KR20120135659A

KR20120135659A - Operating device of siren for automobile

Info

Publication number: KR20120135659A
Application number: KR1020110054494A
Authority: KR
Inventors: 김병욱
Original assignee: 성화기술산업 주식회사
Priority date: 2011-06-07
Filing date: 2011-06-07
Publication date: 2012-12-17

Abstract

PURPOSE: A height extendable warning light is provided to improve external recognizability by extending the cover part of the warning light if necessary. CONSTITUTION: A height extendable warning light includes a main body(10), a cover part(20), and a lift part. The main body is fixed on the roof of a vehicle. Lighting parts(11) are placed at each front, back, left, and right side of the main body. The cover part is raised or lowered by the lift part. The cover part is stored in the internal space of the main body. The cover part comprises a fixing frame which has lighting parts on each front and back side, and a cover frame integrated on top of the fixing frame. The lift part connects the main body and the cover part.

Description

Extendable warning lights {Operating device of siren for automobile}

The present invention relates to a warning light, and more particularly to a warning light that can be expanded in height depending on the circumstances of the road.

In general, police cars, ambulances, fire trucks, emergency tow vehicles, road management vehicles, highway special equipment vehicles, emergency disaster recovery vehicles, etc. The warning lamps used in the car were mounted and used by brackets mounted on the vehicle roof.

In such a conventional warning light-equipped vehicle, the position of the warning light is fixed, and when there is a vehicle that is higher than the position of the warning light, or when the trunk of the warning light-equipped vehicle is open, the driver of another vehicle does not recognize the diffused light of the warning light. Not only did not effectively communicate the emergency situation to the outside, there was a problem that a collision accident with the vehicle not aware of the emergency situation occurs.

The present invention is to improve the conventional problems as described above, by configuring the warning light to the main body and the cover portion, and configured to expand the height of the cover if necessary, to increase the external identification of the warning light, through which The purpose is to provide a height-extending warning lights that can prevent collision accidents and the like.

According to an aspect of the present invention, there is provided a height extension warning light, which includes a warning light body fixed to an external ceiling surface of a vehicle, and having an illumination part on the left and right sides as well as before and after; A cover part accommodated in the warning light body and extended to a predetermined height by lifting up and down; A lift unit which connects the beacon lamp body and the cover part and drives to expand the cover part; It is configured to include.

According to one aspect of the invention, the cover part is composed of a fixed frame which is put into the internal space of the beacon lamp body and formed a lighting unit on the front and rear surfaces, and a cover frame which is integrally formed on the fixed frame and covers the opening of the beacon lamp body. do.

According to another aspect of the invention, the lift unit, the left and right pair of first rail portion formed in the longitudinal direction in the space in the beacon body; A pair of left and right second rail parts formed in the longitudinal direction of the cover part; A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part; A connecting rod connecting the left and right pair of lifting links; And a first driving part rotatably fixed to one side of the space in the beacon main body through a hinge, the driving rod being rotatably fixed to the connecting rod, and the elevating link lifting up and down; It is configured to include.

According to another aspect of the invention, the lift unit, the left and right pair of first rail portion formed in the longitudinal direction in the space in the beacon body; A pair of left and right second rail parts formed in the longitudinal direction of the cover part; A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part; A connecting rod connecting the left and right pair of lifting links; And a driving unit coupled to a lower end of the elevating link by using a mounting frame, the driving rod being rotatably fixed to the connecting rod, and elevating the elevating link; It is configured to include.

According to another aspect of the invention, the lift unit, the left and right pair of first rail portion formed in the longitudinal direction in the space in the beacon body; A pair of left and right second rail parts formed in the longitudinal direction of the cover part; A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part; A connecting rod connecting the left and right pair of lifting links; And a driving part accommodated at one end in the beacon light body and having a hinge end connected to the connecting rod at a lowermost side connecting the left and right pair of lifting links, the lifting link lifting and lowering the lifting link. It is configured to include.

According to another aspect of the invention, the lift portion, the first rail portion which is formed in the longitudinal direction in the space in the beacon body; A second rail part formed in the longitudinal direction of the cover part; A rotating shaft portion arranged side by side with the first rail portion in a space in the beacon body; A pair of forward and backward moving bodies moving forward and backward moving along the rotation shaft; Left and right one formed of a roller that moves along the first and second rail portions at the end, rotatably coupled to the movable body by a hinge, and foldable through a hinge to guide the lifting and lowering of the cover portion. Pair of lifting links; A connecting rod connecting the left and right pair of lifting links; And a driving unit coupled to the rotating shaft while being accommodated in a space in the beacon main body, and configured to rotate the rotating shaft to move up and down the pair of lifting links. It is configured to include.

According to another aspect of the invention, the fixing frame for fixing the rotating shaft portion in the space in the beacon body, and forming a bearing to guide the rotation of the rotating shaft portion is configured.

According to another aspect of the invention, the lift unit, the left and right pair of first rail portion is formed in the longitudinal direction in the space in the beacon body; A pair of left and right second rail parts formed in the longitudinal direction of the cover part; Winding drums respectively disposed between the divided first rail parts and wound with wires; A driving drum connected with the winding drum through a wire; A driving unit which rotates the driving drum to drive or unwind the wire; A roller moving along the first and second rail parts is formed at the end, and one end of the wire wound on the winding drum is connected to the hinge to guide the lifting and lowering of the cover part according to the winding or unwinding of the wire. A pair of left and right lifting link made of X-shaped foldable through; And a spring configured in the first rail and connected to a lower end of the lifting link forming one pair of left and right, and pulling the lifting link when the wire is released. It will include.

As described above, the present invention is configured to be configured to extend the height of the cover portion as necessary after the configuration of the warning light body and the cover portion, thereby increasing the external identification of the warning light, and also can be expected to the effect of preventing collision with other vehicles. .

1 is a perspective view showing the structure of a height-expandable warning light as a first embodiment of the present invention.
Figure 2 is a perspective view showing a height expansion state of the warning light in the first embodiment of the present invention.
Figure 3 is a cross-sectional view showing a height expansion state of the warning light in the first embodiment of the present invention.
Figure 4 is a perspective view showing a height expansion state of the warning light in the second embodiment of the present invention.
5 is a cross-sectional view showing a height expansion state of a warning light in a second embodiment of the present invention.
Figure 6 is a perspective view showing a height expansion state of the warning light in the third embodiment of the present invention.
7 is a cross-sectional view showing a height expansion state of the warning light as a third embodiment of the present invention.
Figure 8 is a front sectional schematic view showing a structure of a height-expandable warning light having a roller alignment guide portion in a fourth embodiment of the present invention.
9 is a perspective view showing a height expansion state of a warning light in a fifth embodiment of the present invention.
10 is a cross-sectional view showing a height expansion state of a warning light as a fifth embodiment of the present invention.
11 is a perspective view showing a height expansion state of a warning light in a sixth embodiment of the present invention.
12 is a cross-sectional view showing a height expansion state of a warning light in a sixth embodiment of the present invention.
Fig. 13 is a schematic plan view showing a height expansion state of a warning light in a sixth embodiment of the present invention.

Hereinafter, a first embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a structure of a height-expansion warning light as a first embodiment of the present invention, Figure 2 is a perspective view showing a height expansion state of a warning light as a first embodiment of the present invention, Figure 3 is a first embodiment of the present invention By way of example, the cross-sectional view showing the height expansion state of the warning light.

1 to 3, the height extension warning lamp according to an exemplary embodiment of the present invention includes a warning lamp body 10, a cover part 20, and a lift part 30.

The beacon lamp body 10 is fixed to the external ceiling surface of the vehicle, and the lighting unit 11 is formed on the left and right sides as well as before and after the beacon lamp body 10.

The cover part 20 is configured to be lifted and lowered through the lift part 30, and is accommodated in a space in the beacon main body 10.

In this case, the cover part 20 is integrated into the fixing frame 21 and the fixing frame 21 in which the illumination part 21a is formed in the front and rear surfaces of the beacon lamp body 10, respectively. Consists of a cover frame 22 to cover the opening of the beacon body 10.

The lift unit 30 is configured to connect the warning light main body 10 and the cover portion 20, and to drive the height expansion of the cover portion 20, the first and second rail portions 31 and 32 ), Lifting link 33, the connecting rod 34, and the drive unit 35.

The first rail part 31 is a pair of left and right structures which are formed in the longitudinal direction in the space in the beacon lamp body 10.

The second rail portion 32 is a pair of left and right structures formed in the cover portion 20 in the longitudinal direction.

The lifting link 33 is formed at the end of the roller (33a) to move along the pair of left and right first and second rails 31, 32, and guides the lifting and lowering to the cover portion (20) The X-shaped links that can be folded through the hinge 100 are configured to be connected, and are formed in a left and right pair.

The connecting rod 34 is configured to connect the lifting link 33 forming the left and right pairs.

The driving unit 35 is an electric cylinder having a driving rod 35a to raise and lower the lifting link 33, and one side of the driving unit 35 is rotatable through the hinge 100 at one side of the space in the beacon main body 10. The driving rod 35a is rotatably fixed to the connection rod 34.

In other words, the height-expandable warning lamp according to the first embodiment of the present invention, as shown in Figures 1 to 3 attached, first is driven by the drive unit 35 made of an electric cylinder hinge 100 to the connecting rod 34 Deploy the drive rod 35a rotatably coupled through the.

Then, the left and right pair of lifting links 33 connected by the connecting rod 34 is in an ascending operation, and thus the cover part 20 connected to the upper end of the lifting links 33 forming the pair of left and right lights is a warning lamp. The height is maintained while leaving the main body 10.

Thus, the cover part 20 is composed of a fixed frame 21 and the cover frame 22, the roller 33a formed at the end of the lifting link 33 forming the left and right pairs in the fixed frame 21 Since the second rail portion 32 is formed is coupled, the roller 33a formed on the upper and lower ends of the lifting link 33 forming a pair of left and right from the development of the drive rod 35a is the warning light main body In the first rail portion 31 formed in the (10) and the second rail portion 32 formed in the fixed frame 21, the width along the first and second rail portions 31, 32 The movement is narrowed, and thus the cover portion 20 positioned at the upper end of the left and right pair of lifting links 33 maintains a predetermined height raised from the beacon main body 10.

In this case, since the lighting units 11 and 21a are formed on the front, rear, left and right surfaces of the beacon lamp body 10 as well as the front and rear surfaces of the fixed frame 21, the vehicle is operated by operating the lighting units 11 and 21a. It can increase the external discernment of.

In this case, when the cover part 20 raised to the predetermined height is to be stored in the beacon lamp body 10 again, the driving part 35 pulls the driving rod 35a.

Then, the lower end of the connecting rod 34 is connected to the hinge 100 by the end of the driving rod 35a, and the left and right pair of lifting links 33 connected through the connecting rod 34 are The roller 33a, which is formed at the upper and lower ends of the elevating link 33, moves apart along the first and second rail portions 31 and 32, thereby opening up the cover portion 20. The fixing frame 21 is accommodated in the beacon body 10, as well as the cover frame 22 of the cover part 20 to cover the opening of the beacon body 10.

4 and 5 illustrate a second embodiment of the invention for the lift part 30.

It is a pair of left and right first rail portion 31 formed in the longitudinal direction in the space in the warning light main body 10, and a pair of left and right second rail portion 32 formed in the longitudinal direction in the cover portion 20 And a roller 33a moving along the left and right pairs of first and second rail parts 31 and 32 at an end thereof, and the hinge 100 to guide the lifting and lowering of the cover part 20. A pair of left and right lifting links 33 made of an X-shape that can be folded through, a connecting rod 34 connecting the left and right pair of lifting links 33, and a lower end of the lifting links 33 It is coupled using a mounting frame 36, the driving rod 35a is rotatably coupled to the connection rod 34, and includes a drive unit 35 for lifting the lifting link (33).

That is, according to the second embodiment of the present invention, the driving cylinder 35 of the electric cylinder type is fixed to the lifting link 33 through the mounting frame 36. Accordingly, the driving unit 35 is the lifting link. Together with (33), it is accommodated in the beacon lamp body 10, or is developed.

Hereinafter, the same parts as in the first embodiment of the present invention will be denoted by the same reference numerals and description thereof will be omitted.

6 and 7 also show a third embodiment of the invention for the lift part 30.

It is a pair of left and right first rail portion 31 formed in the longitudinal direction in the space in the warning light main body 10, and a pair of left and right second rail portion 32 formed in the longitudinal direction in the cover portion 20 And a roller 33a moving along the left and right pairs of first and second rail parts 31 and 32 at an end thereof, and the hinge 100 to guide the lifting and lowering of the cover part 20. A pair of left and right lifting links 33 made of X-shape that can be folded through, a connecting rod 34 connecting the left and right pair of lifting links 33, and one end in the beacon body 10 The end of the driving rod 35a is connected to a hinge 100 by the connecting rod 34 at the lowermost side connecting the lifting link 33 forming the left and right pairs, and the lifting link 33 is lifted. It is comprised including the drive part 35 which descends.

That is, the third embodiment of the present invention is to expand or receive the lifting link 33 through the drive unit 35 which is horizontally fixed to the space in the warning light main body 10, the following of the present invention The same parts as in the first and second embodiments will be denoted by the same reference numerals and redundant description thereof will be omitted.

And, Figure 8 is a fourth embodiment of the present invention, even if the roller 33a disclosed in the first to third embodiments of the present invention moves along the first rail portion 31 is always aligned with the roller alignment The guide is configured.

To this end, the fourth embodiment of the present invention, when the left and right pair of lifting links 33 are connected through the connecting rod 34, the extension shaft 34a on one side of the connecting rod 34 located at the lower end thereof. The vertical guide groove 12 is formed on one side inner wall of the beacon lamp body 10 to extend the 34a.

Accordingly, when the roller 33a formed at the end of the elevating link 33 slides along the first rail portion 31 from the elevating of the elevating link 33, the roller 33a is extended by the extension shaft. By maintaining the state (34a) over the vertical guide groove 12 is to be always aligned to the center.

9 and 10 show a fifth embodiment of the present invention for the lift unit 30.

The first rail portion 31 is formed on both side walls of the warning lamp body 10 in the longitudinal direction, the second rail part 32 is formed on the cover portion 20 in the longitudinal direction, and the warning lamp body 10 Rotating shaft portion 313, which is arranged in the longitudinal direction in the center in the center and the right-hand screw portion (313a) and the left-hand screw portion (313b) is divided into the center portion, and the right-hand screw portion (313a) and the left screw of the rotary shaft portion 313 While forming a pair of front and rear moving bodies 314 and 314a moving forward and backward along the portion 313b and rollers 33a moving along the first and second rail portions 31 and 32, A pair of left and right sides rotatably coupled to the movable body 314 and 314a by a hinge 100 and foldable through the hinge 100 to guide the lifting and lowering of the cover part 20. It is coupled to the lifting link 33, the lower side of the left and right pair of lifting links 33 and the movable body 314 (314a) The connecting rod 34 for supporting movement along the first rail portion 31 by forming an extension shaft 34a extending to the first rail portion 31, and being accommodated in a space in the beacon body 10. And a driving unit 317 coupled to the rotary shaft unit 313 and rotating the rotary shaft unit 313 to move up and down the pair of lifting links 33. The fixing frame 318 which forms the bearing 318a to guide the rotation of the rotating shaft portion 313 while fixing the rotating shaft portion 313 in the inner space is configured to combine.

That is, according to the fifth embodiment of the present invention, when the rotation shaft 313 is rotated from the driving of the driving unit 317 made of a motor, the right screw 313a and the left neck 313b of the rotation shaft 313 are rotated. The front and rear movement of each of the moving bodies 314 and 314a coupled to each other is made, and the end of the lifting link 33 is coupled to the movable body 314 and 314a by the hinge 100, so that the lifting link 33 ) Will be raised and lowered.

At this time, when the pair of moving bodies 314 and 314a move along the right and left screw portions 313a and 313b of the rotating shaft portion 313, respectively, the pair of moving bodies 314 and 314a. ) Is a connecting rod 34 coupled to the first rail portion 31 and an extension shaft 34a extending therefrom while connecting the lower end of the lifting link 33, and thus the connecting rod 34 ), The extension shaft 34a stably supports the forward and backward movement of the movable bodies 314 and 314a while moving along the first rail portion 31.

In the fifth embodiment of the present invention, the first rail portion 31 may be omitted, and in this case, a rolling roller contacting the bottom surface at the end of the extension shaft 34a of the connection rod 34 (not shown) ) May be installed. Such rolling rollers are capable of stably supporting the movable bodies 314 and 314a moving along the first rail part 31 and the cover part 20 and the lift part 30 installed thereon. Because.

Hereinafter, since the operation of raising and lowering the first to fourth embodiments of the present invention and the cover part 20 are the same, the overlapping description thereof will be omitted.

11 to 13 show a sixth embodiment of the present invention for the lift unit 30.

It is a pair of left and right first rail portion 31 is formed in the longitudinal direction in the space in the warning light main body 10, the left and right pair of second rail portion 32 is formed in the cover portion 20 in the longitudinal direction And a winding drum 413 disposed between the divided first rail portions 31 and connected with the winding drum 413 and the winding drum 413 and the wire W, respectively. ), A driving unit 415 for rotating the driving drum 414 so as to wind or unwind the wire W, and a roller 33a moving along the first and second rail parts 31 and 32. Is formed at the end, while one end of the wire (W) wound on the winding drum 413 is connected, the hinge to guide the lifting and lowering to the cover portion 20 according to the winding or unwinding of the wire (W) If it is configured in the pair of left and right lifting link 33 and the first rail portion 31 made of an X-shape that can be folded through the (100) One end being connected to the lower end of the lifting link 33 forming the above pair of right and left, to a spring 417, pulling the lifting link 33 upon disengagement of the wire (W).

That is, according to the sixth embodiment of the present invention, the wire W is wound or unwound on the driving drum 414 and the winding drum 413 according to the forward and reverse rotation driving of the driving unit 415 made of a motor. In this case, one end of the wire W is connected to the lifting link 33 so that the lifting link 33 lifts and covers the cover 20 when the winding operation of the wire W is made. In the unwinding operation of (W), the cover part 20 is lowered.

Here, when the cover 20 is lowered from the unwinding of the wire W, the lowering is made possible by the restoring force of the spring 417 formed on the first and second rail portions 31 and 32. will be.

Hereinafter, the same parts as in the first to fifth embodiments of the present invention will be denoted by the same reference numerals and redundant description thereof will be omitted.

It is to be understood that the present invention is not limited to the above-described embodiments but can be carried out in various ways without departing from the spirit of the present invention. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

10; Beacon body 11; Illumination unit
12; Vertical guide groove 20; The lid portion
21; Fixed frame 21a; Illumination unit
22; Cover frame 30; Lift
31; A first rail portion 32; 2nd rail part
33; Elevating link 33a; roller
34; Connecting rod 34a; Extension shaft
35,317,415; Driver 35a; Driving rod
36; Mounting frame 313; Rotating shaft
313a; Right-handed thread 313b; Left-hand thread
314,314a; Mobile 318; Fixed frame
318a; Bearing 413; Winding drum
414; Driving drum 417; spring
W; wire

Claims

A warning light body fixed to an external ceiling surface of a vehicle and having an illumination part formed on the left and right sides as well as before and after;
A cover part accommodated in the warning light body and extended to a predetermined height by lifting up and down;
A lift unit which connects the beacon lamp body and the cover part and drives to expand the cover part; Height-extending warning lights, characterized in that comprising a.

The electronic apparatus according to claim 1,
And a fixed frame which is inserted into an interior space of the beacon body and has an illumination unit formed on the front and rear surfaces, and a cover frame which is integrally formed on the fixed frame and covers the opening of the beacon body.

The method of claim 1, wherein the lift unit,
A pair of left and right first rails formed in a longitudinal direction in a space in the beacon body;
A pair of left and right second rail parts formed in the longitudinal direction of the cover part;
A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part;
A connecting rod connecting the left and right pair of lifting links; And
A first driving part rotatably fixed to one side of a space in the beacon main body through a hinge, and a driving rod rotatably fixed to the connection rod, the first driving part lifting and lowering the lifting link; Height-extending warning lights, characterized in that comprising a.

The method of claim 1, wherein the lift unit,
A pair of left and right first rails formed in a longitudinal direction in a space in the beacon body;
A pair of left and right second rail parts formed in the longitudinal direction of the cover part;
A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part;
A connecting rod connecting the left and right pair of lifting links; And
A driving unit coupled to a lower end of the elevating link by using a mounting frame, the driving rod being rotatably fixed to the connecting rod, and elevating the elevating link; Height-extending warning lights, characterized in that comprising a.

The method of claim 1, wherein the lift unit,
A pair of left and right first rails formed in a longitudinal direction in a space in the beacon body;
A pair of left and right second rail parts formed in the longitudinal direction of the cover part;
A pair of left and right lifting links formed at the ends of the rollers moving along the left and right pairs of first and second rail parts and configured to be folded through a hinge to guide the lifting and lowering of the cover part; A connecting rod connecting the left and right pair of lifting links; And
A driving part accommodated in one end of the warning light main body, and having an end of a driving rod connected to a hinge of the lowermost end connecting the left and right pair of lifting links, the lifting link lifting and lowering the lifting link; Height-extending warning lights, characterized in that comprising a.

6. The method according to any one of claims 3 to 5,
The extension shaft extends on one side of the connection rod connecting the left and right pair of lifting links,
One side inner wall of the warning light main body is a height-expandable warning light, characterized in that for forming the vertical guide groove is applied to the extension shaft so that the roller formed in the lifting link is always aligned to the center.

The method of claim 1, wherein the lift unit,
A first rail portion formed in the longitudinal direction on both side walls of the warning light body;
A second rail part formed in the longitudinal direction of the cover part;
A rotating shaft unit arranged in the longitudinal direction in the center of the beacon lamp body and having a right screw portion and a left screw portion divided by a central portion;
A pair of front and rear moving bodies which move forward and backward along the right and left screw portions of the rotating shaft portion;
Left and right one formed of a roller that moves along the first and second rail portions at the end, rotatably coupled to the movable body by a hinge, and foldable through a hinge to guide the lifting and lowering of the cover portion. Pair of lifting links;
A connecting rod coupled to the lower end side of the left and right pair of lifting links and the movable body and extending to the first rail part to support movement along the first rail part; And
A driving unit coupled to the rotating shaft part while being accommodated in the space in the beacon lamp body, and rotating the rotating shaft part to move up and down the pair of lifting links; Height-extending warning lights, characterized in that comprising a.

The method of claim 7, wherein
A height-expandable warning lamp, characterized in that the fixing frame to form a bearing to guide the rotation of the rotating shaft portion to the space in the warning lamp body.

The method of claim 1, wherein the lift unit,
A pair of left and right first rails divided in a longitudinal direction in a space in the beacon body;
A pair of left and right second rail parts formed in the longitudinal direction of the cover part;
Winding drums respectively disposed between the divided first rail parts and wound with wires;
A driving drum connected with the winding drum through a wire;
A driving unit which rotates the driving drum to drive or unwind the wire;
A roller moving along the first and second rail parts is formed at the end, and one end of the wire wound on the winding drum is connected to the hinge to guide the lifting and lowering of the cover part according to the winding or unwinding of the wire. A pair of left and right lifting link made of X-shaped foldable through; And
A spring configured in the first rail and connected to a lower end of the lifting link forming one pair of left and right, and pulling the lifting link when the wire is released; Height extendable warning light comprising a.

6. The method according to any one of claims 3 to 5,
Height-driven warning light, characterized in that the drive unit is an electric cylinder.

10. The height extension warning lamp according to claim 7 or 9, wherein the driving part is a motor for driving forward and reverse rotation.