CN112248980A - Automatic waxing machine device for automobile - Google Patents

Abstract

The invention relates to the field related to automobile maintenance, and discloses an automatic waxing machine device for an automobile, which comprises a main box body, wherein a top arm sliding cavity is arranged in the main box body, the lower side of the top arm sliding cavity is communicated with the upper end wall of the top arm sliding cavity, a top arm box body extending downwards to the inside is connected to the upper end wall of the top arm sliding cavity in a sliding fit manner, the tail end of the lower side of the top arm box body is fixedly connected with a connecting box body positioned in the inside, a motor is arranged in the connecting box body, a press block is moved downwards through a vehicle, a pressure trigger is triggered to start the motor, two arm waxing cotton and top arm waxing cotton are respectively moved inwards and downwards to waxing positions, the two arm waxing cotton and the top arm waxing cotton are rotated, preparation work is finished, the top arm box body and the connecting box body are simultaneously pushed forwards to indirectly push the two arm waxing cotton and the top arm waxing cotton forwards and the waxing cotton is controlled through contraction in contact with the vehicle, the whole machine is waxed by the press block rebounds, the purpose of circulation is achieved.

Description

Automatic waxing machine device for automobile

Technical Field

The invention relates to the field related to automobile maintenance, in particular to an automatic waxing machine device for an automobile.

Background

The automobile waxing machine has the advantages that more and more people can drive the automobile to go out along with the development of modern society, although the automobile brings convenience for people to go out, the maintenance of the automobile is not negligible at ordinary times, the waxing of the automobile is also very necessary at ordinary times, the protection of the automobile paint surface is enhanced through waxing, most of the waxing of the automobile surface on the market is carried out manually, the labor and the labor are very wasted, the efficiency is low, most of instruments capable of automatically waxing can only be used for locally and automatically waxing the automobile, the whole automobile cannot be waxed, and the efficiency is not very high.

Disclosure of Invention

The invention aims to provide an automatic waxing machine device for an automobile, which can overcome the defects in the prior art, so that the practicability of the equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an automatic waxing machine device for automobiles, which comprises a main box body, wherein a top arm sliding cavity is arranged in the main box body, the lower side of the top arm sliding cavity is communicated with the top arm box body, the upper end wall of the top arm sliding cavity is connected with a top arm box body which extends downwards into the top arm box body in a sliding fit manner, the tail end of the lower side of the top arm box body is fixedly connected with a connecting box body which is positioned in the top arm box body, a motor is arranged in the connecting box body, the front side of the motor is provided with a clutch cavity, the tail end of the front side of the motor is fixedly connected with two arm motor shafts which extend forwards into the clutch cavity, the outer edge surface of the motor shaft is connected with a motor shaft bearing which is positioned in the clutch cavity in a rotating fit manner, the front side of the clutch cavity is provided with an engagement block transmission cavity, the front side of the engagement block transmission cavity is provided with a left arm belt wheel cavity, the front side of the left arm, the top arm transmission belt cavity front end wall is connected with a clutch engagement block shaft which extends backwards and penetrates through the right arm belt wheel cavity, the left arm belt wheel cavity and the engagement block transmission cavity until the clutch engagement block shaft extends into the clutch cavity and extends forwards into the top arm transmission belt cavity, the outer edge surface of the clutch engagement block shaft is fixedly connected with a bevel gear of the engagement block in the transmission cavity, the tail end of the rear side of the clutch engagement block shaft is fixedly connected with a clutch engagement block, the outer edge surface of a motor shaft is connected with a clutch sleeve which can be engaged with the clutch engagement block in a spline fit manner, the tail end of the rear side of the clutch sleeve is fixedly connected with a motor compression spring between the tail end of the front side of a motor shaft bearing, the upper side of the engagement block transmission cavity is provided with a main box body reciprocating cavity which is located on the rear side of the top arm transmission belt cavity and in the top arm box body, and the lower end wall of the main box body reciprocating cavity is connected with a motor compression spring A reciprocating turntable shaft extending into the reciprocating cavity of the main box body, wherein the end of the upper side of the reciprocating turntable shaft is fixedly connected with a reciprocating turntable, the end of the lower side of the reciprocating turntable is fixedly connected with a turntable bevel gear meshed with the meshing block bevel gear, the end of the upper side of the reciprocating turntable is fixedly connected with a main box push rod pin, the outer edge surface of the main box push rod pin is connected with a reciprocating push rod which extends leftwards into the top arm sliding cavity and is hinged with the left end wall of the top arm sliding cavity in a rotating fit manner, the front side of the top arm transmission belt cavity is provided with a top arm bevel gear cavity, the rear end wall of the top arm bevel gear cavity is connected with a top arm belt wheel main shaft which extends backwards into the top arm transmission belt cavity and forwards into the top arm bevel gear cavity in a rotating fit manner, a top arm main transmission belt is connected between the top arm belt wheel main shaft and the clutch meshing block shaft in a power fit manner, and, and a top arm reciprocating spring is fixedly connected between the right end of the top arm box body and the right end wall of the top arm sliding cavity.

On the basis of the technical scheme, a top arm rotary disc cavity is arranged at the lower side of the top arm bevel gear cavity, a top arm gear cavity is arranged at the left side of the top arm rotary disc cavity, a top arm rack cavity is arranged at the left side of the top arm gear cavity, a top arm gear shaft which extends rightwards into the top arm gear cavity and extends leftwards into the top arm rack cavity is connected in a rotating fit manner in the right end wall of the top arm rack cavity, a top arm gear is fixedly connected at the tail end of the left side of the top arm gear shaft, a top arm rack is connected in a sliding fit manner in the left end wall of the top arm rack cavity, the tail end of the rear side of the top arm rack is meshed with the outer edge surface of the top arm gear, a top arm transmission gear is fixedly connected at the tail end of the right side of the top arm gear shaft, a top arm rotary disc shaft which extends rightwards into the top arm rotary disc cavity is connected in a rotating fit manner in the left end wall of the top arm gear cavity, and, the top arm turntable shaft is provided with a side end fixedly connected with a top arm turntable, the right end fixedly connected with a top arm turntable pin is arranged on the right side of the top arm turntable, a longitudinal waxing wheel pushing mechanism is arranged on the lower side of a top arm turntable cavity, a top arm belt wheel cavity located on the right side of an auxiliary bevel gear shaft is arranged on the right side of the top arm turntable cavity, and the right end wall of the top arm belt wheel cavity is connected with an auxiliary bevel gear shaft which extends leftwards to the inside of the top arm bevel gear cavity and extends rightwards to the inside of the top arm belt wheel cavity in a rotating fit manner.

On the basis of the technical scheme, the waxing wheel pushing mechanism comprises a two-arm pushing cavity, the right side of the two-arm pushing cavity is provided with a two-arm pushing box body positioned in the two-arm pushing cavity, a push rod bevel gear cavity is arranged in the two-arm pushing box body, a two-arm pushing sleeve is connected to the right end wall of the two-arm pushing cavity in a sliding fit manner, a two-arm pushing shaft is arranged in the two-arm pushing sleeve, an opening of the two-arm pushing sleeve is upwards and rightwards extends to the two-arm spring cavity communicated with the opening, a pushing rod sleeve is fixedly connected into the lower end wall of the two-arm spring cavity, the left end wall of the two-arm spring cavity is connected with a two-arm pushing shaft which extends rightwards and penetrates through the pushing rod sleeve until the two-arm pushing shaft extends into the push rod bevel gear cavity and extends rightwards into the two-arm spring cavity in a sliding fit manner, the outer edge surface of the two-arm pushing shaft is connected with a, the outer edge surface of the two-arm push rod shaft is fixedly connected with two-arm auxiliary friction wheels which are positioned in the two-arm spring cavities and have parts positioned in the two-arm spring cavities, the right end of the two-arm push rod shaft is fixedly connected with a push rod shaft bevel gear, the upper side of the two-arm push cavity is communicated with a friction wheel cavity, a bevel gear transmission cavity is arranged at the left side of the friction wheel cavity and positioned at the upper side of the two-arm pushing cavity, a friction wheel shaft which extends rightwards and penetrates through the friction wheel cavity until the friction wheel shaft extends into the right end wall of the friction wheel cavity and extends leftwards into the bevel gear transmission cavity is connected with the right end wall of the bevel gear transmission cavity in a rotating and matching manner, the transmission bevel gear is fixedly connected to the left end of the friction wheel shaft, and the outer edge face of the friction wheel shaft is fixedly connected with two arm main friction wheels which are located in the friction wheel cavities and partially located in the two arm pushing cavities and abutted to the two arm auxiliary friction wheels.

On the basis of the technical scheme, the two arm pushing cavities in the waxing wheel pushing mechanism which is longitudinally arranged are communicated and arranged at the lower side of the top arm turntable cavity and downwards penetrate through the connecting box body until the two arm pushing cavities extend to the tail end of the lower side of the connecting box body to be communicated with the connecting box body, the outer edge surface of the top arm turntable pin is connected with a top arm turntable push rod which downwards extends to the tail end of the upper side of the two arm pushing cavities in the waxing wheel pushing mechanism which is longitudinally arranged in a rotating and matching way, the upper end wall of the bevel gear transmission cavity in the waxing wheel pushing mechanism which is longitudinally arranged in a rotating and matching way is connected with a top arm belt wheel shaft which extends rightwards into the top arm belt wheel cavity and extends leftwards into the bevel gear transmission cavity in a rotating and matching way, the tail end of the left side of the top arm belt wheel shaft is fixedly connected with a belt wheel shaft which is meshed with the auxiliary bevel gear, and a top, liquid storage box bodies are symmetrically and fixedly connected to the left side and the right side of the push rod bevel gear cavity in the waxing wheel pushing mechanism which is longitudinally arranged, liquid storage transmission cavities which are positioned on the two sides of the push rod bevel gear cavity are arranged in the liquid storage box bodies, top arm bevel gear shafts which extend inwards into the push rod bevel gear cavity and extend outwards into the liquid storage transmission cavities are connected to the inner end walls of the liquid storage transmission cavities in a rotating fit manner, top arm bevel gears which are positioned in the push rod bevel gear cavity and are meshed with the push rod shaft bevel gears are fixedly connected to the outer edge surfaces of the top arm bevel gear shafts, a liquid storage main bevel gear which is positioned in the liquid storage transmission cavities is fixedly connected to the outer edge surfaces of the top arm bevel gear shafts, an infusion bevel gear cavity is arranged on the lower side of the liquid storage transmission cavities, and a liquid storage auxiliary transmission shaft which extends upwards into the liquid storage, the outer edge surface of the liquid storage auxiliary transmission shaft is fixedly connected with a liquid storage auxiliary bevel gear which is positioned in the liquid storage transmission cavity and is meshed with the liquid storage main bevel gear, the tail end of the lower side of the liquid storage auxiliary transmission shaft is fixedly connected with an infusion bevel gear positioned in the infusion bevel gear cavity, a liquid storage cavity positioned outside the liquid storage transmission cavity is arranged outside the transfusion bevel gear cavity, a transfusion cavity with an outward opening is communicated outside the liquid storage cavity, a top arm centrifugal shaft which penetrates through the transfusion bevel gear cavity is connected between the liquid storage cavities in a rotating fit manner, a transfusion centrifugal cavity is arranged in the top arm centrifugal shaft in a left-right through way, the outer edge surface of the top arm centrifugal shaft is fixedly connected with a centrifugal shaft bevel gear which is positioned in the transfusion bevel gear cavity and is meshed with the transfusion bevel gear, the outer edge surface of the top arm centrifugal shaft is fixedly connected with the top arm waxing cotton positioned in the top arm waxing cotton, and a wax liquid centrifugal cavity communicated with the transfusion centrifugal cavity inwards is arranged in the top arm waxing cotton.

On the basis of the technical scheme, belt transmission bevel gear cavities which are respectively positioned at the front sides of the right arm belt wheel cavity and the left arm belt wheel cavity are symmetrically arranged at the left side and the right side of the top arm transmission belt cavity, a right arm transmission belt shaft which extends backwards into the right arm belt wheel cavity and extends forwards into the right arm belt wheel cavity is connected at the rear end wall of the right side belt transmission bevel gear cavity in a rotating fit manner, a right arm transmission belt is connected between the right arm transmission belt shaft and the clutch engagement block shaft in a power fit manner, a left arm transmission belt shaft which extends backwards into the left arm belt wheel cavity and extends forwards into the left side belt transmission bevel gear cavity is connected at the rear end wall of the left side belt transmission bevel gear cavity in a rotating fit manner, a left arm transmission belt shaft is connected between the left arm transmission belt shaft and the clutch engagement block shaft in a power fit manner, belt transmission bevel gears which are symmetrically arranged left and right by taking the clutch engagement block shaft as the center are fixedly connected at the tail ends of the front sides of the motor and the right, the tail end of the outer side of the connecting box body is fixedly connected with a right belt transmission shaft which is symmetrically arranged by taking the connecting box body as a center, the inner side of the connecting box body is positioned at the outer side of the belt transmission bevel gear cavity, the inner end wall of the inner end of the connecting box body is connected with a belt transmission shaft which extends inwards into the belt transmission bevel gear cavity and extends outwards into the belt transmission bevel gear cavity in a rotating and matching manner, the tail end of the inner side of the belt transmission shaft is fixedly connected with a belt transmission main bevel gear which is meshed with the belt transmission bevel gear and is meshed with the right belt transmission bevel gear, the lower side of the outer side of the belt transmission shaft is provided with the waxing wheel pushing mechanism which is transversely arranged, the upper end wall of the bevel gear transmission cavity is connected with a two-arm bevel gear shaft which extends upwards into the belt transmission bevel gear and extends downwards into the bevel gear transmission cavity in a rotating and matching manner, the tail end of, transversely set up in the waxing wheel pushing mechanism two arms promote chamber left side intercommunication and are equipped with two arms carousel chamber, two arms carousel chamber upside is located and is located the left two arms carousel axle chamber in bevel gear transmission chamber, two arms carousel axle chamber right side is equipped with and is located the left two arms rack chamber in bevel gear transmission chamber, two arms rack chamber with be equipped with the rack transmission chamber between the two arms carousel axle chamber, two arms carousel chamber upper end wall internal rotation fit is connected with upwards extend to two arms carousel axle intracavity and downwardly extending reach two arms carousel axle of two arms carousel intracavity, the terminal fixedly connected with two arms carousel of two arms carousel axle downside.

On the basis of the technical scheme, the tail end of the lower side of the two-arm rotary disc is fixedly connected with a two-arm rotary disc pin, the tail end of the lower side of the two-arm rotary disc pin is connected with a two-arm reciprocating push rod which extends inwards to and is transversely arranged in the waxing wheel pushing mechanism and is hinged with the tail end of the outer side of the two-arm pushing sleeve, the tail end of the upper side of the two-arm rotary disc shaft is fixedly connected with a rack secondary bevel gear, the inner end wall of the cavity of the two-arm rotary disc shaft is connected with a two-arm gear shaft which extends inwards to the inside of the rack transmission cavity and extends outwards to the inside of the cavity of the two-arm rotary disc shaft in a rotating fit manner, the tail end of the side of the two-arm gear shaft is fixedly connected with a rack main bevel gear meshed with the rack secondary bevel gear, the tail end of the inner side of the two-arm gear shaft is fixedly connected with a rack transmission, the tail ends of the outer sides of the two-arm rack shafts are fixedly connected with rack shaft gears meshed with the rack transmission gears, the tail ends of the inner sides of the two-arm rack shafts are fixedly connected with two-arm rack gears, the outer end walls of the cavities of the two-arm racks are connected with two-arm racks in a sliding fit manner, the tail ends of the front sides of the two-arm racks are meshed with the two-arm rack gears, the tail ends of the upper and lower sides of a push rod bevel gear cavity in the transverse waxing wheel pushing mechanism are fixedly connected with rotating homodromous boxes symmetrically arranged by taking the push rod bevel gear cavity as a center, the outer sides of the two-arm waxing cotton are provided with pushing gear cavities positioned in the rotating homodromous boxes, the inner end walls of the pushing gear cavities are connected with pushing box main shafts which extend inwards into the two-arm waxing cotton and outwards to the pushing gear cavities in a rotating manner in a matched manner, and the tail ends of the inner sides of, and the tail end of the outer side of the main shaft of the pushing box body is fixedly connected with a pushing auxiliary bevel gear.

On the basis of the technical scheme, a equidirectional bevel gear cavity is arranged at the right side of the pushing gear cavity, a equidirectional bevel gear shaft which extends leftwards into the pushing gear cavity and rightwards into the equidirectional bevel gear cavity is connected with the left end wall of the equidirectional bevel gear cavity in a rotating and matching manner, a equidirectional main bevel gear which is meshed with the pushing auxiliary bevel gear is fixedly connected with the left end of the equidirectional bevel gear shaft, an equidirectional auxiliary bevel gear is fixedly connected with the right end of the equidirectional bevel gear shaft, a two-arm waxing shaft is connected between the equidirectional bevel gear cavity in a rotating and matching manner, two-arm shaft bevel gears which are meshed with the equidirectional auxiliary bevel gear are fixedly connected with the outer end of the two-arm waxing shaft, two-arm waxing cotton located in the two-arm waxing shaft are fixedly connected with the outer edge surface of the two-arm waxing shaft, a shifting piece cavity is communicated with the upper side of the, a plectrum slide block stop block is fixedly connected in the upper end wall of the slide block cavity, a plectrum shaft penetrating through the plectrum slide block stop block is connected between the slide block cavities in a rotating fit manner, a plectrum extending downwards to the inner side is fixedly connected on the outer edge surface of the plectrum shaft, a plectrum slide block positioned in the slide block cavity is fixedly connected on the outer edge surface of the plectrum shaft, a plectrum compression spring is fixedly connected between the front end of the plectrum slide block and the lower end of the plectrum slide block stop block, the lower side is communicated with a press block cavity symmetrically arranged in front and back by taking the plectrum as the center, a press block capable of entering the inner side is connected in an inner sliding fit manner in the upper end wall of the press block cavity, a press block shaft cavity is communicated with the lower side of the press block cavity, a trigger cavity is communicated with the lower side of the press block shaft cavity, the pressure trigger downside terminal with fixedly connected with trigger spring under the chamber between the terminal wall, pressure trigger downside terminal with two arm rack of fixedly connected with stay cords between the end of two arm rack upside, the briquetting downside terminal with fixedly connected with top arm rack stay cord between the end of top arm rack upside, plectrum slider outer fringe face with clutch bearing left side links firmly between the end has the separation and reunion stay cord.

The invention has the beneficial effects that: the pressing block moves downwards through the vehicle, so that the pressure trigger is triggered to start the motor, the two-arm waxing cotton and the top-arm waxing cotton move inwards and downwards to the waxing position respectively, the two-arm waxing cotton and the top-arm waxing cotton rotate, the preparation work is completed, the top-arm box body and the connecting box body are pushed to move forwards, the two-arm waxing cotton and the top-arm waxing cotton are indirectly pushed to move forwards, the whole vehicle is waxed through contraction control in contact with the vehicle, and the whole machine is restored to the initial position through resilience of the pressing block after the vehicle is waxed, so that the circulation purpose is achieved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of an automatic waxing machine for automobiles, according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B-B in fig. 1.

Fig. 4 is an enlarged schematic view of C-C in fig. 2.

Fig. 5 is an enlarged schematic view of D-D in fig. 2.

Fig. 6 is an enlarged schematic view of E-E in fig. 2.

Fig. 7 is an enlarged schematic view of F-F in fig. 6.

Fig. 8 is an enlarged schematic view of G in fig. 1.

Fig. 9 is an enlarged schematic view of H in fig. 1.

Fig. 10 is an enlarged schematic view of I in fig. 2.

Fig. 11 is an enlarged structural view of J in fig. 4.

Fig. 12 is an enlarged schematic view of K in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-12, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The automatic waxing device for the automobile, which is described with reference to fig. 1-12, includes a main box 10, a top arm sliding cavity 18 is provided in the main box 10, a 11 is provided in the bottom of the top arm sliding cavity 18, a top arm box 19 extending downward into the 11 is connected to the upper end wall of the top arm sliding cavity 18 in a sliding fit manner, a connecting box 20 located in the 11 is fixedly connected to the bottom end of the top arm box 19, a motor 53 is provided in the connecting box 20, a clutch cavity 142 is provided on the front side of the motor 53, two arm motor shafts 137 extending forward into the clutch cavity 142 are fixedly connected to the front end of the motor 53, a motor shaft bearing 138 located in the clutch cavity 142 is connected to the outer edge surface of the motor shafts 137 in a rotating fit manner, an engaging block transmission cavity 52 is provided on the front side of the clutch cavity 142, a left arm pulley cavity 50 is provided on the front side of the engaging block transmission cavity 52, a right arm belt wheel cavity 51 is arranged on the front side of the left arm belt wheel cavity 50, a top arm belt wheel cavity 39 extending upwards into the top arm box 19 is arranged on the front side of the right arm belt wheel cavity 51, a clutch engagement block shaft 49 extending backwards and penetrating through the right arm belt wheel cavity 51, the left arm belt wheel cavity 50 and the engagement block transmission cavity 52 until extending into the clutch cavity 142 and extending forwards into the top arm belt wheel cavity 39 is connected on the front end wall of the top arm belt wheel cavity 39 in a rotating fit manner, an engagement block bevel gear 54 positioned in the engagement block transmission cavity 52 is fixedly connected on the outer edge surface of the clutch engagement block shaft 49, a clutch engagement block 143 is fixedly connected on the rear end of the clutch engagement block shaft 49, a clutch sleeve 136 capable of being engaged with the clutch engagement block 143 is connected on the outer edge surface of the motor shaft 137 in a spline fit manner, and a motor compression spring 139 is fixedly connected between the rear end of the clutch sleeve 136 and the front end of the motor shaft bearing 138, a main box body reciprocating cavity 36 which is positioned at the rear side of the top arm transmission belt cavity 39 and is positioned in the top arm box body 19 is arranged on the upper side of the meshing block transmission cavity 52, a reciprocating turntable shaft 35 which extends downwards into the meshing block transmission cavity 52 and extends upwards into the main box body reciprocating cavity 36 is connected in a rotating and matching manner on the lower end wall of the main box body reciprocating cavity 36, a reciprocating turntable 34 is fixedly connected at the upper end of the reciprocating turntable shaft 35, a turntable bevel gear 146 which is meshed with the meshing block bevel gear 54 is fixedly connected at the lower end of the reciprocating turntable 34, a main box body push rod pin 37 is fixedly connected at the upper end of the reciprocating turntable 34, a reciprocating push rod 33 which extends leftwards into the top arm sliding cavity 18 and is hinged with the left end wall of the top arm sliding cavity 18 is connected on the outer edge surface of the main box body push rod pin 37 in a rotating and matching manner, a top arm bevel gear cavity 44 is arranged on the front side of the, top arm bevel gear chamber 44 rear end wall internal rotation fit is connected and extends to backward in the top arm driving belt chamber 39 and extend to forward top arm band pulley main shaft 40 in the top arm bevel gear chamber 44, top arm band pulley main shaft 40 with power fit is connected with top arm main driving belt 38 between the separation and reunion engagement piece axle 49, the terminal fixedly connected with top arm main bevel gear 41 in top arm band pulley main shaft 40 rear side, top arm box 19 right side end with fixedly connected with top arm reciprocating spring 48 between the top arm sliding chamber 18 right-hand member wall.

In addition, in one embodiment, a top arm rotating disk cavity 106 is arranged at the lower side of the top arm bevel gear cavity 44, a top arm gear cavity 111 is arranged at the left side of the top arm rotating disk cavity 106, a top arm gear rack cavity 116 is arranged at the left side of the top arm gear cavity 111, a top arm gear shaft 115 which extends rightwards into the top arm gear cavity 111 and leftwards into the top arm gear rack cavity 116 is connected in a rotating fit manner in the right end wall of the top arm gear rack cavity 116, a top arm gear 114 is fixedly connected at the left end of the top arm gear shaft 115, a top arm rack 113 is connected in a sliding fit manner in the left end wall of the top arm gear rack cavity 116, the rear end of the top arm rack 113 is meshed with the outer edge surface of the top arm gear 114, a top arm transmission gear 112 is fixedly connected at the right end of the top arm gear shaft 115, a top arm rotating disk shaft 110 which extends rightwards into the top arm rotating disk cavity 106 is connected in a rotating fit manner in, top arm carousel axle 110 outer fringe face fixedly connected with be located in top arm gear chamber 111 and with top arm carousel gear 117 of top arm drive gear 112 meshing, top arm carousel axle 110 has the terminal fixedly connected with top arm carousel 109 of side, the terminal fixedly connected with top arm carousel round pin 108 in top arm carousel 109 right side, top arm carousel chamber 106 downside is equipped with fore-and-aft waxing wheel pushing mechanism, top arm carousel chamber 106 right side is equipped with and is located sub-bevel gear shaft 42 right side top arm pulley chamber 148, it is connected with and extends to left to rotate the cooperation on the top arm pulley chamber 148 right-hand member wall top arm bevel gear chamber 44 just extends to right sub-bevel gear shaft 42 in the top arm pulley chamber 148.

In addition, in one embodiment, the waxing wheel pushing mechanism includes a two-arm pushing cavity 82, the right side of the two-arm pushing cavity 82 is provided with a two-arm pushing box 101 located in the 11, the two-arm pushing box 101 is provided with a push rod bevel gear cavity 102, the right end wall of the two-arm pushing cavity 82 is connected with a two-arm pushing sleeve 81 in a sliding fit manner, the two-arm pushing sleeve 81 is provided with an opening extending upward and rightward to a two-arm spring cavity 83 communicated with the 11, the lower end wall of the two-arm spring cavity 83 is fixedly connected with a push rod sleeve 105, the left end wall of the two-arm spring cavity 83 is connected with a two-arm pushing rod shaft 85 extending rightward and penetrating through the push rod sleeve 105 until extending into the push rod bevel gear cavity 102 and rightward to the two-arm spring cavity 83, the outer edge surface of the two-arm pushing rod shaft 85 is connected with a two-arm sliding cavity 58 located in the two-arm spring cavity 83 in a rotating fit manner, a two-arm compression spring 30 is fixedly connected between the rear end of the two-arm sliding cavity 58 and the left end wall of the two-arm spring cavity 83, the outer edge surface of the two-arm push rod shaft 85 is fixedly connected with a two-arm auxiliary friction wheel 84 which is positioned in the two-arm spring cavity 83 and has a part positioned in the two-arm spring cavity 83, the right end of the two-arm push rod shaft 85 is fixedly connected with a push rod shaft bevel gear 100, the upper side of the two-arm push cavity 82 is communicated with a friction wheel cavity 79, the left side of the friction wheel cavity 79 is provided with a bevel gear transmission cavity 76 which is positioned on the upper side of the two-arm push cavity 82, the right end wall of the bevel gear transmission cavity 76 is rotationally and fittingly connected with a friction wheel shaft 77 which extends rightwards and penetrates through the friction wheel cavity 79 until the right end wall of the friction wheel cavity 79 extends leftwards and the bevel gear transmission cavity 76, the left end of, the outer edge surface of the friction wheel shaft 77 is fixedly connected with two arm main friction wheels 80 which are positioned in the friction wheel cavity 79 and partially positioned in the two arm pushing cavities 82 and abutted against the two arm auxiliary friction wheels 84.

In addition, in one embodiment, the two-arm pushing cavity 82 in the waxing wheel pushing mechanism arranged longitudinally is communicated with and arranged at the lower side of the top arm rotating disc cavity 106 and penetrates through the connecting box body 20 downwards until the end of the lower side of the connecting box body 20 is communicated with the 11, the outer edge surface of the top arm rotating disc pin 108 is connected with a top arm rotating disc push rod 107 which extends downwards to be hinged with the end of the upper side of the two-arm pushing cavity 82 in the waxing wheel pushing mechanism arranged longitudinally, the upper end wall of the bevel gear transmission cavity 76 in the waxing wheel pushing mechanism arranged longitudinally is connected with a top arm belt wheel shaft 118 which extends inwards to the top arm belt wheel cavity 148 and inwards to the bevel gear transmission cavity 76, the left end of the top arm belt wheel shaft 118 is fixedly connected with a belt wheel shaft bevel gear 119 which is meshed with the transmission auxiliary bevel gear 78, a top arm transmission belt 104 is connected between the top arm belt wheel shaft 118 and the auxiliary bevel gear shaft 42 in a power fit manner, liquid storage tanks 120 are symmetrically and fixedly connected to the left and right sides of the push rod bevel gear cavity 102 in the waxing wheel pushing mechanism which is longitudinally arranged, liquid storage transmission cavities 121 which are positioned at the two sides of the push rod bevel gear cavity 102 are arranged in the liquid storage tanks 120, a top arm bevel gear shaft 125 which extends inwards to the push rod bevel gear cavity 102 and outwards to the liquid storage transmission cavities 121 is connected in a rotating fit manner to the inner end wall of the liquid storage transmission cavities 121, a top arm bevel gear 129 which is positioned in the push rod bevel gear cavity 102 and is meshed with the push rod shaft bevel gear 100 is fixedly connected to the outer edge surface of the top arm bevel gear shaft 125, a main bevel gear 124 which is positioned in the liquid storage transmission cavity 121 is fixedly connected to the outer edge surface of the top arm bevel gear shaft 125, and a liquid infusion bevel gear cavity 133 is arranged at, infusion bevel gear chamber 133 upper end wall internal rotation cooperation is connected with and upwards extends to in the stock solution transmission chamber 121 and downwardly extends to stock solution counter drive shaft 123 in the infusion bevel gear chamber 133, stock solution counter drive shaft 123 outer fringe face fixedly connected with is located in the stock solution transmission chamber 121 and with stock solution main bevel gear 124 meshed stock solution counter bevel gear 122, the terminal fixedly connected with in stock solution counter drive shaft 123 downside is located infusion bevel gear 135 in infusion bevel gear chamber 133, the infusion bevel gear chamber 133 outside is equipped with and is located the stock solution chamber 59 in the stock solution transmission chamber 121 outside, the intercommunication in stock solution chamber 59 outside is equipped with outside open-ended infusion chamber 91, it runs through to rotate the cooperation between the stock solution chamber 59 top arm centrifugal shaft 128 in infusion bevel gear chamber 133, it is equipped with infusion centrifugal chamber 132 to link up about in the top arm centrifugal shaft 128, top arm centrifugal shaft 128 outer fringe face fixedly connected with is located in the infusion bevel gear chamber 133 and with infusion bevel gear chamber 133 A centrifugal shaft bevel gear 134 engaged with the liquid bevel gear 135, the outer edge surface of the top arm centrifugal shaft 128 is fixedly connected with a top arm waxing cotton 126 positioned in the chamber 11, and a wax liquid centrifugal chamber 127 communicated with the transfusion centrifugal chamber 132 inwards is arranged in the top arm waxing cotton 126.

In addition, in one embodiment, the top arm transmission belt cavity 39 is symmetrically provided with a belt transmission bevel gear cavity 17 at the left and right sides, the belt transmission bevel gear cavity 17 is respectively located at the front side of the right arm transmission belt cavity 51 and the front side of the left arm transmission belt cavity 50, the rear end wall of the right side belt transmission bevel gear cavity 17 is rotationally and cooperatively connected with a right arm transmission belt shaft 56 which extends backwards into the right arm transmission belt cavity 51 and forwards into the right side belt transmission bevel gear cavity 17, the right arm transmission belt shaft 56 and the clutch engagement block shaft 49 are rotationally and cooperatively connected with a right arm transmission belt 55, the rear end wall of the left side belt transmission bevel gear cavity 17 is rotationally and cooperatively connected with a left arm transmission belt shaft 130 which extends backwards into the left arm transmission belt cavity 50 and forwards into the left side belt transmission bevel gear cavity 17, a left arm transmission belt 131 is rotationally and cooperatively connected between the left arm transmission belt shaft 130 and the clutch engagement block shaft 49, the motor 53, The tail end of the front side of the right arm transmission belt shaft 56 is fixedly connected with belt transmission bevel gears 57 which are arranged in bilateral symmetry by taking the clutch engagement block shaft 49 as a center, the tail end of the outer side of the connecting box body 20 is fixedly connected with a right 12 which is arranged in bilateral symmetry by taking the connecting box body 20 as a center, a 13 which is positioned at the outer side of the belt transmission bevel gear cavity 17 is arranged in the 12, a belt transmission shaft 15 which extends inwards to the belt transmission bevel gear cavity 17 and extends outwards to the 13 is connected in a rotating fit manner to the inner end wall of the 13, a belt transmission main bevel gear 16 which is meshed with the belt transmission bevel gear 57 is fixedly connected at the right side to the inner end wall of the belt transmission shaft 15, a 14 is fixedly connected at the outer end of the belt transmission shaft 15, the lower side of the 13 is provided with the waxing wheel pushing mechanism which is transversely arranged, and a two arm bevel gear shaft 31 which extends upwards to the 13 and extends downwards to, the tail end of the upper side of the two-arm bevel gear shaft 31 is fixedly connected with a two-arm secondary bevel gear 32 meshed with the top arm gear 114, the tail end of the lower side of the two-arm bevel gear shaft 31 is fixedly connected with a transmission main bevel gear 75 meshed with the transmission secondary bevel gear 78, the left side of the two-arm pushing cavity 82 in the waxing wheel pushing mechanism transversely arranged is communicated with a two-arm turntable cavity 27, the upper side of the two-arm turntable cavity 27 is arranged in a two-arm turntable shaft cavity 25 positioned on the left side of the bevel gear transmission cavity 76, the right side of the two-arm turntable shaft cavity 25 is provided with a two-arm rack cavity 95 positioned on the left side of the bevel gear transmission cavity 76, a rack transmission cavity 70 is arranged between the two-arm rack cavity 95 and the two-arm turntable shaft cavity 25, the upper end wall of the two-arm turntable cavity 27 is rotatably connected with a two-arm turntable shaft 23 which extends upwards into the two-arm turntable shaft cavity 25 and downwards into the two-arm turntable, the lower end of the two-arm turntable shaft 23 is fixedly connected with a two-arm turntable 26.

In addition, in an embodiment, the end of the lower side of the two-arm rotating disc 26 is fixedly connected with a two-arm rotating disc pin 28, the end of the lower side of the two-arm rotating disc pin 28 is connected with a two-arm reciprocating push rod 29 which extends inwards to and is transversely arranged in the waxing wheel pushing mechanism and is hinged to the end of the outer side of the two-arm pushing sleeve 81, the end of the upper side of the two-arm rotating disc shaft 23 is fixedly connected with a rack secondary bevel gear 24, the inner end wall of the two-arm rotating disc shaft cavity 25 is connected with a rack main bevel gear 22 which extends inwards to the inside of the rack transmission cavity 70 and extends outwards to the inside of the two-arm rotating disc shaft cavity 25 in a rotating fit mode, the two-arm gear shaft 21 is fixedly connected with a rack main bevel gear 22 which is meshed with the rack secondary bevel gear 24 in the side end, the end of the inner side of the two-arm gear shaft 21 is fixedly connected with a rack transmission gear 71, the inner end of the end wall of the rack transmission cavity The outer end of the two-arm rack shaft 73 is fixedly connected with a rack shaft gear 72 meshed with the rack transmission gear 71, the inner end of the two-arm rack shaft 73 is fixedly connected with two-arm rack gears 74, the outer end wall of the two-arm rack cavity 95 is connected with two-arm racks 69 in a sliding fit manner, the front end of each two-arm rack 69 is meshed with the two-arm rack gears 74, the upper end and the lower end of the push rod bevel gear cavity 102 in the waxing wheel pushing mechanism which are transversely arranged are fixedly connected with rotating homodromous boxes 98 which are symmetrically arranged by taking the push rod bevel gear cavity 102 as the center, the outer side of the two-arm waxing wheel 103 is provided with a pushing gear cavity 87 which is positioned in the rotating homodromous boxes 98, the inner end wall of the pushing gear cavity 87 is connected with a pushing box main shaft 89 which extends inwards to the two-arm waxing sponge 103 and outwards to the pushing gear cavity 87 in a rotating fit manner, the tail end of the inner side of the pushing box main shaft 89 is fixedly connected with a pushing rod main bevel gear 99 meshed with the pushing rod shaft bevel gear 100, and the tail end of the outer side of the pushing box main shaft 89 is fixedly connected with a pushing auxiliary bevel gear 88.

In addition, in one embodiment, a same-direction bevel gear cavity 93 is arranged at the right side of the pushing gear cavity 87, a same-direction bevel gear shaft 92 extending leftwards into the pushing gear cavity 87 and rightwards into the same-direction bevel gear cavity 93 is connected in a rotationally matched manner at the left end wall of the same-direction bevel gear cavity 93, a same-direction main bevel gear 90 meshed with the pushing auxiliary bevel gear 88 is fixedly connected at the left end of the same-direction bevel gear shaft 92, a same-direction auxiliary bevel gear 94 is fixedly connected at the right end of the same-direction bevel gear shaft 92, a two-arm waxing shaft 96 is connected between the same-direction bevel gear cavities 93 in a rotationally matched manner, a two-arm shaft bevel gear 97 meshed with the same-direction auxiliary bevel gear 94 is fixedly connected at the outer end of the two-arm waxing shaft 96, a two-arm waxing cotton 103 positioned in the cavity 11 is fixedly connected at the outer edge surface of the two-arm waxing shaft 96, a shifting piece cavity 46 is communicated with the upper side of the top, the left side and the right side of the plectrum cavity 46 are communicated and provided with a slider cavity 144 which is symmetrically arranged by taking the plectrum cavity 46 as the center, the inner wall of the upper end of the slider cavity 144 is fixedly connected with a plectrum slider stop block 86, a plectrum shaft 45 which penetrates through the plectrum slider stop block 86 is connected between the slider cavities 144 in a rotating fit manner, the outer edge surface of the plectrum shaft 45 is fixedly connected with a plectrum 47 which extends downwards into the interior of the chamber 11, the outer edge surface of the plectrum shaft 45 is fixedly connected with a plectrum slider 147 which is positioned in the slider cavity 144, a plectrum compression spring 145 is fixedly connected between the front end of the plectrum slider 147 and the lower end of the plectrum slider stop block 86, the lower side of the chamber 11 is communicated and provided with pressing block cavities 61 which are symmetrically arranged by taking the chamber 11 as the center, the upper end wall of the pressing block cavity 61 is, briquetting shaft cavity 66 downside intercommunication is equipped with triggers chamber 65, the terminal fixed connection of briquetting 60 downside downwardly extending briquetting shaft 62 in briquetting shaft cavity 66, the terminal butt joint of 62 downside of briquetting shaft has pressure trigger 63, pressure trigger 63 downside terminal with fixedly connected with trigger spring 64 between the terminal wall under the chamber 65 of triggering, pressure trigger 63 downside terminal with fixedly connected with two arm rack stay cords 67 between the terminal of two arm rack 69 upsides, briquetting 60 downside terminal with fixedly connected with top arm rack stay cord 68 between the terminal of 113 upsides of top arm rack, plectrum slider 147 outer fringe face with clutch pull cord 140 has been linked firmly between clutch bearing 141 left side end.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-12, when the apparatus of the present invention is in the initial state, the motor 53 stops rotating, the motor compression spring 139 is in the relaxed state, the clutch sleeve 136 is engaged with the clutch engagement block 143, the main case push rod pin 37 is at the rightmost side in the main case reciprocating chamber 36, the top arm reciprocating spring 48 is in the relaxed state, the paddle 47 is in the vertical state, the paddle compression spring 145 is in the relaxed state, the clutch cord 140 is in the stretched straight state, the trigger spring 64 is in the relaxed state, the two-arm rack cord 67, the top arm rack pull rope 68 is in a stretched straight state, the top arm turntable pin 108 is located at the highest position in the top arm turntable cavity 106, the two-arm push rod shaft 85 is located at the side close to the two-arm push sleeve 81, the two-arm compression spring 30 is in a relaxed state, the two-arm turntable pin 28 is located at the outermost side in the two-arm turntable cavity 27, and the pressing block 60 is located at the uppermost side in the pressing block cavity 61;

sequence of mechanical actions of the whole device:

when the automobile to be waxed runs to press down the pressing block 60, the pressing block 60 overcomes the elasticity of the trigger cavity 65 to move downwards under the action of the gravity of the automobile so as to drive the pressure trigger 63 to move downwards through the pressing block shaft 62, the two-arm rack 69 moves downwards under the action of the gravity of the automobile so as to drive the two-arm rack gear 74 to rotate, the rotation of the two-arm rack gear 74 drives the rack shaft gear 72 to rotate through the two-arm rack shaft 73 so as to drive the two-arm gear shaft 21 to rotate through the rack transmission gear 71, the rotation of the two-arm gear shaft 21 drives the rack main bevel gear 22 to rotate so as to drive the rotation of the two-arm turntable shaft 23 through the rack auxiliary bevel gear 24, the rotation of the two-arm turntable shaft 23 drives the two-arm turntable 26 to rotate, the rotation of the two-arm turntable 26 drives the two-arm turntable pin 28 to rotate, so that the two-arm push sleeve 81 is pushed to move inwards by the two-arm reciprocating push rod 29, the two-arm sliding cavity 58, the two-arm auxiliary friction wheel 84, the two-arm push rod shaft 85, the push rod sleeve 105 and the two-arm compression spring 30 in the two-arm push sleeve 81 are driven to move, the movement of the two-arm push rod shaft 85 drives the push rod shaft bevel gear 100 to move, so that the push rod main bevel gear 99 drives the push box main shaft 89 to move, the combination of the push box main bevel gear 89, the push rod main bevel gear 99 and the push rod shaft bevel gear 100 drives the push rod bevel gear cavity 102 to move, and the movement of the push rod bevel gear cavity 102 drives the rotation of the homodromous box 98 to move, thereby driving the push auxiliary bevel gear 88, the homodromous main bevel gear 90, the two-arm waxing shaft 96, the two-arm shaft bevel gear 97 and the two-arm waxing sponge 103 move, meanwhile, the pressing block 60 also moves through the top arm rack pull rope 68 to drive the top arm rack 113 to move downwards under the action of self gravity to drive the top arm gear 114 to rotate, the top arm gear 114 drives the 1-belt transmission shaft 15 to rotate, the belt transmission shaft 15 rotates to drive the top arm transmission gear 112 to rotate, the top arm rotating disc shaft 110 rotates through the 1-belt transmission bevel gear cavity 17, the top arm rotating disc shaft 110 rotates to drive the top arm rotating disc 109 to rotate, the top arm rotating disc push rod 107 is driven by the top arm rotating disc pin 108 to push the two-arm push sleeve 81 to move, and finally, the purpose of pushing the push rod shaft bevel gear 100 to move downwards is achieved, the downward movement of the top arm bevel gear 129 is driven by the push rod shaft 100 to move, the liquid storage bevel gear 124 is driven to move downwards through the top arm bevel gear shaft 125, and the push rod shaft bevel gear, The combined action of the top arm bevel gear 129 and the top arm bevel gear shaft 125 drives the liquid storage box body 120 to move downwards, and the movement of the liquid storage box body 120 drives the liquid storage auxiliary bevel gear 122, the liquid storage auxiliary transmission shaft 123, the liquid conveying bevel gear 135, the centrifugal shaft bevel gear 134, the top arm centrifugal shaft 128, the liquid storage cavity 59 and the liquid conveying cavity 91 in the liquid storage box body 120 to move downwards, so that the top arm waxing cotton 126 is driven to move downwards;

when the pressure trigger 63 moves to the lowest position of the trigger cavity 65, the top arm waxing sponge 126 and the two-arm waxing sponge 103 stop moving, the pressure trigger 63 triggers the motor 53 to start under the action of pressure, thereby driving the motor shaft 137 to rotate, the motor shaft 137 rotates to drive the clutch sleeve 136 to rotate, thereby driving the clutch pull rope 140 and the motor shaft bearing 138 to rotate, meanwhile, the rotation of the clutch sleeve 136 drives the clutch meshing block 143 to rotate, thereby driving the clutch meshing block shaft 49 to rotate, the clutch meshing block shaft 49 rotates to drive the meshing block bevel gear 54 to rotate, thereby driving the rotation of the reciprocating turntable shaft 35 through the turntable bevel gear 146, and the rotation of the reciprocating turntable shaft 35 drives the rotation of the reciprocating turntable 34, thereby driving the reciprocating push rod 33 to move rightwards through the main box push rod pin 37, finally pushing the top arm box 19 and the connecting box 20 to move rightwards, and simultaneously, the rotation of the clutch meshing block shaft 49 drives the top arm belt wheel main shaft 40 to rotate through the, the rotation of the top arm pulley main shaft 40 drives the top arm auxiliary bevel gear 43 to rotate, the rotation of the top arm auxiliary bevel gear 43 drives the auxiliary bevel gear shaft 42 to rotate, so that the top arm pulley shaft 118 is driven to rotate by a top arm transmission belt 104, the rotation of the top arm pulley shaft 118 drives the pulley shaft bevel gear 119 to rotate, the rotation of the pulley shaft bevel gear 119 drives the transmission auxiliary bevel gear 78 to rotate, so that the two arm main friction wheel 80 is driven to rotate by a friction wheel shaft 77, the two arm main friction wheel 80 rotates to drive the two arm auxiliary friction wheel 84 to rotate, so that the two arm compression spring 30 is driven to rotate, the rotation of the two arm compression spring 30 drives the push rod shaft bevel gear 100 to rotate, so that the top arm bevel gear 129 is driven to rotate, the rotation of the top arm bevel gear 129 drives the liquid storage main bevel gear 124 to rotate by a top arm bevel gear shaft 125, the liquid storage main bevel gear 124 rotates to drive the liquid storage auxiliary transmission shaft 123 to rotate by a liquid storage auxiliary bevel gear, the auxiliary transmission shaft 123 of the liquid storage rotates to drive the infusion bevel gear 135 to rotate, the infusion bevel gear 135 rotates to drive the top arm centrifugal shaft 128 to rotate through the centrifugal shaft bevel gear 134, the rotation of the top arm centrifugal shaft 128 drives the top arm waxing cotton 126 to rotate and simultaneously drives the wax liquid in the wax liquid centrifugal cavity 127 to rotate, and therefore the wax liquid in the wax liquid centrifugal cavity 127 can enable the top arm waxing cotton 126 to fully absorb the wax liquid under the centrifugal action in the rotating process;

meanwhile, the rotation of the meshing block bevel gear 54 drives the left arm transmission belt shaft 130 and the right arm transmission belt shaft 56 to rotate through the left arm transmission belt 131 and the right arm transmission belt 55 respectively, so that the electric belt transmission bevel gear 57 rotates, the rotation of the belt transmission bevel gear 57 drives the belt transmission shaft 15 to rotate through the belt transmission main bevel gear 16, so that the belt transmission shaft 15 drives the shaft 14 to rotate, the rotation of the shaft 14 drives the rotation of the two-arm bevel gear shaft 31 through the two-arm auxiliary bevel gear 32, the rotation of the two-arm bevel gear shaft 31 drives the transmission auxiliary bevel gear 78 to rotate through the transmission main bevel gear 75, so that the friction wheel chamber 79 is driven to rotate through the friction wheel shaft 77, and finally the rotation of the push rod shaft bevel gear 100 is driven, the movement of the push rod shaft bevel gear 100 drives the rotation of the push box main shaft 89 through the push rod main bevel gear 99, the rotation of the push box main shaft 89 drives the rotation of the push auxiliary bevel gear 88 to, the rotation of the same-direction bevel gear shaft 92 drives the rotation of the same-direction auxiliary bevel gear 94, so as to drive the rotation of the two-arm shaft bevel gear 97, and the rotation of the two-arm shaft bevel gear 97 drives the rotation of the two-arm waxing cotton 103 through the two-arm waxing shaft 96;

meanwhile, the right movement of the top arm box body 19 and the connecting box body 20 drives the two-arm waxing cotton 103 and the 1 two-arm rotating disc 26 to move, so that the two-arm waxing cotton 103 is contacted with the two sides of the vehicle in the moving process to drive the two-arm waxing cotton 103 to rotate to the box body 98 in the same direction, the two-arm pushing box body 101 is extruded to overcome the elasticity of the two-arm compression spring 30 to move outwards, meanwhile, the 1 two-arm rotating disc 26 is contacted with the tail end part of the upper side of the vehicle in the moving process to be extruded to overcome the elasticity of the two-arm compression spring 30 to move upwards, and the wax liquid in the top arm waxing cotton 126 is extruded to partially overflow to the two sides of the vehicle in the moving process due to extrusion, so that the wax liquid can be contacted with the two-arm waxing cotton 103 at the two sides while the tail end of the upper side of the vehicle can be waxed in all directions, the waxing of the whole vehicle is realized, and the top arm box body, the movement is continued to drive the shifting piece 47 to rotate, the rotation of the shifting piece 47 drives the shifting piece shaft 45 to rotate, the rotation of the shifting piece shaft 45 drives the shifting piece sliding block 147 to rotate whether the elastic force of the shifting piece compression spring 145 and the elastic force of the motor compression spring 139 rotate and enable the shifting piece compression spring 145 to compress and pull 39, the pulling of the motor compression spring 139 enables the clutch bearing 141 to move leftwards, the clutch bearing 141 moves leftwards to drive the clutch sleeve 136 to move, so that the clutch sleeve 136 is disengaged from the clutch engagement block 143, the purpose that the whole vehicle stops operating after the whole vehicle is waxed is achieved, at the moment, the vehicle is driven out of the device through the 11, the pressing block 60 overcomes the gravity effect of the pressing block shaft 62, the pressure trigger 63, the top arm rack 113 and the two arm racks 69 under the elastic force of the trigger spring 64 after the gravity effect of the upper side is lost, and then moves upwards to the initial position, so that the two arm, The top arm waxing sponge 126 restores to the initial position and stops rotating with the motor 53, meanwhile, under the action of the elastic force of the top arm reciprocating spring 48, the top arm box body 19 and the connecting box body 20 overcome the friction force caused by the pressure exerted on the reciprocating push rod 33 by the self gravity to push the top arm box body 19 and the connecting box body 20 to move left to restore the initial position, in the process that the top arm box body 19 and the connecting box body 20 move left, the plectrum sliding block 147 restores to the initial position under the action of the elastic force of the plectrum compression spring 145 and the motor compression spring 139, so that the clutch sleeve 136 is meshed with the clutch meshing block 143 again, and the purpose that the whole machine restores to the initial position after the vehicle leaves is achieved, and the purpose of circular waxing is achieved.

The invention has the beneficial effects that: the pressing block moves downwards through the vehicle, so that the pressure trigger is triggered to start the motor, the two-arm waxing cotton and the top-arm waxing cotton move inwards and downwards to the waxing position respectively, the two-arm waxing cotton and the top-arm waxing cotton rotate, the preparation work is completed, the top-arm box body and the connecting box body are pushed to move forwards, the two-arm waxing cotton and the top-arm waxing cotton are indirectly pushed to move forwards, the whole vehicle is waxed through contraction control in contact with the vehicle, and the whole machine is restored to the initial position through resilience of the pressing block after the vehicle is waxed, so that the circulation purpose is achieved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides an automatic waxing machine device of car, includes the main tank body, its characterized in that: the improved structure of the belt pulley box is characterized in that a top arm sliding cavity is arranged in the main box body, the lower side of the top arm sliding cavity is communicated with the main box body, a motor is arranged in the top arm sliding cavity, the upper end wall of the top arm sliding cavity is connected with a top arm box body extending downwards, the tail end of the lower side of the top arm box body is fixedly connected with a connecting box body located in the top arm box body, a clutch cavity is arranged in the connecting box body, the front side of the motor is provided with a clutch cavity, the tail end of the front side of the motor is fixedly connected with a two-arm motor shaft extending forwards in the clutch cavity, the outer edge surface of the motor shaft is connected with a motor shaft bearing located in the clutch cavity in a rotating and matching mode, the front side of the clutch cavity is provided with a meshing block transmission cavity, the front side of the meshing block transmission cavity is provided with a left arm belt pulley cavity, the front side of the left arm belt pulley cavity is provided with a right arm belt pulley cavity, the front side of the right, The left arm belt wheel cavity and the meshing block transmission cavity extend into the clutch cavity and extend forwards into a clutch meshing block shaft in the top arm transmission belt cavity, the outer edge surface of the clutch meshing block shaft is fixedly connected with a meshing block bevel gear positioned in the meshing block transmission cavity, the tail end of the rear side of the clutch meshing block shaft is fixedly connected with a clutch meshing block, the outer edge surface of a motor shaft is in spline fit connection with a clutch sleeve capable of being meshed with the clutch meshing block, a motor compression spring is fixedly connected between the tail end of the rear side of the clutch sleeve and the tail end of the front side of a motor shaft bearing, the upper side of the meshing block transmission cavity is provided with a main box body reciprocating cavity positioned at the rear side of the top arm transmission belt cavity and positioned in the top arm box body, the lower end wall of the main box body reciprocating cavity is in rotation fit connection with a reciprocating turntable shaft which extends downwards into the meshing block transmission cavity and upwards extends into the main box body reciprocating cavity, the tail end of the upper side of the reciprocating rotary disc shaft is fixedly connected with a reciprocating rotary disc, the tail end of the lower side of the reciprocating rotary disc is fixedly connected with a rotary disc bevel gear meshed with the meshing block bevel gear, the tail end of the upper side of the reciprocating rotary disc is fixedly connected with a main box push rod pin, the outer edge surface of the main box push rod pin is connected with a reciprocating push rod which extends leftwards into the top arm sliding cavity and is hinged with the left end wall of the top arm sliding cavity in a rotating fit manner, the front side of the top arm transmission belt cavity is provided with a top arm bevel gear cavity, the rear end wall of the top arm bevel gear cavity is connected with a top arm belt wheel main shaft which extends backwards into the top arm transmission belt cavity and forwards into the top arm bevel gear cavity in a rotating fit manner, a top arm main transmission belt is connected between the top arm belt wheel main shaft and the clutch meshing block shaft in a, and a top arm reciprocating spring is fixedly connected between the right end of the top arm box body and the right end wall of the top arm sliding cavity.

2. The automatic waxing device for automobiles of claim 1, wherein: a top arm rotary disc cavity is arranged at the lower side of the top arm bevel gear cavity, a top arm gear cavity is arranged at the left side of the top arm rotary disc cavity, a top arm rack cavity is arranged at the left side of the top arm gear cavity, a top arm gear shaft which extends rightwards into the top arm gear cavity and leftwards into the top arm rack cavity is connected in a rotating fit manner in the right end wall of the top arm rack cavity, a top arm gear is fixedly connected at the tail end of the left side of the top arm gear shaft, a top arm rack is connected in a sliding fit manner in the left end wall of the top arm rack cavity, the tail end of the rear side of the top arm rack is meshed with the outer edge surface of the top arm gear, a top arm transmission gear is fixedly connected at the tail end of the right side of the top arm gear shaft, a top arm rotary disc shaft which extends rightwards into the top arm rotary disc cavity is connected in a rotating fit manner in the left end wall of the top arm gear cavity, and a top, the top arm turntable shaft is provided with a side end fixedly connected with a top arm turntable, the right end fixedly connected with a top arm turntable pin is arranged on the right side of the top arm turntable, a longitudinal waxing wheel pushing mechanism is arranged on the lower side of a top arm turntable cavity, a top arm belt wheel cavity located on the right side of an auxiliary bevel gear shaft is arranged on the right side of the top arm turntable cavity, and the right end wall of the top arm belt wheel cavity is connected with an auxiliary bevel gear shaft which extends leftwards to the inside of the top arm bevel gear cavity and extends rightwards to the inside of the top arm belt wheel cavity in a rotating fit manner.

3. The automatic waxing device for automobiles of claim 2, wherein: the waxing wheel pushing mechanism comprises a two-arm pushing cavity, a two-arm pushing box body positioned in the two-arm pushing cavity is arranged on the right side of the two-arm pushing cavity, a push rod bevel gear cavity is arranged in the two-arm pushing box body, a two-arm pushing sleeve is connected on the right end wall of the two-arm pushing cavity in a sliding fit manner, a two-arm spring cavity with an opening extending upwards and rightwards to be communicated with the two-arm pushing cavity is arranged in the two-arm pushing sleeve, a push rod sleeve is fixedly connected in the lower end wall of the two-arm spring cavity, a two-arm push rod shaft extending rightwards and penetrating through the push rod sleeve is connected on the left end wall of the two-arm spring cavity in a sliding fit manner until the push rod bevel gear cavity extends into the two-arm spring cavity, a two-arm sliding cavity positioned in the two-arm spring cavity is connected on the outer edge surface of the two-arm push rod shaft in a rotating fit manner, and, the outer edge surface of the two-arm push rod shaft is fixedly connected with two-arm auxiliary friction wheels which are positioned in the two-arm spring cavities and have parts positioned in the two-arm spring cavities, the right end of the two-arm push rod shaft is fixedly connected with a push rod shaft bevel gear, the upper side of the two-arm push cavity is communicated with a friction wheel cavity, a bevel gear transmission cavity is arranged at the left side of the friction wheel cavity and positioned at the upper side of the two-arm pushing cavity, a friction wheel shaft which extends rightwards and penetrates through the friction wheel cavity until the friction wheel shaft extends into the right end wall of the friction wheel cavity and extends leftwards into the bevel gear transmission cavity is connected with the right end wall of the bevel gear transmission cavity in a rotating and matching manner, the transmission bevel gear is fixedly connected to the left end of the friction wheel shaft, and the outer edge face of the friction wheel shaft is fixedly connected with two arm main friction wheels which are located in the friction wheel cavities and partially located in the two arm pushing cavities and abutted to the two arm auxiliary friction wheels.

4. The automatic waxing device for automobiles of claim 3, wherein: the two-arm pushing cavity in the waxing wheel pushing mechanism which is longitudinally arranged is communicated with the lower side of the top-arm turntable cavity and penetrates through the connecting box body downwards until the two-arm pushing cavity extends to the tail end of the lower side of the connecting box body to be communicated with the connecting box body, the outer edge surface of the top-arm turntable pin is connected with a top-arm turntable push rod which extends downwards to the tail end of the upper side of the two-arm pushing cavity in the waxing wheel pushing mechanism which is longitudinally arranged in a matched mode, the upper end wall of the bevel gear transmission cavity in the waxing wheel pushing mechanism which is longitudinally arranged in a matched mode is connected with a top-arm belt wheel shaft which extends rightwards to the top-arm belt wheel cavity and extends leftwards to the bevel gear transmission cavity in a matched mode, the tail end of the left side of the top-arm belt wheel shaft is fixedly connected with a belt wheel shaft which is meshed with the auxiliary bevel gear, and a top, liquid storage box bodies are symmetrically and fixedly connected to the left side and the right side of the push rod bevel gear cavity in the waxing wheel pushing mechanism which is longitudinally arranged, liquid storage transmission cavities which are positioned on the two sides of the push rod bevel gear cavity are arranged in the liquid storage box bodies, top arm bevel gear shafts which extend inwards into the push rod bevel gear cavity and extend outwards into the liquid storage transmission cavities are connected to the inner end walls of the liquid storage transmission cavities in a rotating fit manner, top arm bevel gears which are positioned in the push rod bevel gear cavity and are meshed with the push rod shaft bevel gears are fixedly connected to the outer edge surfaces of the top arm bevel gear shafts, a liquid storage main bevel gear which is positioned in the liquid storage transmission cavities is fixedly connected to the outer edge surfaces of the top arm bevel gear shafts, an infusion bevel gear cavity is arranged on the lower side of the liquid storage transmission cavities, and a liquid storage auxiliary transmission shaft which extends upwards into the liquid storage, the outer edge surface of the liquid storage auxiliary transmission shaft is fixedly connected with a liquid storage auxiliary bevel gear which is positioned in the liquid storage transmission cavity and is meshed with the liquid storage main bevel gear, the tail end of the lower side of the liquid storage auxiliary transmission shaft is fixedly connected with an infusion bevel gear positioned in the infusion bevel gear cavity, a liquid storage cavity positioned outside the liquid storage transmission cavity is arranged outside the transfusion bevel gear cavity, a transfusion cavity with an outward opening is communicated outside the liquid storage cavity, a top arm centrifugal shaft which penetrates through the transfusion bevel gear cavity is connected between the liquid storage cavities in a rotating fit manner, a transfusion centrifugal cavity is arranged in the top arm centrifugal shaft in a left-right through way, the outer edge surface of the top arm centrifugal shaft is fixedly connected with a centrifugal shaft bevel gear which is positioned in the transfusion bevel gear cavity and is meshed with the transfusion bevel gear, the outer edge surface of the top arm centrifugal shaft is fixedly connected with the top arm waxing cotton positioned in the top arm waxing cotton, and a wax liquid centrifugal cavity communicated with the transfusion centrifugal cavity inwards is arranged in the top arm waxing cotton.

5. The automatic waxing device for automobiles of claim 1, wherein: the left side and the right side of the top arm transmission belt cavity are symmetrically provided with belt transmission bevel gear cavities which are respectively positioned at the front sides of the right arm transmission belt cavity and the left arm transmission bevel gear cavity, the rear end wall of the right side of the belt transmission bevel gear cavity is connected with a right arm transmission belt shaft which extends backwards into the right arm transmission belt cavity and extends forwards to the right side, the right arm transmission belt shaft and the clutch engagement block shaft are connected with a right arm transmission belt in a power fit manner, the rear end wall of the left side of the belt transmission bevel gear cavity is connected with a left arm transmission belt shaft which extends backwards into the left arm transmission belt cavity and extends forwards to the left side, the left arm transmission belt shaft and the clutch engagement block shaft are connected with a left arm transmission belt in a power fit manner, the front end of the motor and the right arm transmission belt shaft are fixedly connected with belt transmission bevel gears which are arranged in a left-right symmetry manner by taking the clutch engagement block shaft as a center, the tail end of the outer side of the connecting box body is fixedly connected with a right belt transmission shaft which is symmetrically arranged by taking the connecting box body as a center, the inner side of the connecting box body is positioned at the outer side of the belt transmission bevel gear cavity, the inner end wall of the inner end of the connecting box body is connected with a belt transmission shaft which extends inwards into the belt transmission bevel gear cavity and extends outwards into the belt transmission bevel gear cavity in a rotating and matching manner, the tail end of the inner side of the belt transmission shaft is fixedly connected with a belt transmission main bevel gear which is meshed with the belt transmission bevel gear and is meshed with the right belt transmission bevel gear, the lower side of the outer side of the belt transmission shaft is provided with the waxing wheel pushing mechanism which is transversely arranged, the upper end wall of the bevel gear transmission cavity is connected with a two-arm bevel gear shaft which extends upwards into the belt transmission bevel gear and extends downwards into the bevel gear transmission cavity in a rotating and matching manner, the tail end of, transversely set up in the waxing wheel pushing mechanism two arms promote chamber left side intercommunication and are equipped with two arms carousel chamber, two arms carousel chamber upside is located and is located the left two arms carousel axle chamber in bevel gear transmission chamber, two arms carousel axle chamber right side is equipped with and is located the left two arms rack chamber in bevel gear transmission chamber, two arms rack chamber with be equipped with the rack transmission chamber between the two arms carousel axle chamber, two arms carousel chamber upper end wall internal rotation fit is connected with upwards extend to two arms carousel axle intracavity and downwardly extending to two arms carousel axle of two arms carousel intracavity, the terminal fixedly connected with two arms carousel of two arms carousel axle downside.

6. The automatic waxing device for automobiles of claim 5, wherein: the tail end of the lower side of the two-arm rotary table is fixedly connected with a two-arm rotary table pin, the tail end of the lower side of the two-arm rotary table pin is connected with a two-arm reciprocating push rod which extends inwards to and transversely arranged in the waxing wheel pushing mechanism and is hinged with the tail end of the outer side of the two-arm pushing sleeve in a rotating fit mode, the tail end of the upper side of the two-arm rotary table shaft is fixedly connected with a rack secondary bevel gear, the inner end wall of the two-arm rotary table shaft cavity is connected with a two-arm gear shaft which extends inwards to the inside of the rack transmission cavity and extends outwards to the inside of the two-arm rotary table shaft cavity in a rotating fit mode, the tail end of the two-arm gear shaft is fixedly connected with a rack main bevel gear meshed with the rack secondary bevel gear at the tail end of the side, the tail end wall in the rack transmission cavity extends inwards to the inside of the two-, the tail ends of the outer sides of the two-arm rack shafts are fixedly connected with rack shaft gears meshed with the rack transmission gears, the tail ends of the inner sides of the two-arm rack shafts are fixedly connected with two-arm rack gears, the outer end walls of the cavities of the two-arm racks are connected with two-arm racks in a sliding fit manner, the tail ends of the front sides of the two-arm racks are meshed with the two-arm rack gears, the tail ends of the upper and lower sides of a push rod bevel gear cavity in the transverse waxing wheel pushing mechanism are fixedly connected with rotating homodromous boxes symmetrically arranged by taking the push rod bevel gear cavity as a center, the outer sides of the two-arm waxing cotton are provided with pushing gear cavities positioned in the rotating homodromous boxes, the inner end walls of the pushing gear cavities are connected with pushing box main shafts which extend inwards into the two-arm waxing cotton and outwards to the pushing gear cavities in a rotating manner in a matched manner, and the tail ends of the inner sides of, and the tail end of the outer side of the main shaft of the pushing box body is fixedly connected with a pushing auxiliary bevel gear.

7. The automatic waxing device for automobiles of claim 6, wherein: the right side of the pushing gear cavity is provided with a homodromous bevel gear cavity, the left end wall of the homodromous bevel gear cavity is connected with a homodromous bevel gear shaft which extends leftwards into the pushing gear cavity and rightwards into the homodromous bevel gear cavity in a rotating fit manner, the left end of the homodromous bevel gear shaft is fixedly connected with a homodromous main bevel gear which is meshed with the pushing auxiliary bevel gear, the right end of the homodromous bevel gear shaft is fixedly connected with a homodromous auxiliary bevel gear, a two-arm waxing shaft is connected between the homodromous bevel gear cavities in a rotating fit manner, the outer end of the two-arm waxing shaft is fixedly connected with a two-arm shaft bevel gear which is meshed with the homodromous auxiliary bevel gear, the outer edge surface of the two-arm waxing shaft is fixedly connected with two-arm waxing cotton which is positioned in the pushing gear cavity, the upper side of the top arm sliding cavity is communicated with a shifting, a plectrum slide block stop block is fixedly connected in the upper end wall of the slide block cavity, a plectrum shaft penetrating through the plectrum slide block stop block is connected between the slide block cavities in a rotating fit manner, a plectrum extending downwards to the inner side is fixedly connected on the outer edge surface of the plectrum shaft, a plectrum slide block positioned in the slide block cavity is fixedly connected on the outer edge surface of the plectrum shaft, a plectrum compression spring is fixedly connected between the front end of the plectrum slide block and the lower end of the plectrum slide block stop block, the lower side is communicated with a press block cavity symmetrically arranged in front and back by taking the plectrum as the center, a press block capable of entering the inner side is connected in an inner sliding fit manner in the upper end wall of the press block cavity, a press block shaft cavity is communicated with the lower side of the press block cavity, a trigger cavity is communicated with the lower side of the press block shaft cavity, the pressure trigger downside terminal with fixedly connected with trigger spring under the chamber between the terminal wall, pressure trigger downside terminal with two arm rack of fixedly connected with stay cords between the end of two arm rack upside, the briquetting downside terminal with fixedly connected with top arm rack stay cord between the end of top arm rack upside, plectrum slider outer fringe face with clutch bearing left side links firmly between the end has the separation and reunion stay cord.

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