Disclosure of Invention
The invention aims to provide a multifunctional automobile cleaning brush, which can overcome the defects in the prior art and improve the cleaning efficiency and the cleaning effect.
The multifunctional automobile cleaning brush comprises a handheld rod, wherein a rotating machine body is rotationally arranged in the handheld rod, two ends of the rotating machine body are symmetrically and rotationally provided with the rotating machine body, one side of the rotating machine body is taken as an example for detailed description, thirty-six groups of cleaning brushes are uniformly distributed in the circumferential direction of the rotating machine body, the cleaning brushes are rotationally arranged on the rotating machine body, the equipment is provided with an angle adjusting mechanism, the angle adjusting mechanism comprises a turbine and a worm, the turbine is fixedly arranged at the tail end of the right side of the cleaning brushes, a rotating driven shaft is rotationally arranged in the rotating machine body, the worm is fixedly arranged on the end wall of the outer side of the rotating driven shaft, the worm is matched with the turbine, a rotating power cavity is arranged in the handheld rod, an angle adjusting power device is arranged in the rotating power cavity, and the angle adjusting power device comprises a rotating inner gear ring and a, the device is provided with a rotating mechanism, the rotating mechanism comprises a rotating power shaft, wherein a rotating power cavity is arranged in the rotating machine body, a rotating power shaft extending leftwards and rightwards is arranged in the rotating power cavity in a rotating mode, a rotating driven bevel gear is fixedly arranged at the right end of the rotating power shaft, the left end of the rotating power shaft is fixedly connected with the right end wall of the rotating machine body, the driving mechanism comprises a driving motor and a main power shaft, a comprehensive power cavity is arranged in the handheld rod, the main power shaft is rotatably arranged in the comprehensive power cavity, and the driving motor is fixedly arranged in the right end wall of the comprehensive power cavity, the tail end of the right side of the main power shaft is in power connection with the driving motor, and a transmission mechanism is arranged between the rotating mechanism and the driving mechanism and drives the rotating machine body to rotate.
Preferably, a rotating sleeve shaft is slidably arranged on the end wall of the outer side of the main power shaft, the rotating sleeve shaft is matched with the main power shaft through a spline (not labeled), a rotating mandrel extending leftwards and rightwards is rotatably arranged in the rotating power cavity, a rotating drive bevel gear is fixedly arranged at the tail end of the left side of the rotating mandrel in the rotating power cavity, the rotating mandrel is disengaged from the rotating sleeve shaft, a rotating transmission mandrel extending forwards and backwards is rotatably arranged in the rotating power cavity, the rotating transmission mandrel is disengaged from the rotating sleeve shaft, a rotating transmission bevel gear is fixedly arranged at the tail end of the front side of the rotating transmission mandrel, the rotating transmission bevel gear is engaged with the rotating driven bevel gear and the rotating drive bevel gear, and a synchronous drive bevel gear is fixedly arranged on the end wall of the outer side of the rotating mandrel in the rotating power cavity, synchronous drive bevel gear is located rotatory drive bevel gear right side, rotatory power intracavity rotation is provided with the rotatory synchronous transmission shaft of controlling extension, rotatory synchronous transmission shaft left side end is fixed and is provided with synchronous left transmission bevel gear, rotatory synchronous transmission shaft right side end is fixed and is provided with synchronous right transmission bevel gear, synchronous left transmission bevel gear with synchronous drive bevel gear meshes, the right side fixed synchronous driven bevel gear that is provided with on the rotatory fuselage, synchronous driven bevel gear with synchronous right transmission bevel gear meshes, is favorable to driving the left and right sides rotatory fuselage rotates, is convenient for clear up the car surface.
Preferably, a rotation adjusting cavity is arranged in the rotating body, an adjusting transmission cavity is arranged in the end wall at the bottom of the rotation adjusting cavity, a rotation driving shaft extending up and down is rotatably arranged between the adjusting transmission cavity and the rotation adjusting cavity, an upper rotation transmission bevel gear is fixedly arranged at the tail end of the top of the rotation driving shaft in the rotation adjusting cavity, a rotation driven bevel gear is fixedly arranged at the tail end of the right side of the rotation driven shaft in the rotation adjusting cavity, the rotation driven bevel gear is meshed with the upper rotation transmission bevel gear, a lower rotation transmission bevel gear is fixedly arranged at the tail end of the right side of the rotation driving shaft in the adjusting transmission cavity, a rotation input shaft extending left and right is rotatably arranged between the adjusting transmission cavity and the rotation power cavity, a rotation driving bevel gear is fixedly arranged at the tail end of the left side of the, the rotary driving bevel gear is meshed with the lower rotary transmission bevel gear, the rotary driven belt wheel is fixedly arranged at the tail end of the right side of the rotary input shaft in the rotary power cavity, the rotary output shaft extending leftwards and rightwards is rotatably arranged in the rotary power cavity, the synchronous driven bevel gear is rotatably arranged on the end wall of the outer side of the rotary output shaft, the rotary sleeve block is fixedly arranged at the tail end of the right side of the rotary output shaft, the rotary driving belt wheel is fixedly arranged at the tail end of the left side of the rotary output shaft in the rotary power cavity, the rotary transmission shaft extending leftwards and rightwards is rotatably arranged in the rotary power cavity, the left rotary transmission belt wheel is fixedly arranged at the tail end of the left side of the rotary transmission shaft, a left rotary belt is arranged between the left rotary transmission belt wheel and the rotary driven, a right rotating belt is arranged between the right rotating transmission belt wheel and the rotating driving belt wheel in a transmission manner, a rotating sleeve shaft extending leftwards and rightwards is arranged in the comprehensive power cavity in a rotating manner, a rotating driven gear is fixedly arranged at the right end of the rotating sleeve shaft in the comprehensive power cavity, a rotating mandrel is arranged in the rotating sleeve shaft in a left-right sliding manner, the rotating mandrel is rotatably arranged on the outer end wall of the rotating sleeve shaft, the rotating mandrel is matched with the rotating sleeve shaft through a spline (not marked), the rotating sleeve shaft is separated from the rotating sleeve block, a rotating power shaft extending leftwards and rightwards is rotatably arranged between the comprehensive power cavity and the rotating power cavity, the right end of the rotating power shaft in the rotating power cavity is fixedly connected with the rotating power gear, and a rotating driving gear is fixedly arranged at the left end of the rotating power shaft in the comprehensive power cavity, the rotation driving gear is meshed with the rotation driven gear, so that the cleaning angle of the cleaning brush can be adjusted conveniently, and the cleaning range of the equipment is widened.
Preferably, a turning power cavity is arranged in the end wall of the left side of the rotating power cavity, a turning inner gear ring is rotationally arranged in the turning power cavity, a lower turning transmission cavity is arranged in the end wall of the left side of the turning power cavity, a turning power shaft extending left and right is rotationally arranged between the lower turning transmission cavity and the turning power cavity, the turning power shaft is rotationally arranged on the end wall of the outer side of the rotating power shaft, a turning power gear is fixedly arranged at the tail end of the right side of the turning power shaft in the turning power cavity, a turning driving bevel gear is fixedly arranged at the tail end of the left side of the turning power shaft in the lower turning transmission cavity, an upper turning transmission cavity is arranged in the end wall of the top of the lower turning transmission cavity, a turning driving shaft extending up and down is rotationally arranged between the upper turning transmission cavity and the lower turning transmission cavity, and a lower turning transmission bevel gear, the lower turnover transmission bevel gear is engaged with the turnover driving bevel gear, the tail end of the top of the turnover driving shaft in the upper turnover transmission cavity is fixedly provided with an upper turnover transmission bevel gear, the left end wall of the left side of the upper turnover transmission cavity is internally provided with a left turnover transmission cavity, a turnover transmission shaft extending leftwards and rightwards is rotatably arranged between the left turnover transmission cavity and the upper turnover transmission cavity, the tail end of the right side of the turnover transmission shaft in the upper turnover transmission cavity is fixedly provided with a right turnover transmission bevel gear, the right turnover transmission bevel gear is engaged with the upper turnover transmission bevel gear, the tail end of the left side of the turnover transmission shaft in the left turnover transmission cavity is fixedly provided with a left turnover transmission bevel gear, the left turnover transmission cavity is rotatably provided with an upper extending turnover driven shaft, and the tail end of the top of the turnover driven shaft in the left turnover transmission cavity is fixedly provided with a turnover, the overturning driven bevel gear is meshed with the left overturning transmission bevel gear, and the tail end of the bottom of the overturning driven shaft is fixedly connected with the top end wall of the rotating machine body, so that the rotating machine body can be overturned by an angle, and the cleaning direction of the equipment can be changed.
Preferably, a connecting sliding cavity is arranged in the end wall at the bottom of the lower overturning transfer cavity, a connecting power shaft extending up and down is rotatably arranged between the connecting sliding cavity and the lower overturning transfer cavity, a connecting power bevel gear is fixedly arranged at the tail end of the top of the connecting power shaft in the lower overturning transfer cavity, the connecting power bevel gear is meshed with the overturning driving bevel gear, a connecting cam is fixedly arranged at the tail end of the bottom of the connecting power shaft in the connecting sliding cavity, a connecting rod is arranged in the connecting sliding cavity in a left-right sliding manner, the tail end of the right side of the connecting rod is matched with the connecting cam, a connecting sliding block is arranged in the handheld rod in a left-right sliding manner, the connecting sliding block is rotatably arranged on the end wall at the outer side of the rotating mandrel, and a connecting compression spring is elastically arranged between the end wall at the, the connecting rod left side end with connect the terminal fixed connection in sliding block right side, be favorable to the cleaning brush position with power transmission to this equipment.
The invention has the beneficial effects that: this equipment is more reasonable and ingenious on overall structure, and it is all very convenient to install, maintain and overhaul to the usable slewing mechanism of this equipment and tilting mechanism change clean angle and clean direction, change the clean scope of this equipment, improve the clean effect of this equipment, consequently this equipment has higher use and spreading value.
Detailed Description
All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.
Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicate orientations or positional relationships based on those shown in fig. 1, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be considered as limiting the present invention.
As shown in fig. 1-3, the multifunctional automobile cleaning brush of the present invention includes a handheld rod 143, a rotating body 142 is rotatably disposed in the handheld rod 143, two ends of the rotating body 142 are symmetrically and rotatably disposed on a rotating body 141, which is described in detail by taking one side as an example, thirty-six sets of cleaning brushes 111 are uniformly distributed in a circumferential direction on the rotating body 141, the cleaning brushes 111 are rotatably disposed on the rotating body 141, the multifunctional automobile cleaning brush is provided with an angle adjusting mechanism, the angle adjusting mechanism includes a worm wheel 112 and a worm 113, the worm wheel 112 is fixedly disposed at a right end of the cleaning brush 111, the rotating body 141 is rotatably disposed on a rotating driven shaft 147, the worm 113 is fixedly disposed on an outer end wall of the rotating driven shaft 147, the worm 113 is engaged with the worm wheel 112, a rotating power cavity 179 is disposed in the handheld rod 143, an angle adjusting power device is arranged in the rotating power cavity 179 and comprises a rotating inner gear ring 130 and a rotating power gear 131, the rotating inner gear ring 130 is rotatably arranged in the rotating power cavity 179, a transmission mechanism is arranged between the rotating power gear 131 and the angle adjusting mechanism to adjust the angle of the cleaning brush 111, the device is provided with a rotating mechanism, the rotating mechanism comprises a rotating power shaft 155, wherein a rotating power cavity 170 is arranged in the rotating machine body 142, a rotating power shaft 155 which extends leftwards and rightwards is rotatably arranged in the rotating power cavity 170, a rotating driven bevel gear 157 is fixedly arranged at the tail end of the right side of the rotating power shaft 155, and the tail end of the left side of the rotating power shaft 155 is fixedly connected with the end wall of the right side of the rotating machine body 141, wherein actuating mechanism includes driving motor 137 and main power axle 138, be provided with comprehensive power cavity 176 in the handheld pole 143, main power axle 138 rotate set up in the comprehensive power cavity 176, driving motor 137 fixed set up in the end wall of comprehensive power cavity 176 right side, main power axle 138 right side end with driving motor 137 power is connected, rotary mechanism with it drives rotatory fuselage 141 to rotate to be provided with drive mechanism between the actuating mechanism.
The rotating mechanism of the present application will be described in detail with reference to fig. 1 to 3, wherein a rotating sleeve shaft 174 is slidably disposed on an outer end wall of the main power shaft 138, the rotating sleeve shaft 174 is engaged with the main power shaft 138 through a spline (not labeled), a rotating spindle 181 extending left and right is rotatably disposed in the rotating power chamber 170, a rotating driving bevel gear 160 is fixedly disposed at a left end of the rotating spindle 181 in the rotating power chamber 170, the rotating spindle 181 is disengaged from the rotating sleeve shaft 174, a rotating transmission spindle 158 extending forward and backward is rotatably disposed in the rotating power chamber 170, the rotating transmission spindle 158 is disengaged from the rotating sleeve shaft 174, a rotating transmission bevel gear 159 is fixedly disposed at a front end of the rotating transmission spindle 158, the rotating transmission bevel gear 159 is engaged with the rotating driven bevel gear 157 and the rotating driving bevel gear 160, the outer side end wall of the rotating mandrel 181 in the rotating power cavity 170 is fixedly provided with a synchronous driving bevel gear 162, the synchronous driving bevel gear 162 is positioned on the right side of the rotating driving bevel gear 160, a rotating synchronous transmission shaft 163 extending left and right is arranged in the rotating power cavity 170 in a rotating mode, the tail end of the left side of the rotating synchronous transmission shaft 163 is fixedly provided with a synchronous left transmission bevel gear 161, the tail end of the right side of the rotating synchronous transmission shaft 163 is fixedly provided with a synchronous right transmission bevel gear 165, the synchronous left transmission bevel gear 161 is meshed with the synchronous driving bevel gear 162, the right side of the rotating body 141 is fixedly provided with a synchronous driven bevel gear 166, and the synchronous driven bevel gear 166 is meshed with the synchronous right transmission bevel gear 165, so that the rotating body 141 can be driven to drive the left and right sides, and.
Advantageously, the angle adjusting mechanism of the present application is described in detail with reference to fig. 1 to 3, wherein a rotation adjusting cavity 145 is provided in the rotating body 141, an adjusting transmission cavity 172 is provided in a bottom end wall of the rotation adjusting cavity 145, a rotation driving shaft 148 extending up and down is rotatably provided between the adjusting transmission cavity 172 and the rotation adjusting cavity 145, an upper rotation transmission bevel gear 144 is fixedly provided at a top end of the rotation driving shaft 148 in the rotation adjusting cavity 145, a rotation driven bevel gear 146 is fixedly provided at a right end of the rotation driven shaft 147 in the rotation adjusting cavity 145, the rotation driven bevel gear 146 is engaged with the upper rotation transmission bevel gear 144, a lower rotation transmission bevel gear 152 is fixedly provided at a right end of the rotation driving shaft 148 in the adjusting transmission cavity 172, a rotation input shaft 154 extending left and right is rotatably provided between the adjusting transmission cavity 172 and the rotation power cavity 170, a rotary driving bevel gear 153 is fixedly arranged at the left end of the rotary input shaft 154 in the adjusting and transmitting cavity 172, the rotary driving bevel gear 153 is engaged with the lower rotary transmitting bevel gear 152, a rotary driven pulley 156 is fixedly arranged at the right end of the rotary input shaft 154 in the rotary power cavity 170, a rotary output shaft 167 extending left and right is rotatably arranged in the rotary power cavity 170, the synchronous driven bevel gear 166 is rotatably arranged on the outer end wall of the rotary output shaft 167, a rotary sleeve block 168 is fixedly arranged at the right end of the rotary output shaft 167, a rotary driving pulley 164 is fixedly arranged at the left end of the rotary output shaft 167 in the rotary power cavity 170, a rotary transmitting shaft 150 extending left and right is rotatably arranged in the rotary power cavity 170, and a left rotary transmitting pulley 149 is fixedly arranged at the left end of the rotary transmitting shaft 150, a left rotating belt 151 is arranged between the left rotating transmission belt wheel 149 and the rotating driven belt wheel 156 in a transmission manner, a right rotating transmission belt wheel 171 is fixedly arranged at the right end of the rotating transmission shaft 150, a right rotating belt 169 is arranged between the right rotating transmission belt wheel 171 and the rotating driving belt wheel 164 in a transmission manner, a rotating sleeve shaft 175 extending left and right is arranged in the comprehensive power cavity 176 in a rotating manner, a rotating driven gear 178 is fixedly arranged at the right end of the rotating sleeve shaft 175 in the comprehensive power cavity 176, a rotating mandrel 173 is arranged in the rotating sleeve shaft 175 in a left-right sliding manner, the rotating mandrel 173 is rotatably arranged on the outer side end wall of the rotating sleeve shaft 174, the rotating mandrel 173 is matched with the rotating sleeve shaft 175 through splines (not labeled), the rotating sleeve shaft 175 is disengaged from the rotating sleeve block 168, and a rotating power shaft 127 extending left and right is rotatably arranged between the comprehensive power cavity 176 and the rotating power cavity 179, the right end of the rotating power shaft 127 in the rotating power cavity 179 is fixedly connected with the rotating power gear 131, the left end of the rotating power shaft 127 in the comprehensive power cavity 176 is fixedly provided with a rotating driving gear 177, and the rotating driving gear 177 is meshed with the rotating driven gear 178, so that the cleaning angle of the cleaning brush 111 can be adjusted, and the cleaning range of the device can be improved.
Advantageously, the turning mechanism of the present application is described in detail with reference to fig. 1-3, wherein a turning power cavity 180 is disposed in a left end wall of the turning power cavity 179, a turning ring gear 128 is rotatably disposed in the turning power cavity 180, a lower turning transmission cavity 124 is disposed in a left end wall of the turning power cavity 180, a turning power shaft 126 extending left and right is rotatably disposed between the lower turning transmission cavity 124 and the turning power cavity 180, the turning power shaft 126 is rotatably disposed on an outer end wall of the turning power shaft 127, a turning power gear 129 is fixedly disposed at a right end of the turning power shaft 126 in the turning power cavity 180, a turning drive bevel gear 125 is fixedly disposed at a left end of the turning power shaft 126 in the lower turning transmission cavity 124, an upper turning transmission cavity 120 is disposed in a top end wall of the lower turning transmission cavity 124, a vertically extending overturning driving shaft 122 is rotatably arranged between the upper overturning transmission cavity 120 and the lower overturning transmission cavity 124, a lower overturning transmission bevel gear 123 is fixedly arranged at the tail end of the bottom of the overturning driving shaft 122 in the lower overturning transmission cavity 124, the lower overturning transmission bevel gear 123 is engaged with the overturning driving bevel gear 125, an upper overturning transmission bevel gear 121 is fixedly arranged at the tail end of the top of the overturning driving shaft 122 in the upper overturning transmission cavity 120, a left overturning transmission cavity 116 is arranged in the end wall of the left side of the upper overturning transmission cavity 120, a leftwards extending overturning transmission shaft 118 is rotatably arranged between the left overturning transmission cavity 116 and the upper overturning transmission cavity 120, a right overturning transmission bevel gear 119 is fixedly arranged at the tail end of the right side of the overturning transmission shaft 118 in the upper overturning transmission cavity 120, and the right overturning transmission bevel gear 119 is engaged with the upper overturning transmission bevel gear 121, the left-turning transmission cavity 116 is internally provided with a left-turning transmission bevel gear 117 at the left end of the turning transmission shaft 118, the left-turning transmission cavity 116 is internally and rotatably provided with an upwards-extending turning driven shaft 114, the left-turning transmission cavity 116 is internally provided with a turning driven bevel gear 115 at the top end of the turning driven shaft 114, the turning driven bevel gear 115 is meshed with the left-turning transmission bevel gear 117, and the bottom end of the turning driven shaft 114 is fixedly connected with the top end wall of the rotating machine body 142, so that the rotating machine body 142 can be turned over at an angle, and the cleaning direction of the equipment can be changed.
The connecting mechanism of the present application will be described in detail with reference to fig. 1 to 3, wherein a connecting sliding cavity 135 is disposed in a bottom end wall of the lower turnover transmitting cavity 124, a connecting power shaft 133 extending up and down is rotatably disposed between the connecting sliding cavity 135 and the lower turnover transmitting cavity 124, a connecting power bevel gear 132 is fixedly disposed at a top end of the connecting power shaft 133 in the lower turnover transmitting cavity 124, the connecting power bevel gear 132 is engaged with the turnover driving bevel gear 125, a connecting cam 134 is fixedly disposed at a bottom end of the connecting power shaft 133 in the connecting sliding cavity 135, a connecting rod 136 is slidably disposed in the connecting sliding cavity 135 from left to right, a right end of the connecting rod 136 is engaged with the connecting cam 134, a connecting sliding block 139 is slidably disposed in the hand-held rod 143 from left to right, the connecting sliding block 139 is rotatably disposed on an outer end wall of the rotating spindle 173, a connecting compression spring 184 is elastically arranged between the right end wall of the connecting sliding block 139 and the left end wall of the handheld rod 143, and the left end of the connecting rod 136 is fixedly connected with the right end of the connecting sliding block 139, so that power can be transmitted to the cleaning brush position of the equipment.
The applicant will now describe in detail the use steps of the cleaning brush with reference to the accompanying figures 1-3 and the specific composition of a multi-function vehicle cleaning brush of the present application described above: first, in the initial state, the connecting cam 134 is disengaged from the connecting rod 136, the connecting slide block 139 is engaged with the right rotary body 141, the rotary spindle 181 is engaged with the rotary sleeve shaft 174, and the rotary spindle 173 is engaged with the rotary sleeve block 168;
when the device is used, the driving motor 137 starts to work, the driving motor 137 drives the main power shaft 138 to rotate, the main power shaft 138 drives the rotating sleeve shaft 174 to rotate, the rotating sleeve shaft 174 drives the rotating mandrel 181 to rotate, the rotating mandrel 181 drives the rotating main drive bevel gear 160 to rotate, the rotating main drive bevel gear 160 drives the rotating transmission bevel gear 159 to rotate, the rotating transmission bevel gear 159 drives the rotating driven bevel gear 157 to rotate, the rotating driven bevel gear 157 drives the rotating power shaft 155 to rotate, the rotating power shaft 155 drives the rotating machine body 141 to rotate, meanwhile, the rotating mandrel 181 drives the synchronous main drive bevel gear 162 to rotate, the synchronous driving bevel gear 162 drives the synchronous left transmission bevel gear 161 to rotate, and the synchronous left transmission bevel gear 161 drives the rotating synchronous transmission shaft 163 to rotate, the rotating synchronous transmission shaft 163 drives the synchronous right transmission bevel gear 165 to rotate, the synchronous right transmission bevel gear 165 drives the synchronous driven bevel gear 166 to rotate, the synchronous driven bevel gear 166 drives the right rotating body 141 to rotate, and the rotating body 141 cleans the surface of the automobile;
when the angle of the cleaning brush is changed, a user rotates the rotating ring gear 130, the rotating ring gear 130 drives the rotating power gear 131 to rotate, the rotating power gear 131 drives the rotating power shaft 127 to rotate, the rotating power shaft 127 drives the rotating driving gear 177 to rotate, the rotating driving gear 177 drives the rotating driven gear 178 to rotate, the rotating driven gear 178 drives the rotating sleeve shaft 175 to rotate, the rotating sleeve shaft 175 drives the rotating mandrel 173 to rotate, the rotating mandrel 173 drives the rotating sleeve block 168 to rotate, the rotating sleeve block 168 drives the rotating output shaft 167 to rotate, the rotating output shaft 167 drives the rotating driving pulley 164 to rotate, the rotating driving pulley 164 drives the right rotating transmission pulley 171 to rotate, and the right rotating transmission pulley 171 drives the rotating transmission shaft 150 to rotate, the rotation transmission shaft 150 drives the left rotation transmission pulley 149 to rotate, the left rotation transmission pulley 149 drives the rotation driven pulley 156 to rotate, the rotation driven pulley 156 drives the rotation input shaft 154 to rotate, the rotation input shaft 154 drives the rotation driving bevel gear 153 to rotate, the rotation driving bevel gear 153 drives the lower rotation transmission bevel gear 152 to rotate, the lower rotation transmission bevel gear 152 drives the rotation driving shaft 148 to rotate, the rotation driving shaft 148 drives the upper rotation transmission bevel gear 144 to rotate, the upper rotation transmission bevel gear 144 drives the rotation driven bevel gear 146 to rotate, the rotation driven bevel gear 146 drives the rotation driven shaft 147 to rotate, the rotation driven shaft 147 drives the worm 113 to rotate, the worm 113 drives the worm wheel 112 to rotate, and the worm wheel 112 drives the cleaning brush 111 to rotate, changing the cleaning angle of the cleaning brush;
when the cleaning brush is turned over, a user rotates the turning inner gear ring 128, the turning inner gear ring 128 drives the turning power gear 129 to rotate, the turning power gear 129 drives the turning power shaft 126 to rotate, the turning power shaft 126 drives the turning driving bevel gear 125 to rotate, the turning driving bevel gear 125 drives the connecting power bevel gear 132 to rotate, the connecting power bevel gear 132 drives the connecting power shaft 133 to rotate, the connecting power shaft 133 drives the connecting cam 134 to rotate, the connecting cam 134 is matched with the connecting rod 136, the connecting cam 134 drives the connecting rod 136 to slide to the right side, the connecting rod 136 drives the connecting sliding block 139 to slide to the right side, the connecting sliding block 139 is disengaged from the rotating machine body sliding block 141, and the connecting block 139 drives the rotating mandrel 173 and the rotating sleeve shaft 174 to slide to the right side, the rotating mandrel 173 is disengaged from the rotating sleeve block 168, the rotating sleeve shaft 174 is disengaged from the rotating mandrel 181, meanwhile, the lower turnover transmission bevel gear 123 is driven by the turnover driving bevel gear 125 to rotate, the lower turnover transmission bevel gear 123 drives the turnover driving shaft 122 to rotate, the upper turnover transmission bevel gear 121 is driven by the turnover driving shaft 122 to rotate, the right turnover transmission bevel gear 119 is driven by the upper turnover transmission bevel gear 121 to rotate, the turnover transmission bevel gear 119 drives the turnover transmission shaft 118 to rotate, the turnover transmission shaft 118 drives the turnover driven bevel gear 115 to rotate, the turnover driven bevel gear 115 drives the turnover driven shaft 114 to rotate, the turnover driven shaft 114 drives the rotating body 142 to rotate, the rotating body 142 drives the rotating body 141 to rotate, when the rotating body 142 rotates 90 degrees, the connecting cam 134 is disengaged from the connecting rod 136, the connecting sliding block 139 slides to the left under the action of the elastic potential energy of the connecting compression spring 184, the connecting sliding block 139 drives the rotating mandrel 173 and the rotating sleeve shaft 174 to slide to the left, the connecting sliding block 139 is engaged with the rotating machine body 142, and the rotating sleeve shaft 174 is engaged with the rotating transmission mandrel 158 to change the cleaning direction of the device.
From the above detailed analysis it can be seen that: because the angle of the cleaning brush is manually adjusted by the rotating mechanism, the cleaning effect is improved, and an operator can manually adjust the cleaning direction of the equipment by the aid of the turnover mechanism, so that the cleaning range of the equipment is expanded.
Therefore, the method is more reasonable and ingenious in overall structure, and very convenient to install, maintain and overhaul, the cleaning angle and the cleaning direction of the equipment can be changed by the aid of the rotating mechanism and the overturning mechanism, the cleaning range of the equipment is changed, the cleaning effect of the equipment is improved, and the equipment has high use and popularization values.
The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.