CN110203050B - Clean mechanism of new energy automobile skylight - Google Patents

Abstract

The invention relates to the field of automobile skylights, in particular to a new energy automobile skylight cleaning mechanism, wherein skylight glass is movably connected to the left end of a storage cavity, a lifting plate is movably mounted inside the left end of the storage cavity, a collecting rotating wheel is movably mounted in the center of the lower end of the lifting plate, a moving block which is in embedded sliding connection with a collecting claw is arranged on the collecting rotating wheel, when the collecting claw rotates anticlockwise under the action of air flow, dirt on the skylight glass is collected, the dirt is collected by moving towards one side of the collecting rotating wheel through a torsion spring under the extrusion of the skylight glass, the moving block slides rightwards after being contacted with the skylight glass to enable an air inlet hole on the moving block to be staggered with an air outlet hole on the collecting claw after continuing to rotate, and grooves are formed in the surface and arranged in an arc-shaped wave mode, so that when the collecting claw moves to an air duct at the upper end, the action of air flow on the moving block is increased, the moving block returns to the original position, the air inlet hole is communicated with the air outlet hole, and the dirt collected by the action of the air flow is discharged out of the car.

Description

Clean mechanism of new energy automobile skylight

Technical Field

The invention relates to the field of automobile skylights, in particular to a new energy automobile skylight cleaning mechanism.

Background

Sunroof installs in the roof, can make the interior circulation of air effectively, increases fresh air's entering, and sunroof is installed to the most skylight sliding chamber under sunroof of current car, and sunroof can remove fog in the car rapidly, can realize rapid cooling to the interior temperature of car, can effectively improve the interior environment of car, gives people and brings healthy comfortable enjoyment.

However, most of the existing automobile skylights are not provided with cleaning mechanisms, and dirt such as gray bird droppings on the skylights are accumulated after long-term use, so that the light transmission efficiency of the skylights is greatly reduced, and the use of people is influenced.

Disclosure of Invention

The utility model provides a clean mechanism of new energy automobile skylight, the device opens through the skylight and simultaneously the leading-in air current acts on the collection runner thereby makes the collection runner automatically collect the foul on the skylight glass.

The utility model provides a clean mechanism of new energy automobile skylight, includes the automobile body, accomodates the chamber, the chamber is accomodate to automobile body top fixedly connected with, accomodate chamber left end swing joint and have skylight glass, accomodate the inside movable mounting of chamber left end and have the lifter plate, lifter plate lower extreme central authorities movable mounting has the collection runner, lifter plate lower extreme right side movable mounting has the clearance runner, both ends fixedly connected with reset spring about the lifter plate.

Preferably, a torsion spring is fixedly installed in the collection rotating wheel, the torsion spring is fixedly connected with a collection claw, a moving block is movably connected to one outward side of the collection claw, and the moving block and the collection claw are in embedded sliding connection.

Preferably, the moving block is internally provided with an air inlet hole, the surface of the moving block is provided with a groove, and the groove is arranged in an arc-shaped wave manner.

Preferably, an air outlet is formed in the collecting claw, and the air inlet and the air outlet are communicated.

Preferably, the choke protrusion is fixedly connected in the air outlet, and the air outlet is in an arc shape gradually reduced from bottom to top.

Preferably, the lower end of the choke convex block is arranged in an inclined arc shape and gradually enlarged from top to bottom.

Preferably, the lifting plate is internally provided with an air duct, the left end of the air duct is obliquely arranged from large to small, the middle end of the air duct is obliquely arranged downwards in a semicircular arc manner, and the right end of the air duct is linearly arranged towards the right.

Preferably, the cleaning rotating wheel is fixedly connected with a cleaning strip and a rubber strip on the surface, and the cleaning strip and the rubber strip are arranged in an inclined mode at intervals.

Preferably, the lower end of the lifting plate is provided with a rotating groove, the collecting rotating wheel is installed on the left side of the rotating groove, the left side of the lower end of the lifting plate is arranged in a circular arc mode, and the horizontal position of the bottom end of the cleaning rotating wheel is lower than that of the collecting rotating wheel.

Compared with the prior art, the invention has the following beneficial effects:

1. through the movable block that inlays sliding connection mutually with the collection claw on the collection runner, collect the foul on the skylight glass as the anticlockwise rotation of collection claw under the effect of air current, it is fixed to collect the foul to collect through torsional spring to collecting runner one side under skylight glass's extrusion, it makes the fresh air inlet on it stagger with the exhaust vent position on the collection claw to continue to rotate to make the movable block contact back right slip with skylight glass after the contact, make the foul in the collection claw can't spill, it is fluted to set up for arc wave setting to rethread surface makes and can clear up with skylight glass contact when the collection claw moves the upper end wind channel make the air current to the effect of movable block strengthen when making the movable block come back the normal position make inlet port communicate with each other with the venthole and make the air current exert its rotatory foul discharge car with its collection outside.

2. Through the arc setting that the exhaust vent is by supreme diminishing gradually down for can be accelerated the air velocity when the air current gets into more easily and make its effect to collecting the foul in the claw strengthen, the downthehole choke lug lower extreme of rethread air-out sets up for the slope circular arc, and grow gradually from top to bottom, makes the air current produce the scattering and makes the air current strengthen the effect of collecting the claw when wider to the scope of action when passing through, makes its rotatory efficiency higher.

3. The left end of the air duct is inclined from large to small, so that air flow entering the air duct after rising is more, the middle end of the air duct is inclined downwards, the semicircular arc is arranged, so that the entering air flow is guided to the angle tangent to the collecting rotating wheel and contacts with the angle tangent to the collecting rotating wheel to strengthen the effect of air flow action, and finally, the right end of the air duct is arranged to enable the air flow to carry dirt and then move upwards to leave the vehicle body so that the dirt can not contact the top of the vehicle body.

Drawings

FIG. 1 is a front elevational view of the vehicle body of the present invention;

FIG. 2 is a top plan view of the vehicle body of the present invention;

FIG. 3 is a perspective view of a skylight glass of the present invention;

FIG. 4 is a cross-sectional view of the receiving chamber of the present invention;

FIG. 5 is a perspective view of the interior of the collection wheel of the present invention;

FIG. 6 is a perspective view of the cleaning wheel of the present invention;

FIG. 7 is a front perspective view of a collection pawl according to the present invention;

FIG. 8 is a perspective view of the back of the collection pawl of the present invention;

FIG. 9 is a sectional view of an outlet of the present invention;

FIG. 10 is a perspective view of the choke protrusion of the present invention.

In the figure: 1-vehicle body, 2-storage cavity, 3-skylight glass, 4-lifting plate, 5-air duct, 6-reset spring, 7-cleaning rotating wheel, 701-cleaning strip, 702-rubber strip, 8-collecting rotating wheel, 9-rotating groove, 10-torsion spring, 11-collecting claw, 12-air inlet hole, 13-groove, 14-moving block, 15-air outlet hole and 16-choke convex block.

Detailed Description

Please refer to fig. 1 to 10, a schematic plan structure diagram and a schematic perspective structure diagram of a new energy automobile skylight cleaning mechanism.

The utility model provides a clean mechanism of new energy automobile skylight, includes automobile body 1, accomodates chamber 2, and 1 top fixedly connected with of automobile body accomodates chamber 2, accomodates 2 left ends swing joint in chamber have skylight glass 3, accomodates the inside movable mounting in 2 left ends in chamber and has lifter plate 4, and lifter plate 4 lower extreme central authorities movable mounting has collection runner 8, and lifter plate 4 lower extreme right side movable mounting has clearance runner 7, and both ends fixedly connected with reset spring 6 about lifter plate 4.

In specific implementation, a torsion spring 10 is fixedly installed in the collection rotating wheel 8, the torsion spring 10 is fixedly connected with a collection claw 11, a moving block 14 is movably connected to one outward side of the collection claw 11, the moving block 14 and the collection claw 11 are in embedded sliding connection, so that the moving block 14 is in contact with the skylight glass 3 and slides to the right to enable an air inlet 12 on the skylight glass to be staggered with an air outlet 15 on the collection claw 11, and dirt in the collection claw 11 cannot leak.

In the specific implementation, the air inlet holes 12 are formed in the moving block 14, the grooves 13 are formed in the surface of the moving block 14 and are arranged in an arc-shaped wave manner, so that when the collecting claw 11 moves to the upper air duct 5 while the skylight glass 3 is in contact with the moving block 14 to be cleaned, the effect of air flow on the moving block 14 is increased, the moving block 14 returns to the original position, and the air inlet holes 12 are communicated with the air outlet holes 15.

In the specific implementation, the collecting claw 11 is provided with an air outlet 15, and the air inlet 12 is communicated with the air outlet 15, so that when the collecting claw moves to the air duct, the airflow acts on the moving claw to rotate, and simultaneously, the collected dirt can be taken away and discharged out of the vehicle body 1.

In the specific implementation, the wind blocking protrusion 16 is fixedly connected in the wind outlet 15, and the wind outlet 15 is in an arc shape that gradually decreases from bottom to top, so that the airflow can enter more easily and the airflow speed can be increased, thereby enhancing the effect of the airflow on the dirt in the collecting claw 11.

In specific implementation, the lower end of the choke convex block 16 is arranged in an inclined circular arc and gradually enlarged from top to bottom, so that the air flow generates scattering, the acting range of the air flow is wider, the action of the air flow on the collecting claw 11 is strengthened, and the rotating efficiency of the collecting claw is higher.

In the concrete implementation, the wind channel 5 has been seted up to lifter plate 4 inside, and 5 left ends in wind channel set up for the slope from big to little, and the middle-end sets up for decurrent slope semicircle, and the right-hand member sets up for the straight line that inclines to the right, makes the air current that gets into after its rising let the air current again more after the angle that leads and collect the tangent angle of runner 8 rather than the effect of contact enhancement air current effect, makes the air current carry behind the foul can upwards remove leave automobile body 1 make the foul can not contact automobile body 1 top.

In specific implementation, the cleaning rotating wheel 7 is fixedly connected with a cleaning strip 701 and a rubber strip 702 on the surface, and the cleaning strip 701 and the rubber strip 702 are arranged in a mutually spaced and inclined manner at the same time, so that the rubber strip 702 can always contact with the skylight glass 3 and always drive the cleaning strip 701 to clean the filling glass 3.

In concrete implementation, the swivelling chute 9 has been seted up to lifter plate 4 lower extreme, and collect runner 8 and install the left side at swivelling chute 9, lifter plate 4 lower extreme left side is the circular arc setting, the horizontal position of clearance runner 7 bottom is lower than collecting runner 8, it just can open when reaching wind channel 5 to make collection claw 11 always keep folded state after collecting the foul, thereby simultaneously lifter plate 4's circular arc setting makes skylight glass 3 can trigger its rebound leading-in air current when accomodating chamber 2 and removing, thereby the bottom of clearance runner 7 is lower makes its ability and the tighter messenger's clearance of skylight glass 3 contact more efficient make collection claw 11 can have certain collection clearance simultaneously.

The working principle of the new energy automobile skylight cleaning mechanism is as follows.

Firstly, when dirt such as dust, bird droppings and the like on the skylight glass 3 is excessively accumulated to cause the great reduction of light transmission efficiency, thereby affecting the use of people, the vehicle body 1 needs to be started to enter a running state firstly, the skylight glass 3 moves towards the containing cavity 2 when a skylight switch is opened during running, the air duct 5 in the containing cavity 2 can move upwards to contact with the outside air flow when the skylight glass 3 is contacted by the circular arc arrangement at the left end of the lifting plate in the containing cavity 2, the air flow entering after the lifting is more by the inclined arrangement from big to small at the left end of the air duct 5, and then the entering air flow is guided to contact with the collecting rotating wheel 8 by an angle tangent to the collecting rotating wheel 8 by the inclined semicircular arc arrangement with the downward middle end, so that the air flow drives the collecting rotating wheel 8 to rotate to collect the dirt on the skylight glass 3, and the moving block 14 which is embedded with the collecting claw 11 and is in sliding connection on the collecting rotating wheel 8, when the collecting claw 11 rotates counterclockwise under the action of the air flow to collect and capture the dirt on the skylight glass 3, the dirt is collected and fixed by moving towards one side of the collecting rotating wheel 8 through the torsion spring 10 under the extrusion of the skylight glass 3, the collecting rotating wheel 11 is arranged at the left side of the rotating groove 9, so that the collecting rotating wheel can be kept in a folded state after collecting the dirt and can be opened when reaching the air duct 5, the collecting rotating wheel continues to rotate, the moving block 14 is in contact with the skylight glass 3 and slides rightwards to enable the air inlet holes 112 on the moving block to be staggered with the air outlet holes 15 on the collecting claw 11, so that the dirt in the collecting claw 11 cannot leak out, the groove 13 is formed in the surface and is in arc-shaped wave arrangement, so that the dirt can be cleaned when being in contact with the skylight glass 3, and simultaneously when the collecting claw 11 moves to the upper end air duct 5, the action of the air flow on the moving block 14 is increased, so that the air inlet holes 12 are communicated with the air outlet holes 15, the air flow is enabled to be communicated with the air outlet holes 15, and the dirt collected by the rotating action of the air flow and is discharged, the right end of the air duct 5 is arranged in a straight line which inclines rightwards, so that the air flow can move upwards after carrying dirt and leaves the car body 1, the dirt cannot contact the top of the car body 1, meanwhile, the air outlet 15 is arranged in an arc shape which gradually reduces from bottom to top, the air flow can enter more easily and can be accelerated, the air flow speed is accelerated, the action on the dirt in the collecting claw 11 is enhanced, the lower end of the wind blocking lug 16 in the air outlet 15 is arranged in an inclined arc shape and gradually increases from top to bottom, the air flow scattering is enabled to have a wider acting range, meanwhile, the action on the collecting claw 11 is enhanced when the air flow passes through the air flow, the rotating efficiency of the air flow is enabled to be higher, then, the cleaning rotating wheel 7 on the bottom of the lifting plate 4 is arranged at the bottom of the collecting rotating wheel 8, the cleaning rotating wheel can be in contact with the skylight glass 3 more tightly, the cleaning efficiency is enabled to be higher, meanwhile, a certain collecting moving gap can be formed between the cleaning strip 701 and the rubber strip 702, the cleaning strip 702 is arranged in an inclined mode, so that the rubber strip 702 can always contact with the glass 3, and the cleaning strip 701 can be driven to clean the skylight filled with the glass 3.

Claims (3)

1. A new energy automobile skylight cleaning mechanism comprises an automobile body (1) and a containing cavity (2), and is characterized in that the containing cavity (2) is fixedly connected to the top of the automobile body (1), skylight glass (3) is movably connected to the left end of the containing cavity (2), a lifting plate (4) is movably mounted inside the left end of the containing cavity (2), a collecting rotating wheel (8) is movably mounted in the center of the lower end of the lifting plate (4), a cleaning rotating wheel (7) is movably mounted on the right side of the lower end of the lifting plate (4), reset springs (6) are fixedly connected to the left end and the right end of the lifting plate (4), a torsion spring (10) is fixedly mounted inside the collecting rotating wheel (8), a collecting claw (11) is fixedly connected to the torsion spring (10), a moving block (14) is movably connected to one side, the collecting claw (11) is outwards, the moving block (14) is in embedded sliding connection with the collecting claw (11), air inlet holes (12) are formed inside the moving block (14), a groove (13) is formed in the surface of the moving block (14), an air outlet hole (15) is formed in the moving block (15), an air outlet hole (15) is formed in the surface of the moving block (14) and is connected with a reducing convex block (16) which is gradually arranged in an arc-shaped wave-shaped air outlet hole, and a gradually communicated with a gradually reducing convex block (15) is arranged inside the air outlet hole (15), the air duct (5) is arranged in the lifting plate (4), the left end of the air duct (5) is inclined from large to small, the middle end of the air duct is inclined downwards in a semicircular arc mode, and the right end of the air duct is inclined rightwards in a straight line mode.

2. The new energy automobile skylight cleaning mechanism according to claim 1, characterized in that: clearance runner (7) fixed connection has clearance strip (701) and rubber strip (702) on the surface, and clearance strip (701) and rubber strip (702) are for the interval slope setting simultaneously of each other.

3. The new energy automobile skylight cleaning mechanism according to claim 1, characterized in that: rotatory groove (9) have been seted up to lifter plate (4) lower extreme, and collect runner (8) and install the left side at rotatory groove (9), lifter plate (4) lower extreme left side is the circular arc setting, the horizontal position of clearance runner (7) bottom is lower than collecting runner (8).

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