JP2020130979A - Multifunctional vehicle clean brush - Google Patents

Abstract

To provide a multifunctional vehicle clean brush.SOLUTION: A multifunctional vehicle clean brush comprises a hand held lever, and a rotor body can rotate in the hand held lever. Revolving bodies are symmetrically installed on both ends of the rotor body so as to rotate, one of the revolving bodies are described in detail as an example. On the revolving body, 36 sets of clean brushes are distributed and installed in a uniform manner in a circumferential direction, the clean brushes are installed on the revolving body, and a device comprises an angle adjustment mechanism. In a facility, an integrated structure is further rational and sophisticated, attachment, maintenance and inspection/repair can be extremely conveniently performed. The device uses a rotary mechanism and a reverse mechanism, and a cleaning angle and a cleaning direction of the device can be adjusted and a cleaning range of the device can be extended. For enhancing the cleaning effect of the device, the device has a high usage frequency and is worth to be popularized.SELECTED DRAWING: Figure 1

Description

The present invention is related to the field of vehicle equipment, and specifically, is a multifunctional vehicle clean brush.

With the development of society, people's economic capacity is getting better and more, so more and more people have their own cars, but after using the car for a while, the inside of the car gets dirty and dusty, which affects the aesthetics of the car. Therefore, it is necessary to clean the inside and outside of the car on a regular basis.
Currently, cleaning the inside of a car is often done with fresh water, and cleaning with a clean brush is complicated, the step of cleaning the inside is complicated, the inclination angle inside the car is different, and the cleaning process is a process for the cleaner. It is complicated, the cleaning efficiency is relatively low, and the cleaning effect is not good.
Therefore, it is necessary to make further improvements to the existing technology car clean brush, which enhances the cleaning efficiency and cleaning effect.

Chinese Patent Application Publication No. 106379282

It is an object of the present invention to provide a multifunctional car clean brush, to overcome the above-mentioned drawbacks of existing technology, and to improve cleaning efficiency and cleaning effect.

The multifunctional car clean brush according to the present invention includes a hand-held lever and is installed so that the rotating body can rotate in the hand-held lever, and the rotating body is installed at both ends of the rotating body so that the rotating body can rotate symmetrically. Here, one side thereof will be introduced in detail as an example. Thirty-six sets of clean brushes are evenly distributed in the circumferential direction and installed on the rotating body, the clean brushes are installed on the rotating body, and the angle of the device is adjusted. A mechanism is installed, the angle adjusting mechanism includes a worm wheel and a worm, the worm wheel is fixedly provided at the right end of the clean brush, and a rotation driven shaft is installed in the rotation body so that the rotation driven shaft can rotate. The worm is fixedly provided on the outer end wall of the rotation driven shaft, the worm is engaged with the worm wheel, and a rotation power space is installed in the handheld lever. An angle adjusting power device is installed therein, the angle adjusting power device includes a rotary ring gear and a rotary power gear, the rotary ring gear is installed in the rotary power space, and the rotary ring gear is in the rotary power space. A transmission mechanism capable of adjusting the angle of the clean brush is installed between the rotary power gear and the angle adjustment mechanism, a rotation mechanism is installed in the corresponding device, and the rotation mechanism is a rotation power shaft. In the rotation power space, a rotation power space is installed in the rotation main body, and a rotation power shaft extending to the left and right is installed so as to be able to rotate in the rotation power space, and the right side of the rotation power shaft is installed. A rotation-driven bevel gear is fixedly installed at the end, and the left end of the rotation power shaft and the right end wall of the rotation body are fixedly connected, in which the drive mechanism connects the drive motor and the main power shaft. Including, a total power space is installed in the handheld lever, the main power shaft is installed so as to be able to rotate in the total power space, and the drive motor is installed in the right end wall of the total power space. It is fixedly installed, the right end of the main power shaft and the drive motor are connected so that power can be transmitted, and the rotation body is driven and rotated between the rotation mechanism and the drive mechanism. A transmission mechanism that can be installed is installed.

Preferably, the rotating sleeve shaft is installed on the outer end wall of the main power shaft so that the rotating sleeve shaft can slide, and the rotating sleeve shaft and the main power shaft are engaged by a spline (not shown) in the rotating power space. The rotation mandrel extending to the left and right is installed so that it can rotate, and a rotation main driving umbrella gear is fixedly installed at the left end of the rotation mandrel in the rotation power space, and the rotation mandrel is the rotation. It is disengaged from the engagement with the sleeve shaft, and the rotation transmission mandrel extending back and forth is installed in the rotation power space so as to be able to rotate, and the rotation transmission mandrel is disengaged from the engagement with the rotation sleeve shaft. A rotation transmission bevel gear is fixedly installed at the front end of the rotation transmission mandrel, and the rotation transmission bead gear is in the rotation power space when the rotation-sliding bead gear and the rotation main drive bevel gear are engaged with each other. A synchronous main spindle gear is fixedly installed on the outer end wall of the rotational mandrel, and the synchronous main spindle gear is located on the right side of the rotational main spindle gear and extends to the left and right in the rotational power space. The rotational synchronous transmission shaft is installed so that it can rotate, a synchronous left transmission cap gear is fixedly installed at the left end of the rotational synchronous transmission shaft, and a synchronous right transmission cap gear is fixedly installed at the right end of the rotational synchronous transmission shaft. It is fixedly installed, the synchronous left transmission cap gear and the synchronous main drive cap gear mesh with each other, and the synchronous driven cap gear is fixedly installed on the rotating main body on the right side, and the synchronous driven cap gear and the synchronous right It is advantageous that the transmission bevel gears mesh with each other to drive and rotate the rotating main bodies on both the left and right sides, and the surface of the car can be conveniently cleaned.

Preferably, a rotation adjustment space is installed in the rotation main body, an adjustment transmission space is installed in the bottom end wall of the rotation adjustment space, and between the adjustment transmission space and the rotation adjustment space. Is installed so that the rotating main shaft extending up and down can rotate, and an upper rotation transmission bevel gear is fixedly installed at the top end of the rotating main shaft in the rotation adjusting space. A rotary driven gear is fixedly installed at the right end of the rotary driven shaft inside, and the rotary driven gear and the upper rotary transmission gear mesh with each other, and the rotation in the adjustment transmission space. A lower rotation transmission bevel gear is fixedly installed at the right end of the main driving shaft, and is installed between the adjustment transmission space and the rotation power space so that the rotation input shaft extending to the left and right can be rotated. A rotary main gear is fixedly installed at the left end of the rotary input shaft in the adjustment transmission space, and the rotary main gear and the lower rotary transmission gear mesh with each other to enter the rotational power space. A rotation driven pulley is fixedly installed at the right end of the rotation input shaft, and a rotation output shaft extending to the left and right is installed in the rotation power space so as to rotate, and the synchronous driven bevel gear is installed. A rotary sleeve block is fixedly installed at the right end of the rotary output shaft so as to be rotatable on the outer end wall of the rotary output shaft, and the left end of the rotary output shaft in the rotary power space. A rotary driving pulley is fixedly installed in the wheel, and a rotary transmission shaft extending to the left and right is installed in the rotational power space so that the rotary transmission shaft can rotate, and a left rotary transmission pulley is installed at the left end of the rotary transmission shaft. It is fixedly installed, the left rotation belt is installed between the left rotation transmission pulley and the rotation driven pulley so that the left rotation belt can be transmitted, and the right rotation transmission pulley is fixedly installed at the right end of the rotation transmission shaft. The right rotation belt is installed between the right rotation transmission pulley and the rotation main drive pulley so that the right rotation belt can be transmitted, and the rotation sleeve shaft extending to the left and right can rotate in the total power space. A rotary driven gear is fixedly installed at the right end of the rotary sleeve shaft in the total power space, and a rotary mandrel is installed in the rotary sleeve shaft so as to slide left and right. A rotary mandrel is installed on the outer end wall of the rotary sleeve shaft, the rotary mandrel and the rotary sleeve shaft are engaged (not shown) by a spline, and the rotary sleeve shaft is disengaged from engagement with the rotary sleeve block. It is removed and installed between the total power space and the rotational power space so that the rotational power shaft extending to the left and right can rotate, and the right end of the rotational power shaft in the rotational power space and the said The rotary power gear is fixedly connected, and the rotary drive gear is fixedly installed at the left end of the rotary power shaft in the total power space, and the rotary drive gear and the rotary driven gear mesh with each other. It is advantageous to adjust the cleaning angle of the clean brush, and the cleaning range of this equipment is expanded.

Preferably, the reversing power space is installed in the left end wall of the rotating power space, and the reversing ring gear is installed in the reversing power space so as to be rotatable, and in the left end wall of the reversing power space. A lower reversing transmission space is installed in the vehicle, and a reversing power shaft extending to the left and right is installed between the lower reversing transmission space and the reversing power space so that the reversing power shaft can rotate. A reversing power gear is fixedly installed at the right end of the reversing power shaft in the reversing power space so as to be rotatable on the outer end wall of the above, and the reversing in the lower reversing transmission space. An inverted main gear is fixedly provided at the left end of the power shaft, and an upper inverted transmission space is installed in the top end wall of the lower inverted transmission space, and the upper inverted transmission space and the lower inverted transmission space are provided. A reversing main shaft extending up and down is installed between the two so that it can rotate, and a lower reversing transmission bevel gear is fixedly installed at the bottom end of the reversing main shaft in the lower reversing transmission space. The lower reversing transmission bevel gear and the reversing main driving bevel gear mesh with each other, and the upper reversing transmission bevel gear is fixedly installed at the top end of the reversing main driving shaft in the upper reversing transmission space, and the upper reversing transmission bead gear is fixedly installed. A left reversing transmission space is installed in the reversing transmission valve in the left end wall of the transmission space, and a reversing transmission shaft extending to the left and right is provided between the left reversing transmission space and the upper reversing transmission space. A right reversing transmission bevel gear is fixedly installed at the right end of the reversing transmission shaft in the upper reversing transmission space so as to be rotatable, and the right reversing transmission bevel gear and the upper reversing transmission bevel gear are installed. Is meshed with each other, and a left reversing transmission bevel gear is fixedly installed at the left end of the reversing transmission shaft in the left reversing transmission space, and a reversing driven shaft extending upward in the left reversing transmission space. Is installed so that it can rotate, and a reversing driven bevel gear is fixedly installed at the top end of the reversing driven shaft in the left reversing transmission space, and the reversing driven bevel gear meshes with the left reversing transmission bevel gear. .. The bottom end of the reversing driven shaft and the top end wall of the rotating body are fixedly connected, which is advantageous for reversing the angle of the rotating body and changes the cleaning direction of the apparatus.

Preferably, a connected slide space is installed in the bottom end wall of the lower inverted transmission space so that the articulated power shaft extending up and down can rotate between the articulated slide space and the lower inverted transmission space. The articulated power cap gear is fixedly installed at the top end of the articulated power shaft in the lower reversing transmission space, and the articulated power cap gear and the reversing main power cap gear are meshed with each other. An articulated cam is fixedly installed at the bottom end of the articulated power shaft in the articulated slide space, and the articulated lever is installed in the articulated slide space so that the articulated lever can slide left and right, and is on the right side of the articulated lever. The end is engaged with the articulated cam, the articulated slide block is installed in the handheld lever so as to slide left and right, and the articulated slide block is installed so as to be rotatable on the outer end wall of the rotating mandrel. A crimping spring is elastically installed between the right end wall of the articulated slide block and the left end wall of the handheld lever, and the left end of the articulated lever and the right end of the articulated slide block are fixedly fixed. It is advantageous to be connected and transfer power to the clean brush of the facility.

The equipment is more rational and clever in terms of the overall structure, very convenient for installation, maintenance and inspection and repair, and this device utilizes a rotating mechanism and a reversing mechanism, the cleaning angle of the device and This device is worth high use and widespread use because the cleaning direction can be adjusted, the cleaning range of this device can be widened, and the cleaning effect of this device can be enhanced.

In order to explain the examples of the invention or the technical ideas in the existing technology in more detail, the following is a brief introduction to the illustrations necessary to explain the examples or the existing technology, and as is clear, The illustrations described below are merely examples of a portion of the invention, and those skilled in the art can obtain other illustrations based on these illustrations without having to pay creative labor.

FIG. 1 is a schematic view of the overall structure of the multifunctional car clean brush of the present invention. FIG. 2 is a schematic structure diagram at A in FIG. FIG. 3 is a schematic structure diagram at B in FIG.

Other than the mutually exclusive features or steps, all features published in this document, or all published methods or steps in the process, can be combined in any manner.

All features published in this document may be replaced by alternative features that have other equivalent or similar purposes, except for special description, i.e., except for special description, all features are just a series. It is an example of the equivalent or similar characteristics of.

In the description of the present invention, it is necessary to understand "center", "vertical", "horizontal", "length", "width", "thickness", "top", "bottom", "front", Terms such as "rear", "right", "left", "vertical", "horizontal", "top", "bottom", "inside" and "outside", "clockwise", "counterclockwise" The indicated orientations and positional relationships are orientations and positional relationships based on the attached drawings, and the equipment or parts shown have specific orientations and are specified for convenience in the description of the present invention and for simplification of depiction only. It is not assembled and manipulated in orientation and therefore cannot be understood as limiting the invention.

As shown in FIGS. 1-3, the present invention is a multifunctional car clean brush, which includes a hand-held lever 143, is installed so that the rotating main body 142 can rotate in the hand-held lever 143, and rotates at both ends of the rotating main body 142. The main body 141 is installed so that it can rotate symmetrically. Here, one side thereof is introduced in detail as an example. Thirty-six sets of clean brushes 111 are evenly distributed in the circumferential direction and installed on the rotating main body 141. A brush 111 is installed on the rotating body 141, an angle adjusting mechanism is installed in the device, the angle adjusting mechanism includes a worm wheel 112 and a worm 113, and the worm wheel 112 is fixed to the right end of the clean brush 111. The rotation driven shaft 147 is installed in the rotation main body 141 so as to be rotatable, the worm 113 is fixedly provided on the outer end wall of the rotation driven shaft 147, and the worm 113 is the worm. Engaged with the wheel 112, a rotational power space 179 is installed in the handheld lever 143, an angle adjustment power device is installed in the rotational power space 179, and the angle adjustment power device is a rotary ring gear 130. And the rotary power gear 131, the rotary ring gear 130 is installed in the rotary power space 179, the rotary ring gear 130 is installed in the rotary power space 179, and the rotary power gear 131 and the angle adjustment. A transmission mechanism capable of adjusting the angle of the clean brush 111 is installed between the mechanism and the mechanism, a rotation mechanism is installed in the corresponding device, and the rotation mechanism includes a rotation power shaft 155, among which the rotation body 142 A rotation power space 170 is installed in the rotation power space 170, and a rotation power shaft 155 extending to the left and right is installed in the rotation power space 170 so as to be able to rotate, and a rotation driven umbrella is installed at the right end of the rotation power shaft 155. The gear 157 is fixedly installed, and the left end of the turning power shaft 155 and the right end wall of the turning body 141 are fixedly connected, in which the drive mechanism includes the drive motor 137 and the main power shaft 138. , The total power space 176 is installed in the handheld lever 143, the main power shaft 138 is installed so as to be able to rotate in the total power space 176, and the drive motor 137 is installed at the right end of the total power space 176. It is fixedly installed in the end wall, the right end of the main power shaft 138 and the drive motor 137 are connected so that power can be transmitted, and the front between the rotation mechanism and the drive mechanism. A transmission mechanism that can drive and rotate the rotating main body 141 is installed.

For useful purposes, the rotating mechanism of the present application is introduced in detail with reference to FIGS. 1-3, in which the rotating sleeve shaft 174 is slidably installed on the outer end wall of the main power shaft 138. The rotation sleeve shaft 174 and the main power shaft 138 are engaged by a spline (not shown), and a rotation mandrel 181 extending to the left and right is installed in the rotation power space 170 so as to be able to rotate. A rotation main driving umbrella gear 160 is fixedly installed at the left end of the rotation mandrel 181 in the power space 170, the rotation mandrel 181 is disengaged from the engagement with the rotation sleeve shaft 174, and the rotation power space 170 A rotation transmission mandrel 158 extending back and forth is installed inside so that the rotation transmission mandrel 158 can rotate, the rotation transmission mandrel 158 is disengaged from the engagement with the rotation sleeve shaft 174, and the rotation transmission mandrel 158 is located at the front end of the rotation transmission mandrel 158. The rotation transmission umbrella gear 159 is fixedly installed, and the rotation transmission umbrella gear 159 meshes with the rotation driven umbrella gear 157 and the rotation main driving umbrella gear 160, and the rotation mandrel 181 in the rotation power space 170. A synchronous main spindle gear 162 is fixedly installed on the outer end wall, the synchronous main spindle gear 162 is located on the right side of the rotary main spindle gear 160, and extends to the left and right in the rotational power space 170. The rotational synchronous transmission shaft 163 is installed so as to be rotatable, a synchronous left transmission cap gear 161 is fixedly installed at the left end of the rotational synchronous transmission shaft 163, and a synchronous right is fixedly installed at the right end of the rotational synchronous transmission shaft 163. The transmission cap gear 165 is fixedly installed, the synchronous left transmission cap gear 161 and the synchronous main power cap gear 162 mesh with each other, and the synchronous driven cap gear 166 is fixedly installed on the rotating main body 141 on the right side. It is advantageous that the synchronous driven umbrella gear 166 and the synchronous right transmission umbrella gear 165 mesh with each other to drive and rotate the rotating main body 141 on both the left and right sides, and the surface of the car can be conveniently cleaned.

For useful purposes, the angle adjustment mechanism of the present application is introduced in detail with reference to FIGS. 1 to 3, in which the rotation adjustment space 145 is installed in the rotation main body 141, and the rotation adjustment space 145 An adjustment transmission space 172 is installed in the bottom end wall, and a rotation main shaft 148 extending up and down is installed between the adjustment transmission space 172 and the rotation adjustment space 145 so as to be able to rotate. An upper rotation transmission umbrella gear 144 is fixedly installed at the top end of the rotation driven shaft 148 in the rotation adjustment space 145, and at the right end of the rotation driven shaft 147 in the rotation adjustment space 145. A rotary driven axle gear 146 is fixedly installed, and the rotary driven axle gear 146 and the upper rotary transmission umbrella gear 144 mesh with each other, and the lower end of the rotary drive shaft 148 in the adjustment transmission space 172 is located below. The rotation transmission bevel gear 152 is fixedly installed, and is installed between the adjustment transmission space 172 and the rotation power space 170 so that the rotation input shaft 154 extending to the left and right can be rotated. A rotary main spindle gear 153 is fixedly installed at the left end of the rotary input shaft 154 inside, and the rotary main spindle gear 153 and the lower rotary transmission umbrella gear 152 mesh with each other to form the rotational power space 170. A rotation driven pulley 156 is fixedly installed at the right end of the rotation input shaft 154 inside, and a rotation output shaft 167 extending to the left and right is installed in the rotation power space 170 so that it can rotate. The synchronous driven umbrella gear 166 is installed so as to be rotatable on the outer end wall of the rotary output shaft 167, and a rotary sleeve block 168 is fixedly installed at the right end of the rotary output shaft 167, and the rotary power space 170. A rotary drive pulley 164 is fixedly installed at the left end of the rotary output shaft 167 inside, and a rotary transmission shaft 150 extending to the left and right is installed in the rotary power space 170 so that it can rotate. A left rotation transmission pulley 149 is fixedly installed at the left end of the rotation transmission shaft 150, and a left rotation belt 151 is installed between the left rotation transmission pulley 149 and the rotation driven pulley 156 so that the left rotation belt 151 can be transmitted. A right rotation transmission pulley 171 is fixedly installed at the right end of the rotation transmission shaft 150 so that a right rotation belt 169 can be transmitted between the right rotation transmission pulley 171 and the rotation main pulley 164. The rotating sleeve shaft 175 that is installed and extends to the left and right can rotate in the total power space 176. A rotary driven gear 178 is fixedly installed at the right end of the rotary sleeve shaft 175 in the total power space 176, and a rotary mandrel 173 slides left and right in the rotary sleeve shaft 175. The rotating mandrel 173 is installed on the outer end wall of the rotating sleeve shaft 174 so that the rotating mandrel 173 and the rotating sleeve shaft 175 are engaged (undisplayed) by a spline, and the rotating sleeve shaft is engaged. The 175 is disengaged from the engagement with the rotary sleeve block 168, and a rotary power shaft 127 extending to the left and right is installed between the total power space 176 and the rotary power space 179 so as to rotate. The right end of the rotary power shaft 127 in the power space 179 and the rotary power gear 131 are fixedly connected, and the rotary drive is connected to the left end of the rotary power shaft 127 in the total power space 176. The gear 177 is fixedly installed, and the rotary main gear 177 and the rotary driven gear 178 mesh with each other, which is advantageous for adjusting the cleaning angle of the clean brush 111, and expands the cleaning range of this equipment.

In a useful manner, the reversing mechanism of the present application is introduced in detail with reference to FIGS. 1 to 3, in which the reversing power space 180 is installed in the left end wall of the rotating power space 179, and the reversing is performed. The reversing ring gear 128 is installed in the power space 180 so as to be rotatable, and the lower reversing transmission space 124 is installed in the left end wall of the reversing power space 180, and the lower reversing transmission space 124 and the reversing power are installed. The reversing power shaft 126 extending to the left and right is installed between the space 180 and the space 180 so as to be rotatable, and the reversing power shaft 126 is installed so as to be rotatable on the outer end wall of the rotating power shaft 127. A reversing power gear 129 is fixedly installed at the right end of the reversing power shaft 126 in the space 180, and a reversing driving umbrella is fixedly installed at the left end of the reversing power shaft 126 in the lower reversing transmission space 124. A gear 125 is fixedly provided, an upper inversion transmission space 120 is installed in the top end wall of the lower inversion transmission space 124, and an upper inversion transmission space 120 and the lower inversion transmission space 124 are separated from each other. The reversing main shaft 122 extending vertically is installed so as to be rotatable, and the lower reversing transmission bevel gear 123 is fixedly installed at the bottom end of the reversing main shaft 122 in the lower reversing transmission space 124. The lower reversing transmission bevel gear 123 and the reversing main driving bevel gear 125 mesh with each other, and the upper reversing transmission bevel gear 121 is fixedly installed at the top end of the reversing main driving shaft 122 in the upper reversing transmission space 120. A left reversing transmission space 116 is installed in the reversing transmission valve in the left end wall of the upper reversing transmission space 120, and left and right between the left reversing transmission space 116 and the upper reversing transmission space 120. The reversing transmission shaft 118 extending to is installed so as to be rotatable, and the right reversing transmission bevel gear 119 is fixedly installed at the right end of the reversing transmission shaft 118 in the upper reversing transmission space 120. The right reversing transmission bevel gear 119 and the upper reversing transmission bevel gear 121 mesh with each other, and the left reversing transmission bevel gear 117 is fixedly installed at the left end of the reversing transmission shaft 118 in the left reversing transmission space 116. The inverted driven shaft 114 extending upward is installed in the left inverted transmission space 116 so as to be rotatable, and the inverted driven umbrella is located at the top end of the inverted driven shaft 114 in the left inverted transmission space 116. The gear 115 is fixedly installed, and the reversing driven gear 115 meshes with the left reversing transmission gear 117. The bottom end of the reversing driven shaft 114 and the top end wall of the rotating body 142 are fixedly connected, which is advantageous in reversing the angle of the rotating body 142 and changes the cleaning direction of the apparatus.

For useful purposes, the articulated mechanism of the present application was introduced in detail with reference to FIGS. 1 to 3, and among them, the articulated slide space 135 was installed in the bottom end wall of the lower inverted transmission space 124. An articulated power shaft 133 extending up and down is installed between the articulated slide space 135 and the lower inverted transmission space 124 so as to be rotatable, and the top of the articulated power shaft 133 in the lower inverted transmission space 124 is installed. The articulated power cap gear 132 is fixedly installed at the end, and the articulated power cap gear 132 and the reversing driven cap gear 125 are meshed with each other, and the bottom end of the articulated power shaft 133 in the articulated slide space 135. The articulated cam 134 is fixedly installed in the vehicle, and the articulated lever 136 is installed in the articulated slide space 135 so that the articulated lever 136 can slide left and right, and the right end of the articulated lever 136 and the articulated cam 134 are engaged with each other. The articulated slide block 139 is installed in the handheld lever 143 so as to be slid to the left and right, and the articulated slide block 139 is installed so as to be rotatable on the outer end wall of the rotating mandrel 173. A crimping spring 184 is elastically installed between the right end wall of the 139 and the left end wall of the handheld lever 143, and the left end of the articulated lever 136 and the right end of the articulated slide block 139 are fixedly fixed. It is advantageous to be connected and transfer power to the clean brush of the facility.

Below, the applicant details the steps in using the clean brush with reference to Figure 1-3 and the specific configuration of the multifunctional car clean brush of the present application described above: First, when in the initial state. , The connecting cam 134 is disengaged from the engagement with the connecting lever 136, the connecting slide block 139 and the rotating main body 141 on the right side are engaged, and the rotating mandrel 181 and the rotating sleeve shaft 174 are engaged. Combined, the rotating mandrel 173 and the rotating sleeve block 168 are engaged;

When the device is used, the drive motor 137 starts to operate, the drive motor 137 drives and rotates the main power shaft 138, and the main power shaft 138 drives and rotates the rotating sleeve shaft 174. The rotation sleeve shaft 174 drives and rotates the rotation mandrel 181, the rotation mandrel 181 drives and rotates the rotation main driving bevel gear 160, and the rotation main driving bevel gear 160 drives the rotation transmission bead gear 159. The rotation transmission bevel gear 159 drives and rotates the rotation and slave gear 157, the rotation and slave gear 157 drives and rotates the rotation power shaft 155, and the rotation power shaft 155 is rotated. The front rotation main body 141 is driven and rotated, and at the same time, the rotating mandrel 181 drives and rotates the synchronous driving bevel gear 162, and the synchronous driving bead gear 162 drives the synchronous left transmission bead gear 161. Rotated, the synchronous left transmission bevel gear 161 drives and rotates the rotational synchronous transmission shaft 163, the rotational synchronous transmission shaft 163 drives and rotates the synchronous right transmission bevel gear 165, and the synchronous right transmission umbrella The gear 165 drives and rotates the synchronous driven axle gear 166, the synchronous driven axle gear 166 drives and rotates the rotating main body 141 on the right side, and the rotating main body 141 cleans the surface of the car.

When changing the angle of the clean brush, the user rotates the rotary ring gear 130, the rotary ring gear 130 drives and rotates the rotary power gear 131, and the rotary power gear 131 drives the rotary power shaft 127. The rotary power shaft 127 drives and rotates the rotary drive gear 177, the rotary drive gear 177 drives and rotates the rotary driven gear 178, and the rotary driven gear 178 drives the rotary sleeve shaft. The rotary sleeve shaft 175 drives and rotates the rotary mandrel 173, the rotary mandrel 173 drives and rotates the rotary sleeve block 168, and the rotary sleeve block 168 rotates. The output shaft 167 is driven to rotate, the rotary output shaft 167 drives and rotates the rotary main pulley 164, and the rotary main pulley 164 drives and rotates the right rotation transmission pulley 171 to rotate the right rotation. The transmission pulley 171 drives and rotates the rotation transmission shaft 150, the rotation transmission shaft 150 drives and rotates the left rotation transmission pulley 149, and the left rotation transmission pulley 149 drives the rotation driven pulley 156. The rotary driven pulley 156 drives and rotates the rotary input shaft 154, the rotary input shaft 154 drives and rotates the rotary main gear 153, and the rotary main gear 153 drives the lower gear. The rotation transmission bevel gear 152 is driven to rotate, the lower rotation transmission bevel gear 152 drives and rotates the rotation main shaft 148, and the rotation main shaft 148 drives and rotates the upper rotation transmission bevel gear 144. The upper rotary transmission bevel gear 144 drives and rotates the rotary driven bevel gear 146, the rotary driven bevel gear 146 drives and rotates the rotary driven shaft 147, and the rotary driven shaft 147 is the worm. The worm 113 drives and rotates the worm wheel 112, and the worm wheel 112 drives and rotates the clean brush 111 to change the cleaning angle of the clean brush.

When reversing the clean brush, the user rotates the reversing ring gear 128, the reversing ring gear 128 drives and rotates the reversing power gear 129, and the reversing power gear 129 drives the reversing power shaft 126. Rotated, the reversing power shaft 126 drives and rotates the reversing driven bevel gear 125, the reversing driving bevel gear 125 drives and rotates the articulated power cap gear 132, and the articulated power cap gear 132 is said. The articulated power shaft 133 is driven to rotate, the articulated power shaft 133 drives and rotates the articulated cam shaft 134, the articulated cam 134 and the articulated lever 136 are engaged, and the articulated cam 134 is said to be said. The articulating lever 136 is interlocked and slid to the right, the articulating lever 136 is interlocked with the slide block 139 and slid to the right, the articulated slide block 139 is disengaged from the rotation main body 141, and the articulated slide is disengaged. The block 139 slides the rotating mandrel 173 and the rotating sleeve shaft 174 to the right in conjunction with each other, the rotating mandrel 173 is disengaged from the engagement with the rotating sleeve block 168, and the rotating sleeve shaft 174 is the rotating mandrel 181. At the same time, the reversing main gear 125 drives and rotates the lower reversing transmission bevel gear 123, and the lower reversing transmission bevel gear 123 drives and rotates the reversing main shaft 122. The reversing main driving shaft 122 drives and rotates the upper reversing transmission bevel gear 121, and the upper reversing transmission bevel gear 121 drives and rotates the right reversing transmission bevel gear 119. 119 drives and rotates the reverse transmission shaft 118, the reverse transmission shaft 118 drives and rotates the reverse driven gear 115, and the reverse driven gear 115 drives and rotates the reverse driven shaft 114. When the reversing driven shaft 114 drives and rotates the rotating main body 142, the rotating main body 142 drives and rotates the rotating main body 141, and the rotating main body 142 is rotated at 90 degrees, the above. The articulated cam 134 is disengaged from the engagement with the articulated lever 136, the articulated slide block 139 slides to the left by the action of the elastic energy of the articulated crimping spring 184, and the articulated slide block 139 slides to the left with the rotating mandrel 173. The rotating sleeve shaft 174 is interlocked and slid to the left, and the articulated slide block 139 and the rotating body 142 are brought together. When engaged, the rotation sleeve shaft 174 and the rotation transmission mandrel 158 are engaged to change the cleaning direction of the apparatus.

From the detailed analysis above, we can see that the rotating mechanism manually adjusts the angle of the clean brush to improve the cleaning effect, and the reversing mechanism can be used, allowing the operator to manually adjust the cleaning direction of the device. Can be adjusted to widen the cleaning range of the relevant device.

Therefore, the method of this application is more rational and sophisticated in terms of the overall structure, installation, maintenance and inspection and repair are both very convenient, and this device utilizes a rotating mechanism and a reversing mechanism. This device is worth high use and widespread use because it can adjust the cleaning angle and cleaning direction of the device, widen the cleaning range of this device, and enhance the cleaning effect of this device.

The above description is merely a specific embodiment of the invention, but the scope of protection of the invention is not limited to this, and all changes or replacements that can be conceived without the passage of creative labor are those of the invention. Included in the scope of protection. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims.

The present invention is related to the field of vehicle equipment, and specifically, is a multifunctional vehicle clean brush.

With the development of society, people's economic capacity is getting better and more, so more and more people have their own cars, but after using the car for a while, the inside of the car gets dirty and dusty, which affects the aesthetics of the car. Therefore, it is necessary to clean the inside and outside of the car on a regular basis.
Currently, cleaning the inside of a car is often done with fresh water, and cleaning with a clean brush is complicated, the step of cleaning the inside is complicated, the inclination angle inside the car is different, and the cleaning process is a process for the cleaner. It is complicated, the cleaning efficiency is relatively low, and the cleaning effect is not good.
Therefore, it is necessary to make further improvements to the existing technology car clean brush, which enhances the cleaning efficiency and cleaning effect.

Chinese Patent Application Publication No. 106379282

It is an object of the present invention to provide a multifunctional car clean brush, to overcome the above-mentioned drawbacks of existing technology, and to improve cleaning efficiency and cleaning effect.

The multifunctional car clean brush according to the present invention includes a hand-held lever and is installed so that the rotating body can rotate in the hand-held lever, and the rotating body is installed at both ends of the rotating body so that the rotating body can rotate symmetrically. Here, one side thereof will be introduced in detail as an example. Thirty-six sets of clean brushes are evenly distributed in the circumferential direction and installed on the rotating body, the clean brushes are installed on the rotating body, and the angle of the device is adjusted. A mechanism is installed, the angle adjusting mechanism includes a worm wheel and a worm, the worm wheel is fixedly provided at the right end of the clean brush, and a rotation driven shaft is installed in the rotation body so that the rotation driven shaft can rotate. The worm is fixedly provided on the outer end wall of the rotation driven shaft, the worm is engaged with the worm wheel, and a rotation power space is installed in the handheld lever. An angle adjusting power device is installed therein, the angle adjusting power device includes a rotary ring gear and a rotary power gear, the rotary ring gear is installed in the rotary power space, and the rotary ring gear is in the rotary power space. A transmission mechanism capable of adjusting the angle of the clean brush is installed between the rotary power gear and the angle adjustment mechanism, a rotation mechanism is installed in the corresponding device, and the rotation mechanism is a rotation power shaft. In the rotation power space, a rotation power space is installed in the rotation main body, and a rotation power shaft extending to the left and right is installed so as to be able to rotate in the rotation power space, and the right side of the rotation power shaft is installed. A rotation-driven bevel gear is fixedly installed at the end, and the left end of the rotation power shaft and the right end wall of the rotation body are fixedly connected, in which the drive mechanism connects the drive motor and the main power shaft. Including, a total power space is installed in the handheld lever, the main power shaft is installed so as to be able to rotate in the total power space, and the drive motor is installed in the right end wall of the total power space. It is fixedly installed, the right end of the main power shaft and the drive motor are connected so that power can be transmitted, and the rotation body is driven and rotated between the rotation mechanism and the drive mechanism. A transmission mechanism that can be installed is installed.

Preferably, the rotating sleeve shaft is installed on the outer end wall of the main power shaft so that the rotating sleeve shaft can slide, the rotating sleeve shaft and the main power shaft are connected by a spline, and the rotating sleeve shaft is connected to the left and right in the rotating power space. The extending rotation mandrel is installed so that it can rotate, and a rotation main spindle gear is fixedly installed at the left end of the rotation mandrel in the rotation power space, and the rotation mandrel engages with the rotation sleeve shaft. The rotation transmission mandrel is disengaged from the gear and installed in the rotation power space so that the rotation transmission mandrel extending back and forth can rotate, and the rotation transmission mandrel is disengaged from the engagement with the rotation sleeve shaft, and the rotation transmission mandrel is disengaged. A rotation transmission bevel gear is fixedly installed at the front end of the shaft, and the rotation transmission bead gear meshes with the rotation-sliding bead gear and the rotation main drive bevel gear to be outside the rotation mandrel in the rotation power space. A synchronous spindle gear is fixedly installed on the end wall, the synchronous spindle gear is located on the right side of the rotary spindle gear, and a rotation synchronous transmission shaft extending to the left and right is located in the rotational power space. It is installed so that it can rotate, and a synchronous left transmission cap gear is fixedly installed at the left end of the rotation synchronous transmission shaft, and a synchronous right transmission cap gear is fixedly installed at the right end of the rotation synchronous transmission shaft. , The synchronous left transmission cap gear and the synchronous main drive cap gear mesh with each other, and the synchronous driven cap gear is fixedly installed on the rotating main body on the right side, and the synchronous driven cap gear and the synchronous right transmission cap gear are connected to each other. It is advantageous to engage and drive and rotate the rotating main bodies on both the left and right sides, and the surface of the car can be conveniently cleaned.

Preferably, a rotation adjustment space is installed in the rotation main body, an adjustment transmission space is installed in the bottom end wall of the rotation adjustment space, and between the adjustment transmission space and the rotation adjustment space. Is installed so that the rotating main shaft extending up and down can rotate, and an upper rotation transmission bevel gear is fixedly installed at the top end of the rotating main shaft in the rotation adjusting space. A rotary driven gear is fixedly installed at the right end of the rotary driven shaft inside, and the rotary driven gear and the upper rotary transmission gear mesh with each other, and the rotation in the adjustment transmission space. A lower rotation transmission bevel gear is fixedly installed at the right end of the main driving shaft, and is installed between the adjustment transmission space and the rotation power space so that the rotation input shaft extending to the left and right can be rotated. A rotary main gear is fixedly installed at the left end of the rotary input shaft in the adjustment transmission space, and the rotary main gear and the lower rotary transmission gear mesh with each other to enter the rotational power space. A rotation driven pulley is fixedly installed at the right end of the rotation input shaft, and a rotation output shaft extending to the left and right is installed in the rotation power space so as to rotate, and the synchronous driven bevel gear is installed. A rotary sleeve block is fixedly installed at the right end of the rotary output shaft so as to be rotatable on the outer end wall of the rotary output shaft, and the left end of the rotary output shaft in the rotary power space. A rotary driving pulley is fixedly installed in the wheel, and a rotary transmission shaft extending to the left and right is installed in the rotational power space so that the rotary transmission shaft can rotate, and a left rotary transmission pulley is installed at the left end of the rotary transmission shaft. It is fixedly installed, the left rotation belt is installed between the left rotation transmission pulley and the rotation driven pulley so that the left rotation belt can be transmitted, and the right rotation transmission pulley is fixedly installed at the right end of the rotation transmission shaft. The right rotation belt is installed between the right rotation transmission pulley and the rotation main drive pulley so that the right rotation belt can be transmitted, and the rotation sleeve shaft extending to the left and right can rotate in the total power space. A rotary driven gear is fixedly installed at the right end of the rotary sleeve shaft in the total power space, and a rotary mandrel is installed in the rotary sleeve shaft so as to slide left and right. A rotary mandrel is installed on the outer end wall of the rotary sleeve shaft, the rotary mandrel and the rotary sleeve shaft are connected by a spline , the rotary sleeve shaft is disengaged from engagement with the rotary sleeve block, and the front Note: A rotary power shaft extending to the left and right is installed between the total power space and the rotary power space so that it can rotate, and the right end of the rotary power shaft and the rotary power gear in the rotary power space. Is fixedly connected, and a rotary main gear is fixedly installed at the left end of the rotary power shaft in the total power space, and the rotary drive gear and the rotary driven gear mesh with each other to clean the brush. It is advantageous to adjust the cleaning angle of the equipment, and the cleaning range of this equipment is expanded.

Preferably, the reversing power space is installed in the left end wall of the rotating power space, and the reversing ring gear is installed in the reversing power space so as to be rotatable, and in the left end wall of the reversing power space. A lower reversing transmission space is installed in the vehicle, and a reversing power shaft extending to the left and right is installed between the lower reversing transmission space and the reversing power space so that the reversing power shaft can rotate. A reversing power gear is fixedly installed at the right end of the reversing power shaft in the reversing power space so as to be rotatable on the outer end wall of the above, and the reversing in the lower reversing transmission space. An inverted main gear is fixedly provided at the left end of the power shaft, and an upper inverted transmission space is installed in the top end wall of the lower inverted transmission space, and the upper inverted transmission space and the lower inverted transmission space are provided. A reversing main shaft extending up and down is installed between the two so that it can rotate, and a lower reversing transmission bevel gear is fixedly installed at the bottom end of the reversing main shaft in the lower reversing transmission space. The lower reversing transmission bevel gear and the reversing main driving bevel gear mesh with each other, and the upper reversing transmission bevel gear is fixedly installed at the top end of the reversing main driving shaft in the upper reversing transmission space, and the upper reversing transmission bead gear is fixedly installed. A left reversing transmission space is installed in the reversing transmission valve in the left end wall of the transmission space, and a reversing transmission shaft extending to the left and right is provided between the left reversing transmission space and the upper reversing transmission space. A right reversing transmission bevel gear is fixedly installed at the right end of the reversing transmission shaft in the upper reversing transmission space so as to be rotatable, and the right reversing transmission bevel gear and the upper reversing transmission bevel gear are installed. Is meshed with each other, and a left reversing transmission bevel gear is fixedly installed at the left end of the reversing transmission shaft in the left reversing transmission space, and a reversing driven shaft extending upward in the left reversing transmission space. Is installed so that it can rotate, and a reversing driven bevel gear is fixedly installed at the top end of the reversing driven shaft in the left reversing transmission space, and the reversing driven bevel gear meshes with the left reversing transmission bevel gear. .. The bottom end of the reversing driven shaft and the top end wall of the rotating body are fixedly connected, which is advantageous for reversing the angle of the rotating body and changes the cleaning direction of the apparatus.

Preferably, a connected slide space is installed in the bottom end wall of the lower inverted transmission space so that the articulated power shaft extending up and down can rotate between the articulated slide space and the lower inverted transmission space. The articulated power cap gear is fixedly installed at the top end of the articulated power shaft in the lower reversing transmission space, and the articulated power cap gear and the reversing main power cap gear are meshed with each other. An articulated cam is fixedly installed at the bottom end of the articulated power shaft in the articulated slide space, and the articulated lever is installed in the articulated slide space so that the articulated lever can slide left and right, and is on the right side of the articulated lever. The end is engaged with the articulated cam, the articulated slide block is installed in the handheld lever so as to slide left and right, and the articulated slide block is installed so as to be rotatable on the outer end wall of the rotating mandrel. A crimping spring is elastically installed between the right end wall of the articulated slide block and the left end wall of the handheld lever, and the left end of the articulated lever and the right end of the articulated slide block are fixedly fixed. It is advantageous to be connected and transfer power to the clean brush of the facility.

The equipment is more rational and clever in terms of the overall structure, very convenient for installation, maintenance and inspection and repair, and this device utilizes a rotating mechanism and a reversing mechanism, the cleaning angle of the device and This device is worth high use and widespread use because the cleaning direction can be adjusted, the cleaning range of this device can be widened, and the cleaning effect of this device can be enhanced.

In order to explain the examples of the invention or the technical ideas in the existing technology in more detail, the following is a brief introduction to the illustrations necessary to explain the examples or the existing technology, and as is clear, The illustrations described below are merely examples of a portion of the invention, and those skilled in the art can obtain other illustrations based on these illustrations without having to pay creative labor.

FIG. 1 is a schematic view of the overall structure of the multifunctional car clean brush of the present invention. FIG. 2 is a schematic structure diagram at A in FIG. FIG. 3 is a schematic structure diagram at B in FIG.

Other than the mutually exclusive features or steps, all features published in this document, or all published methods or steps in the process, can be combined in any manner.

All features published in this document may be replaced by alternative features that have other equivalent or similar purposes, except for special description, i.e., except for special description, all features are just a series. It is an example of the equivalent or similar characteristics of.

In the description of the present invention, it is necessary to understand "center", "vertical", "horizontal", "length", "width", "thickness", "top", "bottom", "front", Terms such as "rear", "right", "left", "vertical", "horizontal", "top", "bottom", "inside" and "outside", "clockwise", "counterclockwise" The indicated orientations and positional relationships are orientations and positional relationships based on the attached drawings, and the equipment or parts shown have specific orientations and are specified for convenience in the description of the present invention and for simplification of depiction only. It is not assembled and manipulated in orientation and therefore cannot be understood as limiting the invention.

As shown in FIGS. 1-3, the present invention is a multifunctional car clean brush, which includes a hand-held lever 143, is installed so that the rotating main body 142 can rotate in the hand-held lever 143, and rotates at both ends of the rotating main body 142. The main body 141 is installed so that it can rotate symmetrically. Here, one side thereof is introduced in detail as an example. Thirty-six sets of clean brushes 111 are evenly distributed in the circumferential direction and installed on the rotating main body 141. A brush 111 is installed on the rotating body 141, an angle adjusting mechanism is installed in the device, the angle adjusting mechanism includes a worm wheel 112 and a worm 113, and the worm wheel 112 is fixed to the right end of the clean brush 111. The rotation driven shaft 147 is installed in the rotation main body 141 so as to be rotatable, the worm 113 is fixedly provided on the outer end wall of the rotation driven shaft 147, and the worm 113 is the worm. Engaged with the wheel 112, a rotational power space 179 is installed in the handheld lever 143, an angle adjustment power device is installed in the rotational power space 179, and the angle adjustment power device is a rotary ring gear 130. And the rotary power gear 131, the rotary ring gear 130 is installed in the rotary power space 179, the rotary ring gear 130 is installed in the rotary power space 179, and the rotary power gear 131 and the angle adjustment. A transmission mechanism capable of adjusting the angle of the clean brush 111 is installed between the mechanism and the mechanism, a rotation mechanism is installed in the corresponding device, and the rotation mechanism includes a rotation power shaft 155, among which the rotation body 142 A rotation power space 170 is installed in the rotation power space 170, and a rotation power shaft 155 extending to the left and right is installed in the rotation power space 170 so as to be able to rotate, and a rotation driven umbrella is installed at the right end of the rotation power shaft 155. The gear 157 is fixedly installed, and the left end of the turning power shaft 155 and the right end wall of the turning body 141 are fixedly connected, in which the drive mechanism includes the drive motor 137 and the main power shaft 138. , The total power space 176 is installed in the handheld lever 143, the main power shaft 138 is installed so as to be able to rotate in the total power space 176, and the drive motor 137 is installed at the right end of the total power space 176. It is fixedly installed in the end wall, the right end of the main power shaft 138 and the drive motor 137 are connected so that power can be transmitted, and the front between the rotation mechanism and the drive mechanism. A transmission mechanism that can drive and rotate the rotating main body 141 is installed.

For useful purposes, the rotating mechanism of the present application is introduced in detail with reference to FIGS. 1-3, in which the rotating sleeve shaft 174 is slidably installed on the outer end wall of the main power shaft 138. The rotation sleeve shaft 174 and the main power shaft 138 are connected by a spline, and a rotation mandrel 181 extending to the left and right is installed in the rotation power space 170 so as to be able to rotate in the rotation power space 170. A rotation main driving umbrella gear 160 is fixedly installed at the left end of the rotation mandrel 181 in the above, the rotation mandrel 181 is disengaged from the engagement with the rotation sleeve shaft 174, and the front and rear in the rotation power space 170. The rotation transmission mandrel 158 extending to is installed so as to be rotatable, the rotation transmission mandrel 158 is disengaged from the engagement with the rotation sleeve shaft 174, and the rotation transmission mandrel 158 is at the front end of the rotation transmission mandrel 158. Is fixedly installed, and the rotation transmission umbrella gear 159 meshes with the rotation driven umbrella gear 157 and the rotation main drive umbrella gear 160, and on the outer end wall of the rotation mandrel 181 in the rotation power space 170. The synchronous main spindle gear 162 is fixedly installed, the synchronous main spindle gear 162 is located on the right side of the rotational main spindle gear 160, and the rotational synchronous transmission shaft 163 extending to the left and right in the rotational power space 170. Is installed so that it can rotate, a synchronous left transmission cap gear 161 is fixedly installed at the left end of the rotation synchronous transmission shaft 163, and a synchronous right transmission cap gear 165 is fixedly installed at the right end of the rotation synchronous transmission shaft 163. The synchronous left transmission cap gear 161 and the synchronous main drive cap gear 162 are fixedly installed, and the synchronous driven cap gear 166 is fixedly installed on the rotating main body 141 on the right side, and the synchronous driven cap gear 166 is fixedly installed. It is advantageous that the 166 and the synchronous right transmission cap gear 165 mesh with each other to drive and rotate the rotating main body 141 on both the left and right sides, and the surface of the car can be conveniently cleaned.

For useful purposes, the angle adjustment mechanism of the present application is introduced in detail with reference to FIGS. 1 to 3, in which the rotation adjustment space 145 is installed in the rotation main body 141, and the rotation adjustment space 145 An adjustment transmission space 172 is installed in the bottom end wall, and a rotation main shaft 148 extending up and down is installed between the adjustment transmission space 172 and the rotation adjustment space 145 so as to be able to rotate. An upper rotation transmission umbrella gear 144 is fixedly installed at the top end of the rotation driven shaft 148 in the rotation adjustment space 145, and at the right end of the rotation driven shaft 147 in the rotation adjustment space 145. A rotary driven axle gear 146 is fixedly installed, and the rotary driven axle gear 146 and the upper rotary transmission umbrella gear 144 mesh with each other, and the lower end of the rotary drive shaft 148 in the adjustment transmission space 172 is located below. The rotation transmission bevel gear 152 is fixedly installed, and is installed between the adjustment transmission space 172 and the rotation power space 170 so that the rotation input shaft 154 extending to the left and right can be rotated. A rotary main spindle gear 153 is fixedly installed at the left end of the rotary input shaft 154 inside, and the rotary main spindle gear 153 and the lower rotary transmission umbrella gear 152 mesh with each other to form the rotational power space 170. A rotation driven pulley 156 is fixedly installed at the right end of the rotation input shaft 154 inside, and a rotation output shaft 167 extending to the left and right is installed in the rotation power space 170 so that it can rotate. The synchronous driven umbrella gear 166 is installed so as to be rotatable on the outer end wall of the rotary output shaft 167, and a rotary sleeve block 168 is fixedly installed at the right end of the rotary output shaft 167, and the rotary power space 170. A rotary drive pulley 164 is fixedly installed at the left end of the rotary output shaft 167 inside, and a rotary transmission shaft 150 extending to the left and right is installed in the rotary power space 170 so that it can rotate. A left rotation transmission pulley 149 is fixedly installed at the left end of the rotation transmission shaft 150, and a left rotation belt 151 is installed between the left rotation transmission pulley 149 and the rotation driven pulley 156 so that the left rotation belt 151 can be transmitted. A right rotation transmission pulley 171 is fixedly installed at the right end of the rotation transmission shaft 150 so that a right rotation belt 169 can be transmitted between the right rotation transmission pulley 171 and the rotation main pulley 164. The rotating sleeve shaft 175 that is installed and extends to the left and right can rotate in the total power space 176. A rotary driven gear 178 is fixedly installed at the right end of the rotary sleeve shaft 175 in the total power space 176, and a rotary mandrel 173 slides left and right in the rotary sleeve shaft 175. The rotary mandrel 173 is installed on the outer end wall of the rotary sleeve shaft 174, the rotary mandrel 173 and the rotary sleeve shaft 175 are connected by a spline , and the rotary sleeve shaft 175 is the rotary sleeve. Disengaged from the engagement with the block 168, a rotational power shaft 127 extending to the left and right is installed between the total power space 176 and the rotational power space 179 so as to rotate, and in the rotational power space 179. The right end of the rotary power shaft 127 and the rotary power gear 131 are fixedly connected to each other, and the rotary drive gear 177 is fixed to the left end of the rotary power shaft 127 in the total power space 176. The rotary main gear 177 and the rotary driven gear 178 mesh with each other, which is advantageous for adjusting the cleaning angle of the clean brush 111, and expands the cleaning range of the equipment.

In a useful manner, the reversing mechanism of the present application is introduced in detail with reference to FIGS. 1 to 3, in which the reversing power space 180 is installed in the left end wall of the rotating power space 179, and the reversing is performed. The reversing ring gear 128 is installed in the power space 180 so as to be rotatable, and the lower reversing transmission space 124 is installed in the left end wall of the reversing power space 180, and the lower reversing transmission space 124 and the reversing power are installed. The reversing power shaft 126 extending to the left and right is installed between the space 180 and the space 180 so as to be rotatable, and the reversing power shaft 126 is installed so as to be rotatable on the outer end wall of the rotating power shaft 127. A reversing power gear 129 is fixedly installed at the right end of the reversing power shaft 126 in the space 180, and a reversing driving umbrella is fixedly installed at the left end of the reversing power shaft 126 in the lower reversing transmission space 124. A gear 125 is fixedly provided, an upper inversion transmission space 120 is installed in the top end wall of the lower inversion transmission space 124, and an upper inversion transmission space 120 and the lower inversion transmission space 124 are separated from each other. The reversing main shaft 122 extending vertically is installed so as to be rotatable, and the lower reversing transmission bevel gear 123 is fixedly installed at the bottom end of the reversing main shaft 122 in the lower reversing transmission space 124. The lower reversing transmission bevel gear 123 and the reversing main driving bevel gear 125 mesh with each other, and the upper reversing transmission bevel gear 121 is fixedly installed at the top end of the reversing main driving shaft 122 in the upper reversing transmission space 120. A left reversing transmission space 116 is installed in the reversing transmission valve in the left end wall of the upper reversing transmission space 120, and left and right between the left reversing transmission space 116 and the upper reversing transmission space 120. The reversing transmission shaft 118 extending to is installed so as to be rotatable, and the right reversing transmission bevel gear 119 is fixedly installed at the right end of the reversing transmission shaft 118 in the upper reversing transmission space 120. The right reversing transmission bevel gear 119 and the upper reversing transmission bevel gear 121 mesh with each other, and the left reversing transmission bevel gear 117 is fixedly installed at the left end of the reversing transmission shaft 118 in the left reversing transmission space 116. The inverted driven shaft 114 extending upward is installed in the left inverted transmission space 116 so as to be rotatable, and the inverted driven umbrella is located at the top end of the inverted driven shaft 114 in the left inverted transmission space 116. The gear 115 is fixedly installed, and the reversing driven gear 115 meshes with the left reversing transmission gear 117. The bottom end of the reversing driven shaft 114 and the top end wall of the rotating body 142 are fixedly connected, which is advantageous in reversing the angle of the rotating body 142 and changes the cleaning direction of the apparatus.

For useful purposes, the articulated mechanism of the present application was introduced in detail with reference to FIGS. 1 to 3, and among them, the articulated slide space 135 was installed in the bottom end wall of the lower inverted transmission space 124. An articulated power shaft 133 extending up and down is installed between the articulated slide space 135 and the lower inverted transmission space 124 so as to be rotatable, and the top of the articulated power shaft 133 in the lower inverted transmission space 124 is installed. The articulated power cap gear 132 is fixedly installed at the end, and the articulated power cap gear 132 and the reversing driven cap gear 125 are meshed with each other, and the bottom end of the articulated power shaft 133 in the articulated slide space 135. The articulated cam 134 is fixedly installed in the vehicle, and the articulated lever 136 is installed in the articulated slide space 135 so that the articulated lever 136 can slide left and right, and the right end of the articulated lever 136 and the articulated cam 134 are engaged with each other. The articulated slide block 139 is installed in the handheld lever 143 so as to be slid to the left and right, and the articulated slide block 139 is installed so as to be rotatable on the outer end wall of the rotating mandrel 173. A crimping spring 184 is elastically installed between the right end wall of the 139 and the left end wall of the handheld lever 143, and the left end of the articulated lever 136 and the right end of the articulated slide block 139 are fixedly fixed. It is advantageous to be connected and transfer power to the clean brush of the facility.

Below, the applicant details the steps in using the clean brush with reference to Figure 1-3 and the specific configuration of the multifunctional car clean brush of the present application described above: First, when in the initial state. , The connecting cam 134 is disengaged from the engagement with the connecting lever 136, the connecting slide block 139 and the rotating main body 141 on the right side are engaged, and the rotating mandrel 181 and the rotating sleeve shaft 174 are engaged. Combined, the rotating mandrel 173 and the rotating sleeve block 168 are engaged;

When the device is used, the drive motor 137 starts to operate, the drive motor 137 drives and rotates the main power shaft 138, and the main power shaft 138 drives and rotates the rotating sleeve shaft 174. The rotation sleeve shaft 174 drives and rotates the rotation mandrel 181, the rotation mandrel 181 drives and rotates the rotation main driving bevel gear 160, and the rotation main driving bevel gear 160 drives the rotation transmission bead gear 159. The rotation transmission bevel gear 159 drives and rotates the rotation and slave gear 157, the rotation and slave gear 157 drives and rotates the rotation power shaft 155, and the rotation power shaft 155 is rotated. The front rotation main body 141 is driven and rotated, and at the same time, the rotating mandrel 181 drives and rotates the synchronous driving bevel gear 162, and the synchronous driving bead gear 162 drives the synchronous left transmission bead gear 161. Rotated, the synchronous left transmission bevel gear 161 drives and rotates the rotational synchronous transmission shaft 163, the rotational synchronous transmission shaft 163 drives and rotates the synchronous right transmission bevel gear 165, and the synchronous right transmission umbrella The gear 165 drives and rotates the synchronous driven axle gear 166, the synchronous driven axle gear 166 drives and rotates the rotating main body 141 on the right side, and the rotating main body 141 cleans the surface of the car.

When changing the angle of the clean brush, the user rotates the rotary ring gear 130, the rotary ring gear 130 drives and rotates the rotary power gear 131, and the rotary power gear 131 drives the rotary power shaft 127. The rotary power shaft 127 drives and rotates the rotary drive gear 177, the rotary drive gear 177 drives and rotates the rotary driven gear 178, and the rotary driven gear 178 drives the rotary sleeve shaft. The rotary sleeve shaft 175 drives and rotates the rotary mandrel 173, the rotary mandrel 173 drives and rotates the rotary sleeve block 168, and the rotary sleeve block 168 rotates. The output shaft 167 is driven to rotate, the rotary output shaft 167 drives and rotates the rotary main pulley 164, and the rotary main pulley 164 drives and rotates the right rotation transmission pulley 171 to rotate the right rotation. The transmission pulley 171 drives and rotates the rotation transmission shaft 150, the rotation transmission shaft 150 drives and rotates the left rotation transmission pulley 149, and the left rotation transmission pulley 149 drives the rotation driven pulley 156. The rotary driven pulley 156 drives and rotates the rotary input shaft 154, the rotary input shaft 154 drives and rotates the rotary main gear 153, and the rotary main gear 153 drives the lower gear. The rotation transmission bevel gear 152 is driven to rotate, the lower rotation transmission bevel gear 152 drives and rotates the rotation main shaft 148, and the rotation main shaft 148 drives and rotates the upper rotation transmission bevel gear 144. The upper rotary transmission bevel gear 144 drives and rotates the rotary driven bevel gear 146, the rotary driven bevel gear 146 drives and rotates the rotary driven shaft 147, and the rotary driven shaft 147 is the worm. The worm 113 drives and rotates the worm wheel 112, and the worm wheel 112 drives and rotates the clean brush 111 to change the cleaning angle of the clean brush.

When reversing the clean brush, the user rotates the reversing ring gear 128, the reversing ring gear 128 drives and rotates the reversing power gear 129, and the reversing power gear 129 drives the reversing power shaft 126. Rotated, the reversing power shaft 126 drives and rotates the reversing driven bevel gear 125, the reversing driving bevel gear 125 drives and rotates the articulated power cap gear 132, and the articulated power cap gear 132 is said. The articulated power shaft 133 is driven to rotate, the articulated power shaft 133 drives and rotates the articulated cam shaft 134, the articulated cam 134 and the articulated lever 136 are engaged, and the articulated cam 134 is said to be said. The articulating lever 136 is interlocked and slid to the right, the articulating lever 136 is interlocked with the slide block 139 and slid to the right, the articulated slide block 139 is disengaged from the rotation main body 141, and the articulated slide is disengaged. The block 139 slides the rotating mandrel 173 and the rotating sleeve shaft 174 to the right in conjunction with each other, the rotating mandrel 173 is disengaged from the engagement with the rotating sleeve block 168, and the rotating sleeve shaft 174 is the rotating mandrel 181. At the same time, the reversing main gear 125 drives and rotates the lower reversing transmission bevel gear 123, and the lower reversing transmission bevel gear 123 drives and rotates the reversing main shaft 122. The reversing main driving shaft 122 drives and rotates the upper reversing transmission bevel gear 121, and the upper reversing transmission bevel gear 121 drives and rotates the right reversing transmission bevel gear 119. 119 drives and rotates the reverse transmission shaft 118, the reverse transmission shaft 118 drives and rotates the reverse driven gear 115, and the reverse driven gear 115 drives and rotates the reverse driven shaft 114. When the reversing driven shaft 114 drives and rotates the rotating main body 142, the rotating main body 142 drives and rotates the rotating main body 141, and the rotating main body 142 is rotated at 90 degrees, the above. The articulated cam 134 is disengaged from the engagement with the articulated lever 136, the articulated slide block 139 slides to the left by the action of the elastic energy of the articulated crimping spring 184, and the articulated slide block 139 slides to the left with the rotating mandrel 173. The rotating sleeve shaft 174 is interlocked and slid to the left, and the articulated slide block 139 and the rotating body 142 are brought together. When engaged, the rotation sleeve shaft 174 and the rotation transmission mandrel 158 are engaged to change the cleaning direction of the apparatus.

From the detailed analysis above, we can see that the rotating mechanism manually adjusts the angle of the clean brush to improve the cleaning effect, and the reversing mechanism can be used, allowing the operator to manually adjust the cleaning direction of the device. Can be adjusted to widen the cleaning range of the relevant device.

Therefore, the method of this application is more rational and sophisticated in terms of the overall structure, installation, maintenance and inspection and repair are both very convenient, and this device utilizes a rotating mechanism and a reversing mechanism. This device is worth high use and widespread use because it can adjust the cleaning angle and cleaning direction of the device, widen the cleaning range of this device, and enhance the cleaning effect of this device.

The above description is merely a specific embodiment of the invention, but the scope of protection of the invention is not limited to this, and all changes or replacements that can be conceived without the passage of creative labor are those of the invention. Included in the scope of protection. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims.

Claims (5)

Including the hand-held lever, the rotating body is installed so that it can rotate in the hand-held lever, and the rotating body is installed at both ends of the rotating body so that it can rotate symmetrically. Here, one side thereof will be introduced in detail as an example. Thirty-six sets of clean brushes are evenly distributed and installed in the rotating body, the clean brushes are installed in the rotating body, an angle adjusting mechanism is installed in the corresponding device, and the angle adjusting mechanism is a worm. The worm wheel, including a wheel and a worm, is fixedly provided at the right end of the clean brush, is installed in the rotating body so that the rotation driven shaft can rotate, and the worm is the outer end of the rotation driven shaft. Fixedly provided on the wall, the worm is engaged with the worm wheel, a rotational power space is installed in the handheld lever, and an angle adjusting power device is installed in the rotational power space. The angle adjusting power device includes a rotary ring gear and a rotary power gear, the rotary ring gear is installed in the rotary power space, the rotary ring gear is installed in the rotary power space, and the rotary power gear and the rotary power gear are installed. A transmission mechanism capable of adjusting the angle of the clean brush is installed between the angle adjusting mechanism, and a rotating mechanism is installed in the corresponding device. The rotating mechanism includes a rotating power shaft, and the inside of the rotating main body thereof. A rotation power space is installed in the vehicle, and a rotation power shaft extending to the left and right is installed in the rotation power space so that it can rotate, and a rotation-driven bevel gear is fixedly attached to the right end of the rotation power shaft. Installed, the left end of the turning power shaft and the right end wall of the turning body are fixedly connected, in which the drive mechanism includes the drive motor and the main power shaft, and the total power is contained in the handheld lever. A space is set up, the main power shaft is installed so that it can rotate in the total power space, the drive motor is fixedly installed in the right end wall of the total power space, and the main power shaft The right end and the drive motor are connected so that power can be transmitted, and a transmission mechanism capable of driving and rotating the rotation body is installed between the rotation mechanism and the drive mechanism. Multi-functional car clean brush. The rotating sleeve shaft is installed on the outer end wall of the main power shaft so that the rotating sleeve shaft can slide, and the rotating sleeve shaft and the main power shaft are engaged by a spline (not shown), and in the rotating power space, A rotating mandrel extending to the left and right is installed so that it can rotate, and a rotating main driving umbrella gear is fixedly installed at the left end of the rotating mandrel in the rotating power space, and the rotating mandrel is attached to the rotating sleeve shaft. The rotation transmission mandrel that extends back and forth is installed in the rotation power space so that it can rotate, and the rotation transmission mandrel is disengaged from the engagement with the rotation sleeve shaft, and the rotation A rotation transmission bevel gear is fixedly installed at the front end of the transmission mandrel, and the rotation transmission bead gear meshes with the rotation-sliding bead gear and the rotation main drive bevel gear, and the rotation mandrel in the rotation power space. A synchronous spindle gear is fixedly installed on the outer end wall of the shaft, and the synchronous spindle gear is located on the right side of the rotary spindle gear and extends to the left and right in the rotational power space. The shaft is installed so that it can rotate, a synchronous left transmission cap gear is fixedly installed at the left end of the rotation synchronous transmission shaft, and a synchronous right transmission cap gear is fixedly installed at the right end of the rotation synchronous transmission shaft. The synchronous left transmission cap gear and the synchronous main drive cap gear are engaged with each other, and the synchronous driven cap gear is fixedly installed on the rotating main body on the right side, and the synchronous driven cap gear and the synchronous right transmission cap gear are fixedly installed. The multifunctional car clean brush according to claim 1, which is advantageous in driving and rotating the rotating main bodies on both the left and right sides, and can conveniently clean the surface of the car. A rotation adjustment space is installed in the rotation main body, an adjustment transmission space is installed in the bottom end wall of the rotation adjustment space, and up and down between the adjustment transmission space and the rotation adjustment space. The extending rotary driving shaft is installed so that it can rotate, and an upper rotation transmission bevel gear is fixedly installed at the top end of the rotary driving shaft in the rotation adjusting space, and is installed in the rotation adjusting space. A rotary driven gear is fixedly installed at the right end of the rotary driven shaft, and the rotary driven gear and the upper rotary transmission gear mesh with each other, so that the rotary main shaft in the adjustment transmission space A lower rotation transmission bevel gear is fixedly installed at the right end, and is installed between the adjustment transmission space and the rotation power space so that a rotation input shaft extending to the left and right can be rotated. A rotary main gear is fixedly installed at the left end of the rotary input shaft inside, and the rotary main gear and the lower rotary transmission gear mesh with each other, and the rotation in the rotational power space. A rotary driven pulley is fixedly installed at the right end of the input shaft, and a rotary output shaft extending to the left and right is installed in the rotational power space so as to be able to rotate, and the synchronous driven bevel gear is the rotational output. It is installed so that it can rotate on the outer end wall of the shaft, a rotating sleeve block is fixedly installed at the right end of the rotating output shaft, and rotates at the left end of the rotating output shaft in the rotating power space. The driving pulley is fixedly installed, and the rotation transmission shaft extending to the left and right can be rotated in the rotation power space, and the left rotation transmission pulley is fixedly installed at the left end of the rotation transmission shaft. It is installed so that a left rotation belt can be transmitted between the left rotation transmission pulley and the rotation driven pulley, and a right rotation transmission pulley is fixedly installed at the right end of the rotation transmission shaft. A right rotation belt is installed between the right rotation transmission pulley and the rotation main drive pulley so that the right rotation belt can be transmitted, and a rotation sleeve shaft extending to the left and right can be installed in the total power space so as to rotate. A rotary driven gear is fixedly installed at the right end of the rotary sleeve shaft in the total power space, and a rotary mandrel is installed in the rotary sleeve shaft so that the rotary mandrel can slide left and right. Installed on the outer end wall of the rotating sleeve shaft, the rotating mandrel and the rotating sleeve shaft are engaged (not shown) by a spline, the rotating sleeve shaft is disengaged from the engaging with the rotating sleeve block, and the said. A rotary power shaft extending to the left and right is installed between the total power space and the rotary power space so that it can rotate, and the right end of the rotary power shaft and the rotary power gear in the rotary power space Is fixedly connected, and a rotary main gear is fixedly installed at the left end of the rotary power shaft in the total power space, and the rotary drive gear and the rotary driven gear mesh with each other to form a clean brush. The multifunctional car clean brush according to claim 1, which is advantageous for adjusting the cleaning angle and expands the cleaning range of the equipment. A reversing power space is installed in the left end wall of the reversing power space, a reversing ring gear is installed in the reversing power space so as to rotate, and a lower part is installed in the left end wall of the reversing power space. An inverting transmission space is installed, and an inverting power shaft extending to the left and right is installed between the lower inverting transmission space and the inverting power space so that the inverting power shaft can rotate, and the inverting power shaft is the outer end of the rotating power shaft. A reversing power gear is fixedly installed at the right end of the reversing power shaft in the reversing power space so as to be rotatable on a wall, and the reversing power shaft in the lower reversing transmission space. A reversing main gear is fixedly provided at the left end, and an upper reversing transmission space is installed in the top end wall of the lower reversing transmission space, and between the upper reversing transmission space and the lower reversing transmission space. Is installed so that the reversing main shaft extending up and down can rotate, and a lower reversing transmission bevel gear is fixedly installed at the bottom end of the reversing main shaft in the lower reversing transmission space. The reversing transmission bevel gear and the reversing main reversing bevel gear mesh with each other, and an upper reversing transmission bevel gear is fixedly installed at the top end of the reversing main driving shaft in the upper reversing transmission space. A left reversing transmission space is installed in the reversing transmission valve in the left end wall so that the reversing transmission shaft extending to the left and right can rotate between the left reversing transmission space and the upper reversing transmission space. A right reversing transmission bevel gear is fixedly installed at the right end of the reversing transmission shaft in the upper reversing transmission space, and the right reversing transmission bevel gear and the upper reversing transmission bevel gear mesh with each other. A left reversing transmission bevel gear is fixedly installed at the left end of the reversing transmission shaft in the left reversing transmission space, and an upward reversing driven shaft can rotate in the left reversing transmission space. A reversing driven bevel gear is fixedly installed at the top end of the reversing driven shaft in the left reversing transmission space, and the reversing driven bevel gear meshes with the left reversing transmission bevel gear. The claim is characterized in that the bottom end of the reversing driven shaft and the top end wall of the rotating body are fixedly connected, which is advantageous for reversing the angle of the rotating body and changing the cleaning direction of the apparatus. The multifunctional car clean brush described in 1. An articulated slide space is installed in the bottom end wall of the lower inversion transmission space, and an articulated power shaft extending up and down is installed between the articulated slide space and the lower inversion transmission space so as to be rotatable. , The articulated power cap gear is fixedly installed at the top end of the articulated power shaft in the lower reversing transmission space, and the articulated power cap gear and the reversing main power cap gear are meshed with each other to form the articulated slide space. A connecting cam is fixedly installed at the bottom end of the connecting power shaft inside, and a connecting lever is installed in the connecting slide space so that the connecting lever can slide left and right, and the right end of the connecting lever and the above. The articulated cam is engaged, and the articulated slide block is installed in the handheld lever so that it can slide left and right, and the articulated slide block is installed so as to be rotatable on the outer end wall of the rotating mandrel. A crimping spring is elastically installed between the right end wall of the slide block and the left end wall of the handheld lever, and the left end of the articulated lever and the right end of the articulated slide block are fixedly connected. The multifunctional car clean brush according to claim 1, which is advantageous in transmitting power to the clean brush of this equipment.

Images