CN216445831U - Self-cleaning device of curve mirror - Google Patents

Abstract

The application relates to the technical field of curve mirrors, in particular to a self-cleaning device of a curve mirror, which comprises a vertically arranged mounting rod, wherein the upper end of the mounting rod is fixedly connected with a mounting plate, a spherical mirror body is fixedly connected onto the mounting plate, two vertically arranged slide rails positioned at two sides of the spherical mirror body are fixedly connected onto the mounting plate, slide blocks are embedded in the slide rails in a sliding manner, and the two slide blocks are commonly connected with a same cleaning brush for cleaning the spherical mirror body; be equipped with the drive assembly that the drive slider reciprocated on the slider, drive assembly includes fixed connection in the fall way that is vertical setting of mounting panel, and the through-hole has been seted up for uncovered setting and lower surface in the fall way upper end, is equipped with the floater in the fall way, and the floater is connected in the slider through first connecting rope, and when the floater was located the fall way bottom, the slider was located the slide rail top. The application can reduce the occurrence of potential safety hazards.

Description

Self-cleaning device of curve mirror

Technical Field

The application relates to the technical field of curve mirrors, in particular to a self-cleaning device of a curve mirror.

Background

At present, a road curve generally needs to use a curve mirror. The curve mirror is also called a wide-angle mirror, a convex mirror and a turning mirror and is mainly used for various curves and intersections, the view field of a driver can be expanded, and vehicles and pedestrians opposite to the curves can be found as soon as possible, so that the occurrence of traffic accidents is reduced; and the device is also used for anti-theft and monitoring dead angles of supermarkets.

However, in rainy weather, a lot of rainwater is often attached to the mirror surface of the curve mirror, so that the vehicle cannot normally observe the intersection through the curve mirror, and certain potential safety hazards exist, and therefore improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to reduce the occurrence of potential safety hazards, the application provides a self-cleaning device of a curve mirror.

The application provides a self-cleaning device of bend mirror adopts following technical scheme: a self-cleaning device of a curve mirror comprises a vertically arranged mounting rod, wherein the upper end of the mounting rod is fixedly connected with a mounting plate, and a spherical mirror body is fixedly connected onto the mounting plate; the installation plate is fixedly connected with two vertically arranged slide rails which are positioned at two sides of the spherical mirror body, slide blocks are embedded in the slide rails in a sliding manner, and the two slide blocks are jointly connected with the same cleaning brush for cleaning the spherical mirror body; be equipped with the drive assembly that the drive slider reciprocated on the slider, drive assembly includes fixed connection in the fall way that is vertical setting of mounting panel, and the fall way upper end is uncovered setting and the through-hole has been seted up to the lower surface, is equipped with the floater in the fall way, and the floater is connected in the slider through being the first connecting rope that "U" shape set up, and when the floater was located the fall way bottom, the slider was located the slide rail top.

By adopting the technical scheme, when raining, rainwater falls into the lifting pipe, the floating ball and the first connecting rope gradually move upwards along with the gradual rise of the water level in the lifting pipe, the sliding block at the other end of the first connecting rope moves downwards along the sliding rail, the two sliding blocks drive the cleaning brush to move downwards, and the cleaning brush is used for wiping off raindrops attached to the spherical mirror body; rainwater in the lifting pipe is discharged through the through hole, when the water level in the lifting pipe is gradually reduced, the floating ball and the first connecting rope move downwards, and meanwhile the first connecting rope drives the cleaning brush to move upwards through the sliding block.

Optionally, fixedly connected with is located the water storage box of fall way top on the mounting panel, and fixed surface is connected with on the water storage box and collects the cover, and the water storage box bottom is connected in the fall way that corresponds through two funnels.

Through adopting above-mentioned technical scheme, the rainwater descends and covers collecting, then flows into the water storage box in, the rainwater in the water storage box flows into corresponding riser through the funnel in, collects the opening that covers and is greater than the opening of riser, is more convenient for collect the rainwater.

Optionally, there is seal assembly on the elevator tube, seal assembly is including being located the dead lever between elevator tube lower surface and the floater, the dead lever is connected in the floater through the second connection rope, the length of second connection rope is less than the height that the floater can rise, the dead lever lateral wall is equipped with the elasticity toper cover of contradicting in the elevator tube inside wall, the junction of elasticity toper cover and fixed lever is the highest end, elasticity toper cover inside wall rotates and is connected with the counter weight post that is vertical setting and is used for sealing the through-hole, the radius of counter weight post is greater than the radius of through-hole and is less than the radius of elevator tube.

By adopting the technical scheme, when the floating ball in the lifting pipe rises to the highest position, the second connecting rope drives the fixed rod to move upwards, the fixed rod drives the elastic conical cover and the counterweight column to move upwards, the counterweight column is separated from the through hole, the counterweight column pulls the edge of the elastic conical cover to bend downwards due to the gravity of the counterweight column, the edge of the elastic conical cover is far away from the inner side wall of the lifting pipe, and at the moment, rainwater in the lifting pipe flows downwards from a gap between the elastic conical cover and the lifting pipe and then is discharged from the through hole; the water level in the fall tube slowly descends, the floater moves downwards, the counterweight column is supported on the inner bottom wall of the fall tube, the elastic conical cover is restored to the natural state and is abutted to the inner side wall of the fall tube, and water cannot pass through the gap between the elastic conical cover and the fall tube and flows out from the through hole.

Optionally, the lower surface of the counterweight column is fixedly connected with a circular pipe which is slidably arranged through the through hole, and the side wall of the circular pipe is provided with a plurality of water inlet holes.

By adopting the technical scheme, in a normal state, the circular pipe is embedded in the through hole, and the water inlet hole at the uppermost side is positioned below the inner bottom wall of the lifting pipe, so that rainwater in the lifting pipe is prevented from flowing out of the through hole; when the counter weight post rebound, the counter weight post drives the pipe rebound, and the water in the fall way flows into the pipe through the inlet opening, and the pipe has improved the leakproofness of fall way bottom.

Optionally, a water storage tank located below the spherical mirror body is fixedly connected to the mounting plate.

Through adopting above-mentioned technical scheme, the rainwater that flows out in the pipe flows into the storage water tank through the connecting pipe, has realized the storage of rainwater to the reuse of rainwater.

Optionally, the through hole of the lifting pipe is connected to the water storage tank through a water inlet pipe and a water pump.

By adopting the technical scheme, the water pump can lead water in the water storage tank into the water storage tank, and self-cleaning of the spherical mirror body is realized.

Optionally, the surface of the water storage tank is coated with a heat insulation coating.

Through adopting above-mentioned technical scheme, the evaporation of the rainwater in the reduction storage water tank.

To sum up, the application comprises the following beneficial technical effects:

1. the arrangement of the driving assembly realizes that the sliding blocks are driven to ascend and descend along the sliding rails, the two sliding blocks drive the cleaning brush to move downwards, and the cleaning brush is used for wiping off rain drops attached to the spherical mirror body;

2. the sealing assembly is arranged, so that when the water level in the lifting pipe reaches a certain height, rainwater in the lifting pipe flows downwards from a gap between the elastic conical cover and the lifting pipe, then is discharged from the through hole, and the water level in the lifting pipe begins to slowly fall.

Drawings

FIG. 1 is an elevational view of the entirety of an embodiment of the present application;

FIG. 2 is a schematic sectional view of the whole of the embodiment of the present application;

FIG. 3 is a schematic illustration in partial cross-section showing a seal assembly in an embodiment of the present application;

fig. 4 is a schematic structural diagram for showing a slide rail and a slider in the embodiment of the present application.

Reference numerals: 1. a spherical mirror body; 11. mounting a rod; 12. mounting a plate; 2. a slide rail; 21. a slider; 22. a cleaning brush; 3. a drive assembly; 31. a lifting pipe; 32. a floating ball; 33. a first connecting rope; 34. a second connecting rope; 35. a through hole; 4. A water storage tank; 41. a collection hood; 42. a funnel; 5. a seal assembly; 51. fixing the rod; 52. an elastic conical cover; 53. a counterweight column; 54. a circular tube; 55. a water inlet hole; 56. a water inlet pipe; 6. a water storage tank; 61. and (4) connecting the pipes.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses self-cleaning device of a curve mirror. As shown in fig. 1 and 4, a self-cleaning device for a curved mirror comprises a vertically arranged mounting rod 11, wherein the upper end of the mounting rod 11 is fixedly connected with a mounting plate 12, and a spherical mirror body 1 is fixedly connected to the mounting plate 12; the mounting plate 12 is fixedly connected with two slide rails 2 which are positioned at two sides of the spherical mirror body 1 and are vertically arranged, slide blocks 21 are embedded in the slide rails 2 in a sliding manner, and the two slide blocks 21 are connected with a same cleaning brush 22 for cleaning the spherical mirror body 1; the slide block 21 is provided with a driving component 3 for driving the slide block 21 to move up and down. In rainy days, the driving component 3 drives the sliding blocks 21 to move downwards along the sliding rails 2, the two sliding blocks 21 drive the cleaning brushes 22 to brush and scrape rain spots attached to the spherical mirror body 1, so that vehicles can normally observe the road junction through the curved mirror, and the potential safety hazard is reduced.

As shown in fig. 2, the driving assembly 3 includes a water storage tank 4 fixedly connected to the mounting plate 12, the bottom end of the water storage tank 4 is connected to the lifting pipe 31 through two funnels 42, the upper surface of the water storage tank 4 is fixedly connected to a collecting cover 41, and the opening of the collecting cover 41 is larger than that of the lifting pipe 31, so that rainwater can be collected more conveniently; the elevator tube 31 is fixedly connected to the mounting plate 12 and is vertical, the upper end of the elevator tube 31 is open and the lower surface is provided with a through hole 35, a floating ball 32 is arranged in the elevator tube 31, the floating ball 32 is connected to the sliding block 21 through a first connecting rope 33 arranged in an inverted U shape, and when the floating ball 32 is located at the bottom end of the elevator tube 31, the sliding block 21 is located at the top of the sliding rail 2.

When raining, the rainwater descends on collecting cover 41, then flow into in the water storage box 4, rainwater in the water storage box 4 passes through funnel 42 and flows into corresponding fall way 31, along with the water level in the fall way 31 rises gradually, floater 32 and first connecting rope 33 also upwards move gradually, the slider 21 of the first connecting rope 33 other end downwards moves along slide rail 2, two sliders 21 drive cleaning brush 22 downwards and move, cleaning brush 22 is used for the brush to strike off the raindrop that is attached to spherical mirror body 1.

As shown in fig. 3, a sealing assembly 5 is arranged in the elevator tube 31, the sealing assembly 5 includes a fixing rod 51 located between the lower surface of the elevator tube 31 and the floating ball 32, the fixing rod 51 is connected to the floating ball 32 through a second connecting rope 34, the length of the second connecting rope 34 is smaller than the height of the floating ball 32 which can be lifted, the side wall of the fixing rod 51 is rotatably connected with an elastic conical cover 52 which abuts against the inner side wall of the elevator tube 31, the edge of the elastic conical cover 52 abuts against the inner side wall of the elevator tube 31 when the elastic conical cover is not stressed, and the elastic conical cover 52 divides the elevator tube 31 into an upper cavity and a lower cavity which are not communicated; elasticity toper cover 52 is the highest end with the junction of dead lever 51, elasticity toper cover 52 inside wall rotates to be connected with the counter weight post 53 that is vertical setting, in this embodiment, elasticity toper cover 52 is for having elastic material, for example plastics, rubber etc., counter weight post 53's radius is greater than the radius of through-hole 35 and is less than the radius of fall way 31, counter weight post 53 lower fixed surface is connected with slides the pipe 54 of wearing to locate through-hole 35, pipe 54 inlays to be established in through-hole 35, avoid the rainwater in the fall way 31 to flow from through-hole 35, a plurality of inlet openings 55 have been seted up to pipe 54 lateral wall.

In the initial state, the floating ball 32 is pressed on the fixing rod 51 and the elastic conical cover 52, the edge of the elastic conical cover 52 is abutted against the inner wall of the lifting pipe 31, the lower surface of the counterweight column 53 is abutted against the bottom of the lifting pipe 31, the circular pipe 54 is embedded in the through hole 35, and the elastic conical cover 52 and the circular pipe 54 realize the sealing of the bottom end of the lifting pipe 31. When raining, the water level in the elevator pipe 31 gradually rises, when the floating ball 32 rises to the highest position, the second connecting rope 34 drives the fixing rod 51 to move upwards, the fixing rod 51 drives the elastic conical cover 52 and the counterweight column 53 to move upwards, the edge of the elastic conical cover 52 is far away from the inner side wall of the elevator pipe 31, and at the moment, rainwater in the elevator pipe 31 flows downwards from a gap between the elastic conical cover 52 and the elevator pipe 31 and is discharged from the through hole 35; the speed that the fall way 31 flowed out from through-hole 35 is greater than the speed that the rainwater flowed in from funnel 42, therefore the water level in the fall way 31 slowly descends, floater 32 and first connecting rope 33 move down, first connecting rope 33 passes through slider 21 and drives cleaning brush 22 and upwards remove simultaneously, when floater 32 reachs the lower extreme, floater 32 contradicts in dead lever 51, counter weight post 53 contradicts in the interior diapire of fall way 31, elasticity tapered cover 52 will no longer receive counter weight post 53's down-pulling force, so the edge of elasticity tapered cover 52 will contradict in the inside wall of fall way 31 again, make the rainwater in the fall way 31 can't flow out from through-hole 35.

As shown in fig. 2 and 3, the mounting plate 12 is fixedly connected with a water storage tank 6 located below the spherical mirror body 1, the through hole 35 of the lifting pipe 31 is connected to the water storage tank 4 through a water inlet pipe 56 and a water pump, and rainwater flowing out of the circular pipe 54 flows into the water storage tank 6 through a connecting pipe 61, so that the rainwater is stored. The water pump can let in the rainwater in the storage water tank 6 in the water storage tank 4, the floating ball 32 rises along with the water level, and the two sliding blocks 21 drive the cleaning brush 22 to brush and scrape off dust attached to the spherical mirror body 1, so that the rainwater is recycled, and the self-cleaning of the spherical mirror body 1 is realized. And the arrangement of the water storage tank 4 and the water storage tank 6 also realizes that the staff can manually add water into the water storage tank 4 on days without raining.

The surface of the water storage tank 6 is coated with heat insulation coating, so that the evaporation speed of rainwater in the water storage tank 6 is reduced.

The implementation principle of the self-cleaning device of the curve mirror in the embodiment of the application is as follows: when raining, rainwater is collected in the water storage tank 4, then enters the lifting pipe 31 through the funnel 42, the water level in the lifting pipe 31 slowly rises, the floating ball 32 also slowly rises due to buoyancy, when the floating ball 32 rises, the sliding block 21 at the other end of the first connecting rope 33 descends along the sliding rail 2, and the two sliding blocks 21 drive the cleaning brush 22 to brush and scrape out rain spots attached to the spherical mirror body 1.

When the floating ball 32 rises to the highest position, the second connecting rope 34 drives the sealing assembly 5 to move upwards, the elastic conical cover 52 contracts downwards, rainwater in the lifting pipe 31 flows downwards from a gap between the elastic conical cover 52 and the lifting pipe 31, then flows into the circular pipe 54 from the through hole 35, and rainwater discharged from the circular pipe 54 flows into the water storage tank 6 through the connecting pipe 61. The water level in the lifting pipe 31 begins to slowly fall, the floating ball 32 slowly falls along with the water level, when the floating ball 32 reaches the lowest position, the slide block 21 is positioned at the top of the slide rail 2, the gravity of the floating ball 32 enables the fixed rod 51 to move downwards, the elastic conical cover 52 is unfolded and restored to the initial position, and the circular pipe 54 is embedded in the through hole 35.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A self-cleaning device of a curve mirror comprises a vertically arranged mounting rod (11), wherein the upper end of the mounting rod (11) is fixedly connected with a mounting plate (12), and a spherical mirror body (1) is fixedly connected onto the mounting plate (12); the method is characterized in that: the installation plate (12) is fixedly connected with two vertically arranged slide rails (2) which are positioned at two sides of the spherical mirror body (1), slide blocks (21) are embedded in the slide rails (2) in a sliding manner, and the two slide blocks (21) are jointly connected with a same cleaning brush (22) for cleaning the spherical mirror body (1); be equipped with drive assembly (3) that drive slider (21) reciprocated on slider (21), drive assembly (3) include fixed connection in mounting panel (12) be elevator pipe (31) of vertical setting, elevator pipe (31) upper end is uncovered setting and through-hole (35) have been seted up to the lower surface, be equipped with floater (32) in elevator pipe (31), floater (32) are connected in slider (21) through being first connecting rope (33) that "U" shape set up, when floater (32) are located elevator pipe (31) bottom, slider (21) are located slide rail (2) the top.

2. A self-cleaning device for a curved mirror as claimed in claim 1, wherein: fixedly connected with is located water storage box (4) of fall way (31) top on mounting panel (12), and fixed surface is connected with and collects cover (41) on water storage box (4), and water storage box (4) bottom is connected in corresponding fall way (31) through two funnels (42).

3. A self-cleaning device for a curved mirror as claimed in claim 2, wherein: have seal assembly (5) in fall way (31), seal assembly (5) are including lieing in dead lever (51) between fall way (31) lower surface and floater (32), dead lever (51) are connected rope (34) through the second and are connected in floater (32), the length that rope (34) were connected to the second is less than the height that floater (32) can rise, dead lever (51) lateral wall is equipped with conflict in elasticity toper cover (52) of fall way (31) inside wall, elasticity toper cover (52) are the highest end with the junction of dead lever (51), elasticity toper cover (52) inside wall rotates and is connected with counterweight column (53) that are vertical setting and are used for sealing through-hole (35), the radius of counterweight column (53) is greater than the radius of through-hole (35) and is less than the radius of fall way (31).

4. A self-cleaning device for a curved mirror as claimed in claim 3, wherein: the lower surface of the counterweight column (53) is fixedly connected with a circular tube (54) which is slidably arranged in the through hole (35), and the side wall of the circular tube (54) is provided with a plurality of water inlet holes (55).

5. A self-cleaning device for a curved mirror as claimed in claim 4, wherein: the mounting plate (12) is fixedly connected with a water storage tank (6) positioned below the spherical mirror body (1).

6. A self-cleaning device for a curved mirror as claimed in claim 5, wherein: the through hole (35) of the lifting pipe (31) is connected with the water storage tank (4) through a water inlet pipe (56) and a water pump.

7. A self-cleaning device for a curved mirror as claimed in claim 6, wherein: the surface of the water storage tank (6) is coated with heat insulation coating.

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