CN112706395A - Film pasting and leveling equipment inclined according to inclination of front windshield - Google Patents

Abstract

The invention discloses a film pasting and leveling device which inclines according to the inclination of a front windshield, which comprises a hanging body, wherein a descending body is arranged below the hanging body, a stepping cavity is arranged in the descending body, a leveling mechanism is arranged in the stepping cavity, an inclining mechanism is arranged at the right part of the descending body, the inclining mechanism comprises supporting rods which are symmetrically arranged at the right part of the descending body in a vertical sliding mode, the device can descend to the position above the windshield when the film is pasted on the automobile glass, the device can incline at the same angle according to the inclination of the automobile glass, the body can be parallel to the surface of the windshield, and then a film which is pasted on the outer side of the windshield and is shaped can be hung and leveled through reciprocating motion, so that the film pasting efficiency is improved.

Description

Film pasting and leveling equipment inclined according to inclination of front windshield

Technical Field

The invention relates to the technical field of film sticking machines, in particular to a film sticking and leveling device which inclines according to the inclination of a front windshield.

Background

Many car owners can paste the protecting film on car glass, the membrane will be pasted at the glass inboard during posting, but need cut into glass's shape with the membrane in the glass outside before pasting, and make membrane and glass become same cambered surface through the heating method, when the membrane pastes on preceding windshield, operating personnel hardly stands in car one side and operates the membrane, will walk around the locomotive after operation on one side and operate to the another side, round trip movement not only can increase the time of work, and probably lead to both sides operational degree to be inconsistent, make the membrane design back asymmetry.

Disclosure of Invention

In order to overcome the technical defects, the invention provides a film pasting and leveling device which inclines according to the inclination of a front windshield, and the device can overcome the defects.

The invention relates to a film sticking and strickling device inclined according to the inclination of front windshield, which comprises a hanging machine body, wherein a descending machine body is arranged below the hanging machine body, a stepping cavity is arranged in the descending machine body, a strickling mechanism is arranged in the stepping cavity, an inclination mechanism is arranged at the right part of the descending machine body, the inclination mechanism comprises support rods which are symmetrically and vertically slidably arranged at the right part of the descending machine body in a front-back manner, a support spring connected with the descending machine body is arranged at the upper side of the support rods, a support seat is arranged at the lower end of the support rods in a left-right swinging manner, inclined rods are respectively and rotatably arranged at the left and right ends of the support seat, the upper ends of the two inclined rods are respectively and rotatably arranged at the left and right sides of the inclined blocks, the inclined blocks at the rear side are rotatably arranged at the front side of a rear driving support rod, the front end of the driving shaft is rotatably installed in a transmission block, the transmission block is vertically and slidably installed at the front part of the descending machine body, a control cavity is arranged above the transmission block in the descending machine body, a vertically extending transmission spline housing is rotatably installed in the transmission block, the transmission spline housing is connected with the driving shaft through a bevel gear pair, a transmission spline shaft is installed on a spline in the transmission spline housing, the transmission spline shaft extends vertically and is rotatably installed in the lower wall of the control cavity, a control gear is fixedly installed at the upper end of the transmission spline shaft in the control cavity, the front side of the control gear is engaged and connected with a control rack, the control rack is fixedly installed at the rear side of a control slider, the control slider is horizontally and slidably installed in the control cavity, a transition slider is horizontally and slidably installed at the upper part of the control slider, and a push block is longitudinally and slidably, a thrust spring connected with the rear wall of the control cavity is arranged on the push block, a press block is arranged at the front part of the control cavity in a front-back sliding manner, a pressure spring connected with the front wall of the control cavity is arranged at the front side of the pressing block, a driving spline shaft extending forwards is rotatably arranged in the pressing block, the driving spline shaft spline is arranged in the driving spline housing, the driving spline housing is rotatably arranged on the rear wall of the transmission cavity and extends forwards, the transmission cavity is arranged in the descending machine body in front of the control cavity, the front wall of the transmission cavity is rotatably provided with an engagement spline sleeve extending backwards, the engaging spline sleeve can be connected with the driving spline shaft by a spline, a transmission gear is fixedly arranged on the engaging spline sleeve, the rear side of the pressing block is fixedly provided with a linkage rod, the linkage rod is arranged at the rear part of the transmission cavity in a left-right sliding mode, and the right end of the linkage rod is fixedly provided with a stop sliding block.

Preferably, the strickle mechanism comprises a stepping slider which is symmetrically arranged at the front and back of the stepping cavity in a left-right sliding manner, an output spline shaft extending from front to back is rotatably arranged in the stepping slider, an output spline sleeve is splined on the output spline shaft and rotatably arranged in a push plate, the push plate is slidably arranged in the stepping slider from front to back, a linking spring connected with the stepping slider is arranged on the push plate, a linking gear is fixedly arranged on the output spline sleeve, a stepping gear capable of being meshed with the linking gear is arranged on the upper side of the linking gear, the stepping gear is rotatably arranged on the upper portion of the stepping slider, a stepping rack capable of being meshed with the stepping gear is fixedly arranged on the upper wall of the stepping cavity, a spline threaded shaft is rotatably arranged between the two stepping sliders, and connecting spline sleeves capable of being connected with the output spline shaft are arranged at the two ends of the spline threaded shaft, the connecting spline sleeve is rotatably installed in the connecting sliding block, the connecting sliding block is slidably installed in the stepping sliding block in a front-back mode, a connecting spring connected with the stepping sliding block is arranged on the connecting sliding block, a top block is installed on the upper side of the connecting sliding block in a middle-upper sliding mode and a lower sliding mode, and a fixing block capable of pressing the top block downwards is fixedly installed on the upper wall of the stepping cavity.

Preferably, the upper side of the right front part of the suspended machine body is provided with a lifting motor, the lower side of the lifting motor is connected with a power spline shaft, the power spline shaft is rotatably installed on the right front part of the suspended machine body and extends downwards, a power spline housing is splined on the power spline shaft and is rotatably installed in a power block, a power rotating housing is fixedly installed on the rear side of the power block and is rotatably installed on the front part of the suspended machine body and extends into a transmission cavity, a transmission shaft is rotatably installed in the power rotating housing and extends forwards and backwards, the front end of the transmission shaft is connected with the power spline housing through a bevel gear pair, the rear end of the transmission shaft is connected with the driving spline housing through a gear pair, an inclined gear is fixedly installed on the power rotating housing, the upper side of the inclined gear is engaged with the transmission gear, and the left side of the inclined gear is engaged, the synchronous gear is fixedly installed at the front end of the synchronous shaft, the synchronous shaft is rotatably installed at the right part of the descending machine body and extends forwards and backwards, the rear end of the synchronous shaft is connected with a driven rotating sleeve through a gear pair, the driven rotating sleeve is rotatably installed at the rear part of the descending machine body and is coaxial with the power rotating sleeve, and a lifting block is fixedly installed at the rear end of the driven rotating sleeve.

Preferably, the rear right part of the suspension machine body is rotatably provided with a lifting threaded shaft extending downwards, the upper end of the lifting threaded shaft can be connected with the upper end of the power spline shaft through belt transmission, a lifting threaded sleeve is arranged on the lifting threaded shaft in a threaded manner, the lifting threaded sleeve is rotatably arranged in the lifting block, a brake gear is fixedly arranged on the lifting threaded sleeve, a brake block is slidably arranged in front of and behind the front part of the lifting block, a brake spring connected with the lifting block is arranged on the front side of the brake block, a push rod is fixedly arranged on the front side of the brake block, the push rod is slidably arranged in the rear part of the descending machine body in front of and behind, a lifting block slidably arranged in the descending machine body in up and down manner is arranged at the front end of the push rod, and.

Preferably, hang organism left part lower side fixed mounting have two downwardly extending's installation pole, slidable mounting has from the top to the bottom driven slider on the installation pole, slidable mounting has the slide bar about in the driven slider, slide bar right-hand member fixed mounting is in the turning block left side, the turning block rotate install in decline organism front and back side, slidable mounting has buffering slider about decline organism left side, buffering slider upside be provided with the buffer spring that the decline organism is connected, buffering slider right side is rotated and is installed the auxiliary stay pole, the single fixed mounting has the auxiliary support seat under the auxiliary stay pole, rotate on the auxiliary stay pole and install two connecting rods, the two connecting rod other ends rotate install in on the driven slider.

Preferably, step-by-step integral key shaft is all rotated around the step-by-step chamber and is installed step-by-step integral key shaft, two connect through the belt drive between the step-by-step integral key shaft, the rear side step-by-step integral key shaft right-hand member is connected in clean motor left side, clean motor set up in decline organism right part, step-by-step spline housing is installed to step-by-step integral key shaft upper spline, step-by-step spline housing rotate install in step-by-step slider, step-by-step spline housing through bevel gear pair with output spline shaft connects, the sideslip slider is installed to the epaxial screw thread of spline, sideslip slider downside fixed mounting has the cushion cover, sliding mounting has the scraper blade about.

The beneficial effects are that: this equipment can be when carrying out the pad pasting to automobile glass, and the glass top falls to can make the same angle of equipment slope according to the inclination of automobile glass slope, make the organism can be parallel with the glass surface, then can hang the film of stereotyping through reciprocating motion will pasting in the windshield outside and level, increase the efficiency of pad pasting.

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.

FIG. 1 is a schematic structural view of a film coating and leveling device according to the inclination of a front windshield of the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 2;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 2;

fig. 5 is a schematic diagram of the structure of D-D in fig. 1.

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.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: 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 invention relates to a film sticking and strickling device inclined according to the inclination of front windshield, which comprises a hanging machine body 10, wherein a descending machine body 11 is arranged below the hanging machine body 10, a stepping cavity 12 is arranged in the descending machine body 11, a strickling mechanism capable of moving back and forth and advancing intermittently to flatten the glass film of an automobile is arranged in the stepping cavity 12, an inclined mechanism capable of supporting the descending machine body 11 on the automobile and enabling the descending machine body 11 and the automobile glass to rotate to be parallel is arranged at the right part of the descending machine body 11, the inclined mechanism comprises a supporting rod 31 which is symmetrically arranged at the right part of the descending machine body 11 in a vertical sliding mode, a supporting spring 44 connected with the descending machine body 11 is arranged at the upper side of the supporting rod 31, a supporting seat 32 is arranged at the lower end of the supporting rod 31 in a left-right swinging mode, inclined rods 33, the upper ends of the two inclined rods 33 are respectively rotatably mounted on the left and right sides of the inclined block 34, the inclined block 34 on the rear side is rotatably mounted on the front side of the rear driving support rod 31, the inclined block 34 on the front side is fixedly mounted at the rear end of the driving shaft 35, the driving shaft 35 extends forwards and backwards and is rotatably mounted in the supporting rod 31 on the front side, the front end of the driving shaft 35 is rotatably mounted in the driving block 37, the driving block 37 is slidably mounted in the front of the descending body 11 up and down, a control cavity 40 is arranged in the descending body 11 above the driving block 37, a vertically extending driving spline housing 36 is rotatably mounted in the driving block 37, the driving spline housing 36 is connected with the driving shaft 35 through a bevel gear pair, a driving spline shaft 38 is mounted in the driving spline housing 36, and the driving spline shaft 38 extends upwards and downwards and is rotatably mounted in the lower wall of the control cavity 40, the upper end of the transmission spline shaft 38 in the control cavity 40 is fixedly provided with a control gear 39, the front side of the control gear 39 is engaged with a control rack 41, the control rack 41 is fixedly arranged at the rear side of a control slider 42, the control slider 42 is arranged in the control cavity 40 in a left-right sliding manner, the upper part of the control slider 42 is provided with a transition slider 43 in a left-right sliding manner, the rear part of the control cavity 40 is provided with a push block 45 in a front-back sliding manner, the push block 45 is provided with a thrust spring 46 connected with the rear wall of the control cavity 40, the push block 45 can be pushed forward by the support rod 31 at the front side when sliding upwards, the front part of the control cavity 40 is provided with a press block 47 in a front-back sliding manner, the front side of the press block 47 is provided with a pressure spring 48 connected with the front wall of the control cavity 40, a drive spline shaft 49 extending forwards is, the driving spline housing 50 is rotatably mounted on the rear wall of the driving cavity 20 and extends forwards, the driving cavity 20 is arranged in the descending machine body 11 in front of the control cavity 40, the front wall of the driving cavity 20 is rotatably mounted with a connecting spline housing 51 extending backwards, the connecting spline housing 51 can be in spline connection with the driving spline shaft 49, the connecting spline housing 51 is fixedly mounted with a transmission gear 52, the rear side of the pressing block 47 is fixedly mounted with a linkage rod 53, the linkage rod 53 is slidably mounted at the rear part of the driving cavity 20 left and right, the right end of the linkage rod 53 is fixedly mounted with a stop slider 54, and the stop slider 54 can be meshed with the transmission gear 52 to enable the stop slider to be incapable of rotating.

Beneficially, the strickle mechanism comprises a stepping slider 65 which is symmetrically installed at the front and rear parts of the stepping cavity 12 in a left-right sliding manner, an output spline shaft 58 extending from front to rear is rotatably installed in the stepping slider 65, an output spline housing 59 is splined on the output spline shaft 58, the output spline housing 59 is rotatably installed in a push plate 60, the push plate 60 is slidably installed in the stepping slider 65 from front to rear, a linking spring 61 connected with the stepping slider 65 is arranged on the push plate 60, a linking gear 62 is fixedly installed on the output spline housing 59, a stepping gear 63 capable of being meshed with the linking gear 62 is arranged on the upper side of the linking gear 62, the stepping gear 63 is rotatably installed on the upper part of the stepping slider 65, the stepping racks 64 are in a spaced band shape, and a stepping rack 64 capable of being meshed with the stepping gear 63 is fixedly installed on the upper wall of the, two rotate between the step-by-step slider 65 and install spline threaded shaft 66, spline threaded shaft 66 both ends are all splined install can with output spline shaft 58 splined connection's connecting spline housing 67, connecting spline housing 67 rotates and installs in link block 68, sliding mounting around link block 68 in the step-by-step slider 65, be provided with on the link block 68 with connecting spring 69 that step-by-step slider 65 is connected, link block 68 upside sliding mounting has kicking block 70 in the step-by-step slider 65, step-by-step chamber 12 upper wall fixed mounting have can with kicking block 70 fixed block 71 that pushes down.

Beneficially, a lifting motor 13 is arranged on the upper side of the right front portion of the suspension machine body 10, a power spline shaft 14 is connected to the lower side of the lifting motor 13, the power spline shaft 14 is rotatably mounted on the right front portion of the suspension machine body 10 and extends downward, a power spline housing 15 is splined on the power spline shaft 14, the power spline housing 15 is rotatably mounted in a power block 16, a power rotating housing 17 is fixedly mounted on the rear side of the power block 16, the power rotating housing 17 is rotatably mounted on the front portion of the descent machine body 11 and extends into a transmission cavity 20, a transmission shaft 19 is rotatably mounted in the power rotating housing 17 and extends forward and backward, the front end of the transmission shaft 19 is connected with the power spline housing 15 through a bevel gear pair, the rear end of the transmission shaft 19 is connected with the driving spline housing 50 through a gear pair, and an inclined gear 18 is fixedly mounted on the power rotating housing, the upside of the inclined gear 18 is meshed with the transmission gear 52, the left side of the inclined gear 18 is meshed with a synchronous gear 21, the synchronous gear 21 is fixedly installed at the front end of a synchronous shaft 22, the synchronous shaft 22 is rotatably installed at the right part of the descending machine body 11 and extends forwards and backwards, the rear end of the synchronous shaft 22 is connected with a driven rotating sleeve 23 through a gear pair, the driven rotating sleeve 23 is rotatably installed at the rear part of the descending machine body 11, the driven rotating sleeve 23 is coaxial with the power rotating sleeve 17, and a lifting block 24 is fixedly installed at the rear end of the driven rotating sleeve 23.

Advantageously, a lifting threaded shaft 26 extending downwards is rotatably mounted at the right rear part of the suspension body 10, the upper end of the lifting threaded shaft 26 can be connected with the upper end of the power spline shaft 14 through belt transmission, a lifting threaded sleeve 25 is threadedly mounted on the lifting threaded shaft 26, the lifting threaded sleeve 25 is rotatably mounted in the lifting block 24, a brake gear 27 is fixedly mounted on the lifting threaded sleeve 25, a brake block 28 capable of engaging with the brake gear 27 and preventing the brake gear from rotating is slidably mounted in the front part and the rear part of the lifting block 24, a brake spring 29 connected with the lifting block 24 is arranged at the front side of the brake block 28, a push rod 30 is fixedly mounted at the front side of the brake block 28, the push rod 30 is slidably mounted in the rear part of the descending body 11 in the front and rear direction, and a lifting block 85 slidably mounted in the descending body 11 up and down is arranged at the front, the lifting block 85 is provided with a lifting spring 86 connected with the descending machine body 11 at the upper side, the lifting block 85 can be lifted by the supporting rod 31 at the rear side, and the lifting block can block the push rod 30 from sliding forwards.

Advantageously, two mounting rods 76 extending downwards are fixedly mounted on the lower left side of the suspension body 10, the mounting rod 76 is provided with a driven slide block 77 in an up-and-down sliding manner, a slide rod 78 is arranged in the driven slide block 77 in a left-and-right sliding manner, the right end of the sliding rod 78 is fixedly arranged at the left side of a rotating block 79, the rotating block 79 is rotatably arranged at the front side and the rear side of the descending machine body 11, a buffer slide block 83 is arranged on the left side of the descending machine body 11 in a vertical sliding manner, a buffer spring 84 connected with the descending machine body 11 is arranged on the upper side of the buffer slide block 83, an auxiliary supporting rod 81 is rotatably arranged at the right side of the buffering slide block 83, an auxiliary supporting seat 82 is fixedly arranged below the auxiliary supporting rod 81, two connecting rods 80 are rotatably arranged on the auxiliary supporting rod 81, the other ends of the two connecting rods 80 are rotatably arranged on the driven sliding block 77, the two connecting rods 80 can keep the auxiliary supporting rod 81 parallel to the driven sliding block 77.

Beneficially, step spline shafts 56 are rotatably mounted on the front and rear sides of the step cavity 12, the two step spline shafts 56 are connected through a belt transmission, the right end of the step spline shaft 56 on the rear side is connected to the left side of a cleaning motor 55, the cleaning motor 55 is arranged on the right portion of the descending body 11, a step spline housing 57 is splined on the step spline shafts 56, the step spline housing 57 is rotatably mounted in the step slider 65, the step spline housing 57 is connected with the output spline shaft 58 through a bevel gear pair, a traverse slider 72 is threadedly mounted on the spline threaded shaft 66, a buffer housing 73 is fixedly mounted on the lower side of the traverse slider 72, a scraper 75 is slidably mounted in the buffer housing 73, and an expansion spring 74 is connected between the upper side of the scraper 75 and the buffer housing 73.

In the initial state, the descending machine body 11 is at the top and at the horizontal state, the supporting seat 32 is at the horizontal state, the transverse moving slide block 72 is at the front part, the stop slide block 54 is meshed with the transmission gear 52, the driving spline shaft 49 is not in spline connection with the engaging spline sleeve 51, the brake gear 27 is meshed with the brake block 28, and the brake spring 29 is at the stretching state;

when the automobile engine starts to work, the lifting motor 13 is started, the power spline shaft 14 is rotated, the lifting threaded shaft 26 is driven to rotate through belt transmission, the lifting block 24 is driven to descend along the lifting threaded shaft 26 through threaded connection, the descending body 11 is driven to descend along the driven slide block 77 and the power spline shaft 14, the descending body 11 rotates when the supporting seat 32 descends to a front stop on the automobile, the inclined block 34 is driven to rotate through the inclined rod 33, the driving shaft 35 is driven to rotate, the transmission spline sleeve 36 is driven to rotate through bevel gear meshing transmission, the transmission spline shaft 38 is driven to rotate through spline connection, the control slide block 42 is driven to slide forwards through meshing transmission of the control gear 39 and the control rack 41, the transition slide block 43 is positioned between the pushing block 45 and the pressing block 47, and the sliding distance of the control slide block 42 is related to the inclination angle of the supporting seat 32, then the descending body 11 continues descending to make the support rod 31 slide upwards relative to the descending body 11, when the support rod 31 at the front side ascends, the push block 45 is pushed forwards, so that the transition slider 43 pushes the press block 47 to slide, so that the driving spline shaft 49 is connected with the engaging spline housing 51, and the press block 47 slides to drive the stop slider 54 to slide forwards through the linkage rod 53 and separate from the transmission gear 52, at this time, the power spline shaft 14 drives the power spline housing 15 to rotate through the spline connection, so that the driving spline housing 19 rotates through the bevel gear engaging transmission shaft 19, so that the driving spline housing 50 rotates through the gear engaging transmission, so that the engaging spline housing 51 rotates through the driving spline shaft 49, so that the power rotating housing 17 rotates through the engaging transmission of the transmission gear 52 and the bevel gear 18, and the synchronizing shaft 22 rotates through the engaging transmission of the power rotating housing 17, so as to drive the driven rotating sleeve 23 and the power rotating sleeve 17 to synchronously rotate through gear meshing transmission, thereby enabling the descending machine body 11 to rotate around the power rotating sleeve 17 and the driven rotating sleeve 23 to incline to be parallel to the front gear of the automobile, enabling the supporting seat 32 to rotate to be vertical to the supporting rod 31 in the rotating process of the descending machine body 11, thereby enabling the control slider 42 to reset, thereby enabling the push block 45 to be separated from the pressing block 47, further enabling the pressing block 47 to slide under the action of the pressure spring 48 to enable the driving spline shaft 49 to be separated from the connecting spline sleeve 51, enabling the stopping slider 54 to be meshed with the transmission gear 52, enabling the supporting rod 31 to rise to the topmost part in the descending machine body 11 at the moment, enabling the supporting rod 31 at the rear side to lift the lifting block 85, thereby enabling the push rod 30 to slide forwards under the action of the braking spring 29, thereby enabling the braking block 28 to be separated from the braking gear 27, and enabling the, so that the lifting block 24 stops sliding downwards, and the auxiliary support seat 82 contacts with the front cover of the automobile to provide support for the descending body 11.

Then, the cleaning motor 55 is started to rotate the rear stepping spline shafts 56, so that the two stepping spline shafts 56 are synchronously rotated by belt drive, so that the stepping spline housing 57 is rotated, so that the output spline shaft 58 is rotated by bevel gear meshing drive, so that the output spline housing 59 is rotated by spline connection, at this time, the top block 70 on the front side is pressed down by the fixed block 71, so that the connecting spline housing 67 on the front side is connected to the output spline shaft 58 on the front side, so that the output spline shaft 58 on the front side drives the spline threaded shaft 66 to rotate through the connecting spline housing 67 on the front side, so that the traverse slide 72 is driven to slide backward by threaded connection with the traverse slide 72, when the traverse slide 72 slides backward, the push plate 60 on the rear side is pushed backward, so that the engaging gear 62 on the rear side is engaged with the stepping gear 63 on the rear side, so that the stepping slide 65 is driven to slide leftward by meshing drive of the stepping gear 63 and the stepping rack, at this time, the rear top block 70 is not pressed by the rear fixed block 71, and the front top block 70 is pressed by the front fixed block 71 to connect the front connecting spline housing 67 with the spline threaded shaft 66, so that the traverse slide block 72 slides forward to sequentially and cyclically scrape the front barrier film.

The beneficial effects are that: this equipment can be when carrying out the pad pasting to automobile glass, and the glass top falls to can make the same angle of equipment slope according to the inclination of automobile glass slope, make the organism can be parallel with the glass surface, then can hang the film of stereotyping through reciprocating motion will pasting in the windshield outside and level, increase the efficiency of pad pasting.

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.

Claims (6)

1. The utility model provides an equipment is strickleed off to pad pasting according to preceding glass slope, includes and hangs the organism, its characterized in that: a descending machine body is arranged below the suspension machine body, a stepping cavity is arranged in the descending machine body, a strickling mechanism is arranged in the stepping cavity, and an inclined mechanism is arranged at the right part of the descending machine body;

the tilting mechanism comprises supporting rods which are symmetrically arranged at the right part of the descending machine body in a vertical sliding manner from front to back, a supporting spring connected with the descending machine body is arranged at the upper side of each supporting rod, a supporting seat is arranged at the lower end of each supporting rod in a left-right swinging manner, tilting rods are respectively and rotatably arranged at the left end and the right end of each supporting seat, the upper ends of the two tilting rods are respectively and rotatably arranged at the left side and the right side of each tilting block, the tilting block at the rear side is rotatably arranged at the front side of the rear side to drive the front side of each supporting rod, the tilting block at the front side is fixedly arranged at the rear end of a driving shaft, the driving shaft extends forwards and backwards and is rotatably arranged in the supporting rods at the front side, the front end of the driving shaft is rotatably arranged in a transmission block, the transmission, the transmission spline housing is connected with the driving shaft through a bevel gear pair, a transmission spline shaft is installed on a spline in the transmission spline housing, the transmission spline shaft extends up and down and is rotatably installed in the lower wall of the control cavity, a control gear is fixedly installed at the upper end of the transmission spline shaft in the control cavity, the front side of the control gear is engaged and connected with a control rack, the control rack is fixedly installed at the rear side of a control slider, the control slider is installed in the control cavity in a left-right sliding manner, a transition slider is installed at the upper part of the control slider in a left-right sliding manner, a push block is installed at the rear part of the control cavity in a front-back sliding manner, a thrust spring connected with the rear wall of the control cavity is arranged on the push block, a press block is installed at the front-back sliding manner at the front part of the control cavity, a pressure spring connected, the driving spline shaft spline is installed in the driving spline housing, the driving spline housing is rotatably installed on the rear wall of the driving cavity and extends forwards, the driving cavity is arranged in the front of the control cavity in the descending machine body, the front wall of the driving cavity is rotatably provided with a connecting spline housing extending backwards, the connecting spline housing can be connected with the driving spline shaft spline, a transmission gear is fixedly installed on the connecting spline housing, the rear side of the pressing block is fixedly provided with a linkage rod, the linkage rod is installed at the rear part of the driving cavity in a left-right sliding mode, and the right end of the linkage rod is fixedly provided with a stop slider.

2. The film sticking and leveling device inclined according to the slope of the front windshield according to claim 1, wherein: the strickle mechanism comprises front and back symmetrical left and right sliding sliders which are arranged at the front and back parts of the stepping cavity, an output spline shaft which extends front and back is rotatably arranged in the stepping slider, an output spline sleeve is arranged on the output spline shaft in a spline manner, the output spline sleeve is rotatably arranged in a push plate, the push plate is slidably arranged in the stepping slider front and back, a connecting spring connected with the stepping slider is arranged on the push plate, a connecting gear is fixedly arranged on the output spline sleeve, a stepping gear capable of being meshed with the connecting gear is arranged on the upper side of the connecting gear, the stepping gear is rotatably arranged on the upper part of the stepping slider, a stepping rack capable of being meshed with the stepping gear is fixedly arranged on the upper wall of the stepping cavity, a spline threaded shaft is rotatably arranged between the two stepping sliders, and connecting spline sleeves capable of being in spline connection with the output spline shaft are, the connecting spline sleeve is rotatably installed in the connecting sliding block, the connecting sliding block is slidably installed in the stepping sliding block in a front-back mode, a connecting spring connected with the stepping sliding block is arranged on the connecting sliding block, a top block is installed on the upper side of the connecting sliding block in a middle-upper sliding mode and a lower sliding mode, and a fixing block capable of pressing the top block downwards is fixedly installed on the upper wall of the stepping cavity.

3. The film sticking and leveling device inclined according to the slope of the front windshield according to claim 1, wherein: the upper side of the right front part of the suspended machine body is provided with a lifting motor, the lower side of the lifting motor is connected with a power spline shaft, the power spline shaft is rotatably installed at the right front part of the suspended machine body and extends downwards, a power spline sleeve is splined on the power spline shaft, the power spline sleeve is rotatably installed in a power block, a power rotating sleeve is fixedly installed at the rear side of the power block, the power rotating sleeve is rotatably installed at the front part of the suspended machine body and extends into a transmission cavity, a transmission shaft is rotatably installed in the power rotating sleeve and extends forwards and backwards, the front end of the transmission shaft is connected with the power spline sleeve through a bevel gear pair, the rear end of the transmission shaft is connected with a driving spline sleeve through a gear pair, an inclined gear is fixedly installed on the power rotating sleeve, the upper side of the inclined gear is engaged with the transmission gear, the synchronous gear is fixedly installed at the front end of the synchronous shaft, the synchronous shaft is rotatably installed at the right part of the descending machine body and extends forwards and backwards, the rear end of the synchronous shaft is connected with a driven rotating sleeve through a gear pair, the driven rotating sleeve is rotatably installed at the rear part of the descending machine body and is coaxial with the power rotating sleeve, and a lifting block is fixedly installed at the rear end of the driven rotating sleeve.

4. The film sticking and leveling device inclined according to the slope of the front windshield according to claim 3, wherein: the rear right part of the suspension machine body is rotatably provided with a lifting threaded shaft extending downwards, the upper end of the lifting threaded shaft can be connected with the upper end of the power spline shaft through belt transmission, a lifting threaded sleeve is arranged on the lifting threaded shaft in a threaded manner, the lifting threaded sleeve is rotatably arranged in the lifting block, a brake gear is fixedly arranged on the lifting threaded sleeve, a brake block is slidably arranged in front of and behind the front part of the lifting block, the front side of the brake block is provided with a brake spring connected with the lifting block, the front side of the brake block is fixedly provided with a push rod, the push rod is slidably arranged in front of and behind the descending machine body, the front end of the push rod is provided with a lifting block which is slidably arranged in the descending machine body up and down, and the upper side of.

5. The film sticking and leveling device inclined according to the slope of the front windshield according to claim 1, wherein: hang organism left part lower side fixed mounting have two downwardly extending's installation pole, slidable mounting has driven slider about the installation pole, slidable mounting has the slide bar about in the driven slider, slide bar right-hand member fixed mounting is in the turning block left side, the turning block rotate install in decline organism front and back side, decline organism left side slidable mounting has buffering slider from top to bottom, buffering slider upside be provided with the buffer spring that the decline organism is connected, buffering slider right side is rotated and is installed the auxiliary stay pole, singly fixed mounting has the auxiliary support seat under the auxiliary stay pole, rotate on the auxiliary stay pole and install two connecting rods, the two connecting rod other ends rotate install in on the driven slider.

6. The film sticking and leveling device inclined according to the slope of the front windshield according to claim 2, wherein: step-by-step chamber all rotates around, installs step-by-step integral key shaft, two connect through the belt drive between the step-by-step integral key shaft, the rear side step-by-step integral key shaft right-hand member is connected in the cleaning motor left side, the cleaning motor set up in decline organism right part, step-by-step integral key shaft is gone up the spline and is installed step-by-step spline housing, step-by-step spline housing rotate install in the step-by-step slider, step-by-step spline housing pass through bevel gear pair with output spline shaft connects, the sideslip slider is installed to spline thread shaft upper thread, sideslip slider downside fixed mounting has the cushion cover, sliding mounting has the scraper blade about the cushion cover.

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