the washing | cleaning unit 2 with respect to the wheel 9 The variation in the subsequent arrangement position can be reduced, and the alignment of the cleaning unit 2 can be facilitated. In addition, the user who performs the wheel cleaning of the vehicle 108 using the wheel washer sets the position where the wheel 9 sinks on the endless belt 3 when the vehicle 108 is disposed on the cleaner main body 1. As a guideline, the progress of the vehicle 108 on the washing machine main body 1 can be stopped. Moreover, when moving the washing | cleaning unit 2 and inserting the wheel 9 in the washing | cleaning unit 2, it can suppress that the wheel 9 moves carelessly. Further, the contact area between the endless belt 3 and the wheel 9 during wheel cleaning is increased, and an increase in the cleaning efficiency of the wheel 9 can be expected.
[0080]
Here, the degree of the downward depression of the roller group 81 arranged in an arc shape with respect to the upper surface of the endless belt 3 is determined when the vehicle 108 on the cleaning machine body 1 is moved after the wheel 9 is cleaned. It is preferable to adjust the depth of the wheel 9 disposed in the upper recessed portion to such a depth that the wheel 9 can be easily moved from the recessed portion. The depth of the recess is preferably in the range of 10 to 15 mm.
[0081]
When the endless belt 3 is formed in a structure that sinks along the shape of the wheel 9 as described above, it is necessary to form all the wheels 9 provided in the vehicle 108 so as to sink into the endless belt 3. Instead, only specific wheels 9 may be sunk into the endless belt 3. For example, when the wheel washer is formed for washing the wheel of the wheelchair 108a, the rear wheel 9a having a larger diameter among the front wheel 9b and the rear wheel 9a of the wheelchair 108a is formed to sink into the endless belt 3. Can do.
[0082]
As another example of the case where the endless belt 3 is formed in a structure that sinks along the shape of the wheel 9, the vehicle 108 is arranged in the washing machine body 1 among the plurality of support rollers 51 constituting the belt support portion. In some cases, a part of the roller group 81 corresponding to the arrangement position of the wheel 9 is formed to be movable up and down along the outer diameter shape of the wheel 9 as shown in FIG. In this case, for example, each support roller 51 constituting the roller group 81 is formed so as to be able to be driven up and down by the cylinder 81 or the like, and by driving each support roller 51 up and down along the outer diameter shape of the wheel 9, It can arrange | position in an arc shape (concave structure) so that the outer diameter shape of the wheel 9 may be followed by sectional view. Further, each support roller 51 may be formed to be movable up and down, and a certain elastic biasing force directed upward may be applied to the support roller 51.
[0083]
In this way, when the wheels 9 are cleaned with respect to various vehicles 108 having different outer diameters of the wheels 9, the support rollers 51 constituting the roller group 81 are moved up and down in accordance with the outer diameter dimensions of the wheels 9, so that the rollers The group 81 can be arranged in an arc shape along the outer diameter shape of the wheel 9.
[0084]
Further, since the wheel washer is cleaned by spraying steam onto the wheels 9, the endless belt 3 is formed of at least an outer surface made of a water-absorbing material. For example, the endless belt 3 may be provided with a water absorbent mat formed from a water absorbent polyester fiber on the outer surface.
[0085]
The endless belt 3 is preferably formed so as to incline in one direction in the front-rear direction by planting bristles 82 made of water-absorbing fibers on the outer surface and raising the bristles 82. In this case, the direction of inclination of the bristles 82 is the direction along the traveling direction of the upper surface of the endless belt 3 during wheel cleaning, as shown in FIG. In this case, the water absorption efficiency when the outer surface of the endless belt 3 is in contact with the wheel 9 is improved, and the dirt removal efficiency of the wheel 9 is improved.
[0086]
Further, it is preferable that a brush 83 is partially implanted on the outer surface of the endless belt 3 separately from a portion formed of a water-absorbing material. The brush 83 has a main function of scraping off dirt from the wheels 9, and is made of a material different from the water-absorbing material on the outer surface of the endless belt 3. For example, it can be formed from a hard material instead of poor water absorption such as nylon. FIG. 17 shows an example in which a brush is implanted on the outer surface of the endless belt 3. A brush 83 is formed by implanting a hair made of nylon or the like in a belt-like region in the left-right direction on the outer surface of the endless belt 3. ing. By such a brush 83, the effect of scraping off dirt from the wheel 9 is improved, and the cleaning efficiency is improved.
[0087]
The endless belt 3 preferably has a replaceable structure when the water-absorbing mat is soiled or the water-absorbing property is lowered by water droplets.
[0088]
As such a structure, for example, the belt support 67 can be formed detachably with respect to the conveyor unit 64 of the washing machine body. In the example shown in FIG. 18, the rotation shaft of the support roller 51 protrudes from one support frame 66 of the belt support 67, and the end of the rotation shaft is driven by the conveyor unit 64 and the conveyor drive of the washing machine body 1. It can be freely fitted into an insertion opening 62 formed on a lower partition wall 61 provided between the portion 65 and opening outward. Then, by lifting the outer support frame 66 of the belt support 67 attached to the conveyor unit 64 and pulling up the belt support 67 obliquely upward and outward, the gap between the end of the rotating shaft and the insertion port 62 is increased. The fitted state is released, and the belt support 67 is detached from the conveyor unit 64. In this state, the endless belt 3 is removed from the belt support 67 and a new endless belt 3 is attached. Then, after the endless belt 3 is replaced, the belt support 67 is mounted again on the conveyor unit 64 by fitting the end of the rotary shaft into the insertion port 62.
[0089]
Further, the belt support 67 may be formed so as to be rotatable about a horizontal rotation axis on one support frame 66 side (one end side of the support roller 51) with respect to the cleaning machine body. In this case, the belt is supported so as to be rotatable between a state in which the support roller 51 is disposed substantially horizontally and a state in which the other support frame 66 is flipped upward and the other end of the support roller 51 is upwardly jumped upward. The tool 67 is formed.
[0090]
In the example shown in FIG. 19, the support frame 66 arranged on the inner side of the belt support 67 is attached to a support part 88 erected from the bottom surface of the conveyor part 64 by a hinge 89 so as to be rotatable. As a result, the belt support 67 is formed so as to be able to be flipped up and rotated around a horizontal rotation axis in the front-rear direction provided on the inner support frame 66 side.
[0091]
Further, for one of the plurality of support rollers 51 provided on the belt support 67, the rotation shaft 84 of the support roller 51 protrudes from the support frame 66 inside the belt support 67. A gear 85 is provided on the protruding portion of the shaft 84. On the other hand, a drive shaft 86 protrudes from the endless belt drive motor 68 provided in the belt drive portion toward the side conveyor portion 64, and a gear 87 is provided at the end of the drive shaft 86. Is provided.
[0092]
In this case, when in a normal use state, the belt support 67 is arranged so that the support roller 51 is in a substantially horizontal state with the endless belt 3 attached, and at this time, the gear 85 on the belt support 67 side. And the gear 87 on the motor 68 side mesh with each other, and the driving force from the motor 68 is transmitted to the support roller 51 so that the endless belt can be driven.
[0093]
When exchanging the endless belt 3, the belt support 67 is rotated around the central axis of the hinge 89 so that the outer portion jumps up. At this time, the engagement between the gear 85 on the belt support 67 side and the gear 87 on the motor 68 side is released. In this state, the endless belt 3 can be removed from the belt support 67 and a new endless belt 3 can be attached, and the endless belt 3 can be easily replaced. After the endless belt 3 is replaced, the belt support 67 is rotated to return the support roller 51 to a substantially horizontal state, and the gear on the belt support 67 and the gear on the motor 68 are engaged. is there.
[0094]
Thus, when the belt support 67 is formed so as to be able to be flipped up and rotated, it is preferable to provide a lock mechanism for maintaining the state in which the outer portion of the belt support 67 is flipped up. It is possible to easily maintain the state in which the outer portion is bounced up, and in this state, the endless belt 3 can be easily replaced.
[0095]
In the example shown in FIG. 20, the conveyor driving unit 65 is provided with a locking member 89, and the belt support 67 is engaged with the locking member 89 when one side of the belt support 67 is in a flipped state. A claw member 90 is provided that is stopped and maintains the flip-up state.
[0096]
The claw member 90 is attached to the outer surface of the support frame 66 on the inner side of the belt support 67 so as to be rotatable about a horizontal rotation shaft 92 in the front-rear direction via a mounting bracket 91 or the like. The claw member 90 includes a pressed piece 93 that extends downward from the rotating shaft 92, a locking piece 94 that extends inward from the rotating shaft 92, that is, the side on which the locking member 89 is provided, The claw piece 95 extends substantially downward from the tip of the locking piece 94. The claw members 90 are provided on the two support frames 66, respectively, and are provided at substantially the same position in the front-rear direction at this time.
[0097]
In addition, a release bar 96 is provided between the two support frames 66 in the belt support 67, and both end portions of the release bar 96 are inserted through insertion holes 97 provided in the support frames 66. . One end of the release bar 96 protrudes outward from the outer support frame 66, and the other end is arranged so as to face the back portion of the pressed piece 93 of the claw member 90.
[0098]
The locking member 89 is provided with a locking recess 98 that opens upward, and the left and right side walls of the locking recess 98 are recessed outward on the lower side. On the upper surface of the locking member 89, planar mounting surfaces 99 are formed on both the left and right sides of the opening of the locking recess 98.
[0099]
When the belt support 67 is in a state where the support roller 51 is disposed substantially horizontally, the tip of the claw piece 95 of the claw member 90 is disposed on the mounting surface 99 of the locking member 89. From this state, when the belt supporter 67 is rotated so that one side portion of the belt supporter 67 is flipped up, the tip of the claw piece 95 slides on the mounting surface 99 and moves into the locking recess 98. And is further locked to the inner wall of the locking recess 98. As a result, the claw member 90 is locked to the locking recess 98 in a state where the belt supporter 67 is raised, and the state where the belt supporter 67 is raised is maintained. In this state, when one end of the release bar 96 protruding from the outer support frame 66 is pushed into the support frame 66 side, the other end of the release bar 96 presses the pressed piece 93 of the claw member 90, thereby The claw member 90 is rotated so that 95 jumps upward, and the engagement state between the locking member 89 and the claw member 90 is released. In this state, the belt support 67 can be rotated to return to the state where the support roller 51 is disposed substantially horizontally.
[0100]
When the belt support 67 is detachably formed as described above or the endless belt 3 is formed so as to be easily replaceable by forming the belt support 67 so as to be rotatable, as shown in FIG. The upper piece 24 constituting the upper part of the outer frame 23 near the endless belt 3, the upper piece 25 constituting the outer surface of the storage box 14 near the endless belt 3 on the endless belt 3 side, and the endless belt of the central cover 26 It is preferable that the cover piece 27 and the like constituting the outer surface of the side 3 are formed so as to be able to be flipped upward and rotated freely. In this case, when the upper pieces 24 and 25 and the cover piece 27 are flipped upward, the endless belt 3 As a result, a work space is secured around the belt supporter 67 so that the belt supporter 67 can be attached and detached and the belt supporter 67 can be easily rotated.
[0101]
Of the plurality of support rollers 51 constituting the belt support 67, at least one of the support roller 51a disposed on the most front end side and the support roller support roller 51b disposed on the most rear end side is provided. It is also preferable that at least one end of the support roller 51 is formed so that it can be moved in the front-rear direction. The support rollers 51 a and 51 b mean the support roller 51 that supports the folded portion of the end of the endless belt 3 at the end of the belt support 67 in the front-rear direction. That is, for example, as shown in FIG. 22, one end of the support rollers 51 a and 51 b arranged at the front and rear ends of the belt support 67 is rotated about a vertical rotation axis with respect to the support frame 66. Further, the other ends of the support rollers 51a and 51b are attached to the support frame 66 so as to be movable in the front-rear direction by loosely inserting into the elongated holes. At this time, the support rollers 51a and 51b are in a state parallel to the other support rollers 51 and between the state in which the other ends of the support rollers 51a and 51b are moved inward in the front-rear direction. The end of 51b is formed to be movable in the front-rear direction.
[0102]
In this manner, when the endless belt 3 is mounted on the belt support 67, the support rollers 51a and 51b at the end portions in the front-rear direction are arranged in parallel with the other support rollers 51 and the support roller 51a. , 51b are fixed to the support frame 66 so as not to move in the front-rear direction by a clasp or the like, and when the endless belt 3 is replaced, the ends of the support rollers 51a, 51b are moved in the front-rear direction. The endless belt 3 can be loosened and the endless belt 3 can be easily detached from the belt support 67.
[0103]
Further, as shown in FIG. 23, the conveyor unit 64 is preferably provided with a tray 100 below the endless belt 3, and in this case, dirt and moisture adhering to the endless belt 3 are received below the endless belt 3. 100 can be received. When the tray 100 is formed so as to be detachable with respect to the conveyor section 64 of the washing machine main body 1, when dirt or water accumulates in the tray 100, the tray 100 can be taken out to easily dispose of the dirt or water. it can.
[0104]
It is also preferable to provide the conveyor unit 64 with a brush 101 that is in sliding contact with the endless belt 3 below the upper surface of the endless belt 3. In FIG. 23, as the brush 101, a rotating brush having hairs planted on the outer surface of the roller is provided. In this case, the dirt adhering to the endless belt 3 can be scraped off by the brush 101, and the replacement cycle of the endless belt 3 can be lengthened. If the tray 100 is provided at this time, the dirt 100 scraped off can be received by the tray 100.
[0105]
It is also preferable to provide the conveyor unit 64 with a scraper 102 that is in sliding contact with the endless belt 3 below the upper surface of the endless belt 3. In FIG. 24, a blade-shaped scraper 102 is provided so as to be in sliding contact with the outer surface of the endless belt 3 from the lower side of the endless belt 3, and the endless belt 3 is scraped to remove the dirt adhering to the endless belt 3. The replacement period of the belt 3 can be lengthened, and the dirt 100 scraped off can be received by the tray 100.
[0106]
Moreover, it is also preferable to provide a clamping roller 103 that clamps the endless belt 3 from the outer surface side and the inner surface side below the upper surface of the endless belt 3 in the conveyor portion 64. That is, in the example shown in FIG. 23, as the endless belt 3 rotates, moisture can be squeezed out from the endless belt 3 absorbed by the pinching roller 103, and the replacement cycle of the endless belt 3 can be lengthened. In addition, the squeezed water can be received by the dish 100.
[0107]
Moreover, it is also preferable to provide the conveyor unit 64 with an air ejector that ejects air to the outer surface of the endless belt 3 below the upper surface of the endless belt 3. In the example shown in FIG. 23, the air nozzle 104 of the air ejector is provided toward the outer surface of the endless belt 3, and the air is ejected toward the endless belt 3. Therefore, the endless belt 3 rotates. As it moves, dirt attached to the outer surface of the endless belt can be blown away and removed, the replacement cycle of the endless belt 3 can be lengthened, and the blown-off dirt can be received by the tray 100. It can be done.
[0108]
Moreover, it is preferable that the washing machine main body 1 covers the upper surface of the endless belt 3 with the cover 105 when not in use so that the endless belt 3 is not contaminated. In the example shown in FIG. 24, a cover 105 that covers substantially the entire upper surface of the cleaning machine body 1 is detachably provided to the cleaning machine body 1. In the example shown in FIGS. 25 and 26, a storage portion 106 for storing the sheet-like cover 105 is provided in one of the two slope portions 11. The storage unit 106 is formed so as to be stored, for example, in a state where the cover 105 is wound, and a slit-shaped outlet 107 through which the cover 105 is pulled out from the end edge is provided on the upper surface of the storage unit 106. When the wheel washer is not used, the edge of the cover 105 is pulled out from the outlet 107 and the cover 105 is arranged so as to cover the upper surface of the washer body 1. At this time, if a hook or the like that is hooked and locked to the edge of the cover 105 and the slope portion 11 on the opposite side where the storage portion 106 is not provided is provided, the cover 105 covers the upper surface of the cleaning machine body 1. It is possible to prevent the cover 105 from being inadvertently pulled back into the storage portion 106 when the user is in the vehicle.
[0109]
27 to 29 are schematic cross-sectional views showing a state in which the wheel washer is installed. Among these, in the one shown in FIG. 27, a wheel washer having slope portions 11 provided on the front and rear of the washer body 1 as described above is disposed on a flat surface 110 such as a flat floor surface or the ground. ing. For example, when washing the wheel 9 of the wheelchair 108a as the vehicle 108, the person 109 riding on the wheelchair 108a advances the wheelchair 108a, moves the wheelchair 108a over the slope portion 11, and moves to the upper surface of the washing machine body 1. The wheel 9 is cleaned.
[0110]
In the example shown in FIG. 28, the floor surface 112 on the front side of the wheel washer is higher than the floor surface 111 on the rear side. The wheel washer is installed such that the washer body 1 is substantially flush with the front floor surface 112, and the slope portion 11 is not provided. A lifter 113 is installed between the wheel washer and the floor 111 on the rear side. The lifter 113 is provided with a lifting table 114 that is driven up and down. The lifting table 114 has a top surface that is substantially flush with the top surface of the wheel washer and a position that is substantially flush with the rear floor surface. It is formed to be driven up and down. For example, when washing the wheel 9 of the wheelchair 108a, the person 109 riding on the wheelchair 108a advances the wheelchair 108a from the rear floor surface 111 with the lifting table 114 being flush with the rear floor surface 111. The wheelchair 108a is placed on the lifting table 114. In this state, the elevating table 114 is driven up so that the upper surface of the elevating table 114 is flush with the upper surface of the cleaning machine body 1. Next, the wheelchair 108a is moved forward and disposed on the upper surface of the washing machine main body 1. After the wheel 9 is cleaned, the wheelchair 108a is further moved forward to move the wheelchair 108a to the floor surface 102 on the front side.
[0111]
In this case, a vehicle 108 such as a wheelchair 108a can be easily arranged on the main body 1 of the washing machine to wash the wheels 9, and if installed in a place where there is a step on the floor, such as the entrance of a building. The vehicle 108 can be easily moved in a place where there is a step, and at the same time, the wheels 9 can be cleaned at the same time.
[0112]
In the example shown in FIG. 29, the floor surface 112 on the front side of the wheel washer is higher than the floor surface 111 on the rear side. Further, the wheel washer is provided with a lifter 113 that drives the washer body 1 up and down below the washer body 1, and the slope portion 11 is not provided. The lifter 113 is formed such that the cleaning machine body 1 is driven up and down between a position where the upper surface is substantially flush with the front floor surface 112 and a position where the washing machine body 1 is substantially flush with the rear floor surface 111. Has been. For example, when washing the wheel 9 of the wheelchair 108a, the person 109 riding on the wheelchair 108a moves the wheelchair 108a to the rear floor while the upper surface of the washing machine body 1 is substantially flush with the rear floor surface 111. The wheel 9 is moved forward from the surface 111, and the wheelchair 108a is disposed on the main body 1 of the cleaner to clean the wheels 9. Further, the lifter 113 is driven in a state in which the wheelchair 108a is disposed on the cleaning machine main body 1 to drive the cleaning machine main body 1 upward, so that the upper surface of the cleaning machine main body 1 is substantially flush with the floor surface 112 on the front side. Then, the wheelchair 108a is moved forward and moved to the floor surface 112 on the front side.
[0113]
In this case, a vehicle 108 such as a wheelchair 108a can be easily arranged on the main body 1 of the washing machine to wash the wheels 9, and if installed in a place where there is a step on the floor, such as the entrance of a building. The vehicle 108 can be easily moved in a place where there is a step, and at the same time, the wheels 9 can be cleaned at the same time. Further, since the lifter 113 and the wheel washer are installed at the same position, the installation area can be reduced.
[0114]
Here, when the wheel 9 of the vehicle 108 is washed by the wheel washer, there is a risk of falling if a person is on the endless belt 3 that is rotationally driven. When supporting by hand or the like, the vehicle 108 moves carelessly on the wheel washer together with this person. In particular, when the wheel 9 of the wheelchair 108a is washed, even if a person riding in the wheelchair 108a places his / her foot on the passage cover 22 on the passage 13 where the endless belt 3 is not installed, Such a load may cause the wheel 9 of the wheelchair 108 a to move over the endless belt 3 accidentally over the cleaning unit 2. Further, if there is a foreign object such as a foot on the moving path of the cleaning unit 2 on the passage 13, the moving operation of the cleaning unit 2 is hindered and the wheel 9 cannot be cleaned. Therefore, it is preferable to provide the wheel washer with a sensor for detecting the presence of foreign matter other than the wheels 9 on the upper surface of the washer body 1. In this way, a person is riding on the endless belt 3 or the wheelchair 108a. When a person on the wheel puts his or her foot on the wheel washer, it is detected by a sensor, and based on the detection result, the driving operation of the wheel washer is stopped and the endless belt is controlled. It is possible to prevent a situation in which a person above 3 falls down, the vehicle 108 moves carelessly, or the moving operation of the cleaning unit 2 is hindered so that wheel cleaning cannot be performed.
[0115]
As a sensor for detecting the presence of such a foreign substance, an appropriate sensor such as a light emitting / receiving photoelectric sensor, a light emitting / receiving laser sensor, a light emitting / receiving area sensor, or the like can be provided. Such sensor arrangement positions can be appropriately set depending on the type of the vehicle 108 to be cleaned by the wheel washer. FIGS. 30 and 31 show sensor installation positions in a wheel washer used particularly for wheel cleaning of the wheelchair 108a. In the illustrated example, the light projecting element of the light projecting / receiving sensor and one of the light receiving elements 114 are placed on both sides of the front storage box above the upper surface of the passage 13 by a certain distance above the cleaning unit 2 storage position. Are arranged in a line in the front-rear direction (for example, a position 5 cm above), and the other element 114 of the light projecting element and the light receiving element is disposed on the outer side of the path 13 from the upper surface of the path 13. A plurality of them are arranged in a line in the front-rear direction at a position above a certain dimension (for example, a position 5 cm above). At this time, the same number of light projecting elements and light receiving elements are arranged in a one-to-one correspondence. This sensor is provided in a line from the position of the front wheel 9 b of the wheelchair 108 a at the front end of the endless belt 3 to the position of the front passage cover 22.
[0116]
When the wheelchair 108a is arranged on the washing machine main body provided with such a sensor, the presence of the front wheel 9b is usually detected by the element 114 provided at a position corresponding to the arrangement position of the front wheel 9b on the endless belt 3. The other elements 114 do not detect the presence of the wheel 9 or foreign matter. In such a state, the wheel washer is controlled to perform a normal wheel washing operation. Here, in the illustrated example, the presence of the front wheel 9b in which a predetermined pair of light emitting / receiving sensor elements 114 on the rear side among the plurality of pairs of light emitting / receiving sensor elements 114 arranged in a line is present at a predetermined position. It is provided as what constitutes a sensor for detecting the front wheel that detects the wheel. At this time, in consideration of a case where an error occurs in the position of the front wheel 9b on the endless belt, the light emitting / receiving sensor element 114 (in the figure, the rear four) is disposed at a position corresponding to the position of the front wheel 9b. It is preferable that a sensor for detecting a front wheel is constituted by one or a plurality of (for example, two) predetermined elements 114 arranged in the vicinity thereof.
[0117]
Further, when the person 109 riding on the wheelchair 108a puts his / her foot on the passage 13 in a state where the wheelchair 108a is arranged on the main body of the washing machine, the light emitting / receiving sensor arranged forward of the front wheel detection sensor, The presence of a foreign object is detected, and at this time, the driving operation of the wheel washer is controlled to be stopped.
[0118]
Moreover, it is also preferable that the wheel washer is formed so as to be foldable so as to improve transportability when being carried or moved. For example, in the configuration shown in FIG. 32, a control unit 69 containing a steam generator or the like is connected to the cleaning machine main body 1 so as to be rotatable. At this time, by rotating the control unit 69 at the connecting portion with the cleaning machine main body 1 so as to lie down on the side, the wheel cleaning machine is folded compactly, and convenience in carrying and moving is improved.
[0119]
It is also preferable to form the wheel washer so as to be divided into a plurality of parts. In this case as well, it is possible to improve transportability during carrying and movement. For example, as shown in FIG. 3, the cleaning machine main body 1 and the control unit 69 are formed to be separable, and the cleaning machine main body 1 is further divided into two unit drive parts 63, two conveyor parts 64, and a conveyor drive part 65. It can be freely formed. By dividing in this way, convenience at the time of carrying and moving is improved.
[0120]
Although not shown, it is also preferable to provide a moving wheel on the lower surface of the wheel washer. In this case as well, convenience in carrying and moving is improved.
[0121]
Next, an example of the method for cleaning the wheels 9 of the vehicle 108 such as the wheelchair 108a using the wheel washer will be specifically described.
[0122]
First, the main power switch 70 is operated to turn on the power of the wheel washer, and the steam generator is heated so that the steam can be used. When the steam generator is short of water, Replenish. Then, the caregiver or the user operates the vehicle 108 such as the wheelchair 108 a and introduces it from the front slope portion 11 onto the washing machine main body 1. At this time, all the wheels 9 of the vehicle 108 are placed on the endless belt 3, and the wheelchair 108a is stopped when the rear wheel 9a sinks.
[0123]
Next, a caregiver or a user operates the hand switch 16 to insert a cleaning start button. At this time, by setting the operation time of the endless belt 3 with a timer in advance, the endless belt 13 rotates at a low speed for a certain time (a short time of about one second) before the cleaning unit 2 starts moving operation. To do. Here, the front wheel 9b of the wheelchair 108a is normally formed so as to be swingable and swingable, and is oriented in the free direction. Therefore, when the front wheel 9b is correctly oriented in the front-rear direction when stopped on the endless belt 3, The direction of the wheels 9 may vary, but the front wheel 9b can be directed in the front-rear direction by rotating the endless belt 3 at a low speed for a short time. The rotational speed of the endless belt 3 at this time is set on the condition that the vehicle 108 itself does not move on the washing machine main body 1 due to the rotation of the endless belt 3 and the wheel 9 is idle.
[0124]
Thereafter, the cleaning unit 2 automatically starts moving from the standby box 12 and moves to the lower part of each wheel 9 while sensing the position of each wheel 9 in the left-right direction and then the position in the front-rear direction. Siege from. Then, while rotating the endless belt 3 at a predetermined steady speed and rotating the wheel 9, while jetting steam from the jet outlet 6, both the side surfaces and the grounding surface of the wheel 9 are brushed by the brush 4 installed in the cleaning unit 2. The wheel 9 is washed by rubbing. At this time, since the steam is sprayed on the surface of the wheel 9, the dirt adhering to the wheel 9 is lifted, and this dirt is absorbed by the endless belt 3 made of a water-absorbing material together with moisture, so that the wheel 9 is washed. Since it is performed and high-temperature steam is sprayed, it also has an effect of sterilizing the wheel 9. Steam may be sprayed on each wheel 9 at the same time, but in consideration of the steam generation ability, for example, the steam is first sprayed on the rear wheel 9a for about 20 seconds and then sprayed on the front wheel 9b for about 10 seconds. For example, a time difference may be provided. These times and steam pressures can be arbitrarily adjusted by the user.
[0125]
While such a cleaning operation is performed, the movement of the wheels 9 is prevented by the cleaning unit 9 surrounding the wheels 9, and each wheel 9 rotates on the spot according to the rotation of the endless belt 3. It will be. At this time, the cleaning unit 2 and the wheel 9 are in contact with each other by the contact piece 5 and the roller 7, but the ball 73 loosely fitted to the roller 7 and the contact piece 5 according to the rotation of the wheel 9. , And the generation of frictional force at the contact portion between the wheel 9 and the cleaning unit 2 is suppressed, the wheel 9 rotates smoothly and the wheel 9 moves over the cleaning unit 2. Can be prevented.
[0126]
After the cleaning is completed, the endless belt 3 is stopped, and then the cleaning unit 2 is moved and stored in the standby box 12. Then, the wheelchair 108a is taken out of the wheel washer through the slope portion 11.
[0127]
As described above, the wheel 9 of the vehicle 108 such as the wheelchair 108a, the carriage, the trolley or the like can be cleaned using the wheel washer. In the above wheel washer, each washing unit 2 can sense the position of the wheel 9 of the vehicle 108 and move to a position surrounding the lower part of each wheel 9 of the vehicle 108, so that the vehicle 108 is placed on the endless belt 3. It is possible to wash all the wheels 9 in accordance with the interval between the wheels 9 of the vehicle 108 only by placing them once. Moreover, since the said wheel washing machine slidably contacts the side surface of the wheel 9 with the brush 4 from both, the stain | pollution | contamination adhering to the both sides | surfaces of the wheel 9 can also be removed reliably. Further, since the wheel washer sprays steam for cleaning, the cleaning ability is improved.
[0128]
Incidentally, the cleaning ability of the wheel washer was confirmed as follows. When the test wheel 9 (white one) is measured with a colorimeter, the dirt is attached and the state is L * 30 to 40. The endless belt 3 is rotated and the washing unit is rotated. Steam was spouted from 2 for 20 seconds (wheel 9 rotated twice during this time), and when L * was 85. On the other hand, L * did not change even if it was washed for 20 seconds in the same manner with a washing unit equipped with water and a brush. In L *, 0 indicates black and 100 indicates white.
[0129]
Moreover, the wheel washer of the present invention is not limited to the above embodiment. As another embodiment of the wheel washer, for example, the cleaned wheel 9 can be dried by providing the cleaning unit 2 with an outlet for dry air. Further, in order to dry the water absorbent mat attached to the endless belt 3, a drier or a heater may be provided in the washing machine body 1, and further, cleaning for sucking dirt attached to the endless belt 3 as it is dried. A machine may be provided. In addition, a roller or the like can be attached to facilitate the insertion of the wheel 9 in the vicinity of the contact piece 5 of the cleaning unit 2 formed. Moreover, you may provide the function which accommodates the slope part 11 in the washing machine main body 1. FIG.
[0130]
【The invention's effect】
  As described above, the wheel washer according to claim 1 of the present invention is capable of placing the wheel of the vehicle on the upper surface, can be driven to rotate so that the upper surface moves in the front-rear direction, and at least the outer surface has water absorption. An endless belt made of a material of the nature and a vehicle wheel placed on the endless belt are surrounded from the front or the rear.In the arranged stateA cleaning unit that sprays steam toward this wheelDetecting means for detecting whether or not the cleaning unit is at a predetermined position with respect to the wheels, and moving the cleaning unit from a predetermined standby position in the front-rear direction and the left-right direction based on a detection result by the detection means. A drive unit for moving the vehicle wheel to a position surrounding the vehicle wheel;To haveWhen placing the wheels on the endless belt, the washing unit in the standby position can be kept out of the way,With the vehicle wheels placed on an endless beltThe cleaning unit is moved from the predetermined standby position by the drive unit by automatic control based on the detection result by the detection means according to the arrangement position of the wheel.Surround the wheel from the front or rear with the washing unitIt can be moved to a position where it can move, and can be used for various vehicles with different wheel positions.In this state, the endless belt is rotated and the steam is sprayed from the cleaning unit toward the wheel, so that the wheel can be cleaned. At this time, the wheel rotates while the endless belt rotates. The dirt adhering to the wheel is lifted by spraying, and the dirt is absorbed by the endless belt made of a water-absorbing material together with moisture, and the wheel is washed and high-temperature steam is sprayed. Therefore, the wheel can be sterilized.
[0131]
According to a second aspect of the present invention, in the first aspect, the cleaning machine main body includes an endless belt, and the control unit includes a steam generator that generates steam to be supplied to the cleaning unit. Therefore, the washing machine main body and the control unit can be separated when the wheel washer is moved or transported, so that the convenience during movement or transport can be improved.
[0135]
  And claims3The invention of claim1 or 2In this case, the detection unit includes a pressure sensor that detects whether or not predetermined positions of the cleaning unit and the wheel are in contact with each other. Therefore, when the predetermined pressure is detected by the pressure sensor, the cleaning unit and the wheel It can be detected that the predetermined positions are in contact with each other, and the movement operation of the cleaning unit can be automatically controlled based on the detection result.
[0136]
  And claims5The invention of claim1 or 2The motor includes a motor as a driving source for the moving means and a torque sensor for detecting the torque of the rotating shaft of the motor as the detecting means. Therefore, when a predetermined torque is detected by the torque motor, the washing unit and the wheel It can be detected that the predetermined positions are in contact with each other, and the movement operation of the cleaning unit can be automatically controlled based on the detection result.
[0137]
According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the cleaning unit is provided with a brush that slides on the surface of the wheel when the cleaning unit surrounds the wheel. When the wheel rotates with movement, the dirt on the surface of the wheel can be scraped off with a brush, and the cleaning efficiency of the wheel can be improved.
[0138]
According to a ninth aspect of the present invention, in the eighth aspect, the cleaning unit is provided with a brush that slides on the outer peripheral surface of the wheel when the cleaning unit surrounds the wheel. In particular, the dirt on the outer peripheral surface (grounding surface) of the wheel to which much dirt adheres can be scraped off with a brush to improve the wheel cleaning efficiency.
[0139]
Further, the invention of claim 10 is the cleaning unit according to claim 8 or 9, wherein the cleaning unit is provided with a brush that slides on the side of the wheel when the cleaning unit surrounds the wheel. The dirt on the side surface is scraped off with a brush, so that the cleaning efficiency of the wheel can be improved.
[0140]
The invention according to claim 11 is the invention according to claim 8, wherein the tip of the bristles is arranged in a substantially U-shape as a brush that slides on the surface of the wheel when the cleaning unit surrounds the wheel. In order to provide a brush, when the wheel is washed, the brush slides from one side of the wheel to the other side through the outer peripheral surface (grounding surface), contacts the floor or the ground, and is particularly dirty. In addition to the dirt on the outer peripheral surface (grounding surface) of the wheel, the dirt attached to the side surface of the wheel where dirt easily adheres is scraped off, and the cleaning efficiency of the wheel can be improved.
[0141]
According to a twelfth aspect of the present invention, in any one of the eighth to eleventh aspects, the cleaning unit is provided with bristles on the outer periphery of the roller as a brush that slides on the surface of the wheel when the cleaning unit surrounds the wheel. Since a rotating brush that is configured to be planted and rotates in a state where it is in sliding contact with the wheel is provided, the dirt removal efficiency by the brush can be improved, and the cleaning efficiency of the wheel can be further improved.
[0142]
According to a thirteenth aspect of the present invention, in any one of the eighth to twelfth aspects, the brush that is in sliding contact with the surface of the wheel when the cleaning unit surrounds the wheel is detachably formed on the cleaning unit. It is possible to restore the dirt removal efficiency by exchanging the brush whose dirt removal efficiency has fallen due to severe dirt or deformation.
[0143]
The invention of claim 14 is the structure according to any one of claims 1 to 13, wherein the endless belt has a structure that sinks along the shape of the wheel while the wheel is placed on the upper surface thereof. It is possible to reduce the variation in the arrangement position of the wheels on the main body of the cleaning machine, and to reduce the variation in the arrangement position after the movement of the cleaning unit when the cleaning unit is moved and aligned with respect to the wheel. In addition, the position of the washing unit can be easily adjusted, and the user who uses the wheel washing machine to wash the wheel of the vehicle determines the position where the wheel sinks on the endless belt. In addition, when the cleaning unit is moved and the wheel is inserted into the cleaning unit, it is possible to prevent the wheel from being inadvertently moved. Contact area between the endless belt and the wheel at the time of washing is increased, in which it is possible to improve the cleaning efficiency of the wheel.
[0144]
The invention according to claim 15 is the invention according to claim 14, further comprising a plurality of parallel support rollers for supporting the endless belt, wherein a roller group including at least a part of the support rollers is placed on the endless belt. When the wheels are cleaned for a variety of vehicles having different wheel outer diameters, the support rollers constituting the roller group are moved up and down according to the outer diameter dimensions of the wheels. Thus, the roller group can be arranged in an arc shape along the outer diameter shape of the wheel.
[0145]
According to a sixteenth aspect of the present invention, in any one of the first to fifteenth aspects, bristles made of a water-absorbing material are raised on the outer surface of the endless belt, and the bristles are directed in either the front or rear direction on the upper surface of the endless belt. Therefore, the water absorption efficiency when the outer surface of the endless belt is in contact with the wheel is improved, and the dirt removal efficiency of the wheel is improved.
[0146]
According to a seventeenth aspect of the present invention, in any one of the first to sixteenth aspects, the brush is partially formed on the outer surface of the endless belt, so that the effect of scraping off dirt from the wheels is improved and the cleaning efficiency is improved. Is.
[0147]
The invention according to claim 18 is the invention according to any one of claims 1 to 17, wherein the plurality of parallel support rollers that support the endless belt are disposed substantially horizontally and the one end side is bounced upward. The endless belt can be easily replaced with the support roller jumping up, and the endless belt absorbs moisture or gets dirty so that it is endless when the cleaning efficiency decreases. The cleaning efficiency can be recovered by exchanging the belt.
[0148]
According to a nineteenth aspect of the present invention, in any one of the first to eighteenth aspects, the support roller that supports the end portion of the endless belt in the front-rear direction is formed so as to be movable in a direction in which the tension applied to the endless belt is loosened. When replacing the belt, the endless belt can be easily attached and detached by loosening the tension applied to the endless belt by the support roller, and the endless belt absorbs moisture or adheres dirt, resulting in improved cleaning efficiency. When it is lowered, the endless belt can be replaced to recover the cleaning efficiency.
[0149]
Further, in the invention of claim 20 according to any one of claims 1 to 19, since a tray is provided below the endless belt, dirt and moisture adhering to the endless belt can be received by the tray below the endless belt. It can be done.
[0150]
In addition, the invention of claim 21 is provided with a brush in sliding contact with the endless belt on the outer surface other than the upper surface of the endless belt according to any one of claims 1 to 20, so that the dirt adhering to the endless belt can be scraped off with the brush. It is possible to lengthen the replacement cycle of the endless belt.
[0151]
Further, the invention of claim 22 is the invention according to any one of claims 1 to 21, further comprising a scraper that is in sliding contact with the endless belt on the outer surface other than the upper surface of the endless belt, so that the dirt adhering to the endless belt can be scraped off by the scraper. It is possible to lengthen the replacement cycle of the endless belt.
[0152]
According to a twenty-third aspect of the present invention, in any one of the first to twenty-second aspects, since the holding roller that holds the endless belt from the outer surface side and the inner surface side at a place other than the upper surface of the endless belt, Moisture can be squeezed out by a pinching roller, and the replacement cycle of the endless belt can be lengthened.
[0153]
According to a twenty-fourth aspect of the present invention, in any one of the first to twenty-third aspects, since the air ejector for ejecting air to the outer surface of the endless belt is provided at a place other than the upper surface of the endless belt, The adhered dirt can be blown away and the endless belt replacement cycle can be lengthened.
[0154]
In addition, the invention of claim 25 comprises the cover for covering the upper surface of the endless belt according to any one of claims 1 to 24, so that the upper surface of the endless belt is covered with the cover when not in use so that the endless belt is not contaminated. It can be made.
[0155]
According to a twenty-sixth aspect of the present invention, in any one of the first to twenty-fifth aspects, the cleaning machine main body having an endless belt is installed between the cleaning machine main body and the floor surface. Since it is equipped with a lifter that moves up and down between the surface and the position of the surface, the vehicle can be easily placed on the main body of the washer to clean the wheel, and it can be placed on the floor surface like the entrance of a building. In a place where there is a step, the vehicle can be easily moved in the place where the step exists, and at the same time, the wheel can be cleaned at the same time.
[0156]
According to a twenty-seventh aspect of the invention, in any one of the first to twenty-fifth aspects, since the cleaning machine main body provided with the endless belt and the lifter for driving the cleaning machine main body up and down are provided, the vehicle is mounted on the cleaning machine main body. Wheels can be easily cleaned by placing them, and in places where there is a step on the floor, such as at the entrance of a building, the vehicle can be moved easily where there is a step. At the same time, the wheel can be cleaned at the same time. Further, since the lifter and the wheel washer are installed at the same position, the installation area can be reduced.
[0157]
Further, the invention according to claim 28 is the sensor according to any one of claims 1 to 27, wherein the sensor detects the presence or absence of foreign matter at a place other than the wheel mounting position at the time of wheel cleaning on the main body of the washing machine having an endless belt. When a person rides on an endless belt or a person on a wheelchair places his / her foot on a wheel washer, the sensor detects that, and based on the detection result, the wheel A situation where the driving operation of the washing machine is stopped so that the person on the endless belt falls, the vehicle moves carelessly, or the washing unit cannot be washed because the movement of the washing unit is hindered. Can be prevented.
[0158]
In addition, since the invention of claim 29 is formed so as to be foldable in any one of claims 1 to 28, it can be folded compactly when the wheel washer is moved or transported, and the convenience of movement or transport can be improved. Is.
[0159]
The invention of claim 30 is characterized in that, in any one of claims 1 to 29, the cleaning unit comprises a spout for jetting steam from both sides of the wheel toward the wheel side in a state of surrounding the wheel. Therefore, the steam injected from the outlet can be injected over one side surface, the outer peripheral surface, and the other side surface of the wheel. Steam can be sprayed on the side surface of the wheel where dirt easily adheres along with the outer peripheral surface (grounding surface) to improve the cleaning efficiency of the wheel.
[0160]
In addition, the invention of claim 31 according to any one of claims 1 to 30 is provided with a moving wheel in the lower part, and therefore, convenience in moving and transporting the wheel washer can be improved. .
[0161]
  A wheel cleaning method according to claim 32 of the present invention includes:With the cleaning unit placed in the predetermined standby position,A vehicle unit is mounted on the upper surface of an endless belt having at least an outer surface formed of a water-absorbing material.Based on the detection result by the detecting means for detecting whether or not the vehicle is at a predetermined position with respect to the wheel, the cleaning unit is slid in the front-rear direction and the left-right direction from the standby position to surround the wheel from the front or the rear. Move to the position toIn order to clean the wheel by rotating the endless belt at a predetermined steady speed while suppressing the movement of the vehicle and spouting steam from the cleaning unit toward the wheel,When the wheels are placed on the endless belt, the washing unit in the standby position can be kept out of the way, and with the wheels of the vehicle placed on the endless belt, the washing unit can be set according to the wheel placement position. The vehicle can be moved from a predetermined standby position to a position surrounded by the cleaning unit from the front or the rear by the driving unit by automatic control based on the detection result by the detecting means, and various vehicles having different wheel arrangement positions. In this state, the endless belt can be rotated and the steam can be sprayed from the cleaning unit toward the wheel.While the wheel rotates with the rotation of the endless belt, the steam adhering to the wheel rises when the steam is jetted, and this dirt is absorbed by the endless belt made of a water-absorbing material together with moisture, Since the wheels are cleaned and high-temperature steam is sprayed, the wheels can be sterilized.
[0162]
  A wheel cleaning method according to claim 33 of the present invention includes:With the cleaning unit placed in the predetermined standby position,At least the outer surface of the endless belt formed of a water-absorbing material is mounted on the upper surface of the vehicle wheel, and the endless belt is rotated at a low speed.Based on the detection result by the detecting means for detecting whether or not the vehicle is at a predetermined position with respect to the wheel, the cleaning unit is slid in the front-rear direction and the left-right direction from the standby position to surround the wheel from the front or the rear. Move to the position toIn order to clean the wheel by rotating the endless belt at a predetermined steady speed while suppressing the movement of the vehicle and spouting steam from the cleaning unit toward the wheel,When the wheels are placed on the endless belt, the washing unit in the standby position can be kept out of the way, and with the wheels of the vehicle placed on the endless belt, the washing unit can be set according to the wheel placement position. The vehicle can be moved from a predetermined standby position to a position surrounded by the cleaning unit from the front or the rear by the driving unit by automatic control based on the detection result by the detecting means, and various vehicles having different wheel arrangement positions. In this state, the endless belt can be turned and the steam can be sprayed from the cleaning unit toward the wheel, and the wheel can be cleaned.When the vehicle has wheels formed to swing freely, the endless belt can be turned in the front-rear direction when rotating the endless belt at a low speed, and then the steady speed of the endless belt. When the wheel rotates, the steam is sprayed while the wheel rotates as the endless belt rotates. As a result, dirt adhering to the wheel is lifted, and the dirt is endless made of a water-absorbing material together with moisture. Since the wheel is absorbed by the belt and the wheel is cleaned and high-temperature steam is sprayed, the wheel can be sterilized.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an example of an embodiment of the present invention.
FIG. 2 is a side view of the above.
FIG. 3 is an exploded perspective view with a part omitted.
FIG. 4 is a partial perspective view illustrating an example of a configuration of a cleaning unit.
FIG. 5 is a partial perspective view showing another example of the above.
FIG. 6 is a partial exploded perspective view showing an example of the configuration of a cleaning unit.
FIG. 7 is a cross-sectional view showing another example of the configuration of the cleaning unit.
8A and 8B show another example of the configuration of the cleaning unit, where FIG. 8A is a cross-sectional view and FIG. 8B is a plan view.
FIG. 9 is a schematic perspective view showing a drive mechanism of the cleaning unit.
FIG. 10 is a plan view showing the operation of the wheel washer.
FIG. 11 is a plan view showing another operation of the above.
FIG. 12 is a plan view showing still another operation of the above.
FIG. 13 is a perspective view of the main part of the above.
14A and 14B are schematic cross-sectional views showing an example of a structure in which an endless belt sinks.
FIG. 15 is a schematic cross-sectional view showing another example of the above.
FIG. 16 is a schematic cross-sectional view for explaining how hairs are raised on the surface of an endless belt.
17A and 17B show a configuration in which a brush is provided on an endless belt, wherein FIG. 17A is a plan view and FIG. 17B is a cross-sectional view.
FIG. 18 is a schematic cross-sectional view showing an example of an exchange state of the endless belt.
FIG. 19 is a schematic cross-sectional view showing another example of the exchange state of the endless belt.
FIG. 20 is a schematic cross-sectional view showing a lock mechanism of the belt supporter in an exchanged state of the endless belt.
FIG. 21 is a front perspective view showing an endless belt exchange state.
22 (a) and 22 (b) are partial plan views showing an example of the configuration of the belt support.
FIG. 23 is a schematic cross-sectional view illustrating a configuration of an endless belt and a tray.
FIG. 24 is a front view showing another example of the embodiment of the present invention.
FIG. 25 is a perspective view showing another example of the embodiment of the present invention.
FIG. 26 is a perspective view showing a state where the cover is pulled out in the embodiment.
FIG. 27 is a schematic cross-sectional view showing an example of an installed state of the wheel washer.
FIG. 28 is a schematic cross-sectional view showing another example of the above.
FIG. 29 is a schematic cross-sectional view showing another example of the above.
FIG. 30 is a perspective view showing another example of the embodiment of the present invention.
FIG. 31 is a partial side view showing the usage state of the above.
FIG. 32 is a front view showing another example of the embodiment of the present invention.
[Explanation of symbols]
1 Washer body
2 Cleaning unit
3 Endless belt
4 brushes
6 spout
9 wheels
51, 51a, 51b Support roller
69 Control unit
81 Roller group
83 brushes
41, 45 motor
100 saucer
101 brush
102 scraper
103 Nipping roller
105 cover
108 vehicles
113 Lifter

Claims (33)

The vehicle wheel can be placed on the upper surface, and can be driven to rotate so that the upper surface moves in the front-rear direction, and at least the outer surface is made of a water-absorbing material, and placed on the endless belt A cleaning unit that injects steam toward the wheels in a state where the wheels of the vehicle are surrounded from the front or the rear, and whether the cleaning unit is in a predetermined position with respect to the wheels. And a drive unit that slides the cleaning unit from the predetermined standby position in the front-rear direction and the left-right direction based on the detection result of the detection unit to move to a position surrounding the vehicle wheel. A wheel washer characterized by that.   Consists of a washing machine body with an endless belt and a control unit with a steam generator that generates steam to be supplied to the washing unit. The washing machine body and the control unit with the steam generator are separable. The wheel washer according to claim 1, wherein The wheel washer according to claim 1 or 2, further comprising a pressure sensor that detects whether or not predetermined positions of the cleaning unit and the wheel are in contact with each other as the detecting means . The cleaning unit is provided with a contact piece that contacts the side surface of the wheel in a state where the cleaning unit surrounds the wheel from the front or the rear, and a roller that contacts the outer peripheral surface of the wheel in the state. As detection means, a pressure sensor for detecting whether or not the contact piece is in contact with the side surface of the wheel and a pressure sensor for detecting whether or not the roller is in contact with the outer peripheral surface of the wheel are provided. The wheel washer according to claim 3. The wheel washer according to claim 1 or 2, further comprising a motor as a driving source of the moving means, and a torque sensor for detecting torque of the rotating shaft of the motor as the detecting means. The cleaning unit is provided with a contact piece that contacts the side surface of the wheel in a state where the cleaning unit surrounds the wheel from the front or the rear, and a roller that contacts the outer peripheral surface of the wheel in the state. The wheel washer according to claim 5, wherein the wheel washer is formed. As a driving source for the moving means, the detection unit is slid in the left-right direction from the standby position until the detection means detects that the contact piece of the cleaning unit is in contact with the side surface of the wheel. 7. The wheel washer according to claim 4, further comprising a unit that slides the washing unit in the front-rear direction until it is detected that the roller of the washing unit is in contact with the outer peripheral surface of the wheel.   The wheel washing machine according to any one of claims 1 to 7, wherein the washing unit is provided with a brush that slides on the surface of the wheel when the washing unit surrounds the wheel.   9. The wheel washer according to claim 8, wherein the washing unit is provided with a brush that slides on the outer peripheral surface of the wheel when the washing unit surrounds the wheel.   The wheel washing machine according to claim 8 or 9, wherein the washing unit is provided with a brush that slides on the side surface of the wheel when the washing unit surrounds the wheel.   The cleaning unit is provided with a brush in which the tips of the bristles are arranged in a substantially U shape as a brush that slides on the surface of the wheel when the cleaning unit surrounds the wheel. 8. The wheel washer according to 8.   As a brush that slides in contact with the wheel surface when the cleaning unit is in a state surrounding the wheel, the hair is planted on the outer periphery of the roller, and the shaft rotates in a state of sliding in contact with the wheel. The wheel washer according to any one of claims 8 to 11, wherein a brush is provided.   The wheel according to any one of claims 8 to 12, wherein a brush that is in sliding contact with the surface of the wheel when the cleaning unit surrounds the wheel is detachably attached to the cleaning unit. washing machine.   14. The wheel washer according to any one of claims 1 to 13, wherein the endless belt has a structure that sinks along the shape of the wheel while the wheel is placed on the upper surface thereof.   A plurality of parallel support rollers for supporting the endless belt are provided, and a roller group including at least a part of the support rollers is formed to be vertically movable along the shape of the wheel placed on the endless belt. The wheel washer according to claim 14, characterized by comprising:   16. A hair made of a water-absorbing material is raised on the outer surface of the endless belt, and the hair is inclined in one of the front and rear directions on the upper surface of the endless belt. The wheel washer as described in   The wheel washer according to any one of claims 1 to 16, wherein a brush is partially formed on the outer surface of the endless belt.   The plurality of parallel support rollers for supporting the endless belt are formed so as to be rotatable between a state in which the support rollers are arranged substantially horizontally and a state in which one end side springs upward. The wheel washer according to any one of 17.   The wheel washer according to any one of claims 1 to 18, wherein a support roller for supporting an end portion of the endless belt in the front-rear direction is formed so as to be movable in a direction to loosen a tension applied to the endless belt. .   The wheel washer according to any one of claims 1 to 19, wherein a receiving tray is provided below the endless belt.   The wheel washer according to any one of claims 1 to 20, further comprising a brush that is in sliding contact with the endless belt on an outer surface other than the upper surface of the endless belt.   The wheel washer according to any one of claims 1 to 21, further comprising a scraper that is in sliding contact with the endless belt on an outer surface other than the upper surface of the endless belt.   The wheel washer according to any one of claims 1 to 22, further comprising a clamping roller for clamping the endless belt from the outer surface side and the inner surface side at a place other than the upper surface of the endless belt.   The wheel washer according to any one of claims 1 to 23, further comprising an air ejector that ejects air to an outer surface of the endless belt at a place other than the upper surface of the endless belt.   The wheel washer according to any one of claims 1 to 24, further comprising a cover that covers an upper surface of the endless belt.   A washing machine body with an endless belt, and a lifter that is installed between the washing machine body and the floor surface and is driven up and down between the position of the upper surface of the washing machine body and the floor surface. The wheel washer according to any one of claims 1 to 25.   The wheel washer according to any one of claims 1 to 25, further comprising: a washing machine body having an endless belt; and a lifter that drives the washing machine body up and down.   The sensor which detects the presence or absence of the foreign material in places other than the mounting position of the wheel at the time of wheel washing | cleaning on the washing machine main body provided with the endless belt is comprised. The wheel washer as described in   The wheel washer according to any one of claims 1 to 28, wherein the wheel washer is formed so as to be foldable.   30. The cleaning unit according to any one of claims 1 to 29, wherein the cleaning unit includes a spout for spouting steam from both sides of the wheel toward the wheel side in a state of surrounding the wheel. Wheel washer.   The wheel washer according to any one of claims 1 to 30, further comprising a moving wheel at a lower portion. With the cleaning unit disposed at a predetermined standby position, at least the outer surface of the vehicle is mounted on the upper surface of an endless belt formed of a water-absorbing material, and the cleaning unit is in a predetermined position with respect to the wheel. Based on the detection result by the detecting means for detecting whether or not the vehicle is moved, the washing unit is slid from the standby position in the front-rear direction and the left-right direction and moved to the position surrounding the wheel from the front or rear. A wheel cleaning method comprising: cleaning a wheel by rotating an endless belt at a predetermined steady speed while suppressing steam while jetting steam from the cleaning unit toward the wheel. With the cleaning unit placed at a predetermined standby position, the vehicle wheel is placed on the upper surface of an endless belt formed of a material having at least an outer surface that absorbs water, and the endless belt is rotated at a low speed and then cleaned. Based on the detection result by the detection means for detecting whether the unit is at a predetermined position with respect to the wheel, the cleaning unit is slid in the front-rear direction and the left-right direction from the standby position, and the wheel is moved forward or backward. The wheel is washed by rotating the endless belt at a predetermined steady speed while suppressing the movement of the vehicle by moving it to a surrounding position and jetting steam from the washing unit toward the wheel. Wheel cleaning method to do.

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