KR101051056B1 - Lighting equipment with prism - Google Patents

Abstract

PURPOSE: An optical instrument applied a prism is provided to maximize a pass-through function of signal and warning through the emission of the light by releasing diffuse right according to prism which is arranged on the optical path of the light source. CONSTITUTION: A light emitting module(20) releases the light to outside. The light emitting module comprises the optical distributed type luminous unit(20a) arranged the prism on the optical path of the light source. The light emitting module comprises a mounting board(22) of the flat pattern which is fixed to a body frame and a light source(24) arranged on the surface of the mounting board. The body frame(40) clinches the light emitting module.

Description

Lighting equipment with prism

The present invention relates to a light fixture to which a prism is applied, and more particularly, the configuration is simplified by providing a configuration in which a prism is disposed on an optical path of a light source body to induce dispersion emission of light. The present invention relates to a light fixture to which a prism is applied to which a function can be performed smoothly.

Light fixtures with various configurations and functions, such as lighting, indoor lighting, warning lights, and tower lamps, have been developed and used.

Here, the warning lights are installed on roads that require attention when driving a vehicle, such as slopes or severely curved roads, to notify vehicle drivers of danger as road signs, or emergency vehicles such as police cars, rangers, ambulances, and rescue vehicles. It is installed on the outer surface of the upper part of the vehicle to be notified of an emergency situation or used to send a warning signal to a vehicle behind in case of a vehicle related accident. Publication No. 10-2009-0120638 Publication No. 10-2009-0120638 "LED warning light", Publication No. 10-2010-0001055 "Vehicle warning light with a display extension surface", Registration Utility Model Publication No. 20 -Beacons, etc.,-Public warning model publication No. 10-2009-0010169 "no warning lights", etc. have been devised.

In addition, tower lamps are installed in various devices provided in an industrial site and used to notify a signal related to a specific task or operation to the outside through light emission or a buzzer sound. Publication No. 20-0385150, "Signal Tower Lamp", Registration No. 20-0320781, "Signal Tower Lamp Unit", and the like are provided.

The lighting device such as a warning lamp or a tower lamp generally includes a light source body that emits light, and a light guide mechanism such as various lenses or reflectors that focus or disperse light of the light source body. Conventional lighting equipment uses a specially manufactured lens to focus or disperse light of a light source body, or the configuration is complicated by allowing the light guide mechanism to be made by a combination of the lens and the reflector, and it is troublesome to manufacture the lighting equipment. There were many problems.

In addition, in the case of not using a light guide mechanism such as a lens or a reflector, the light source body must be installed in each area to secure the light emitting area, thereby increasing the required quantity of the light source body, thereby increasing manufacturing cost and power consumption. There was a problem.

Accordingly, the present invention improves such a problem of the prior art, and the light is dispersed and emitted by a prism disposed on the light path of the light source body, thereby minimizing the number of the light source bodies and maximizing the emission area of the light to emit light even with a simple configuration. The purpose of warning and signal transmission is to provide a light fixture with a new type of prism that can be maximized.

According to a feature of the present invention for achieving the above object, the present invention includes a light emitting module for emitting light to the outside; The light emitting module includes a body frame to which the light emitting module is fixed, wherein the light emitting module includes a light scattering type light emitting unit in which a prism is disposed on a light path of a light source body, and the light scattering type light emitting unit passes through the prism in front of the prism. And light emitted from the light source body dispersed laterally to the outside.

In the light fixture to which the prism according to the present invention is applied, the light emitting module includes a flat plate-shaped mounting board fixed to the body frame; It characterized in that it comprises a light source body disposed on the surface of the mounting substrate.

In the optical device to which the prism according to the present invention is applied, the mounting substrate is a PCB having a predetermined width (W) and length (L), and the light source body is characterized in that a light emitting diode (LED) is used.

In the optical device to which the prism according to the present invention is applied, the light emitting diode is formed in a chip form.

In the optical device to which the prism according to the present invention is applied, the mounting substrate is installed perpendicular to the body frame, and a plurality of light source bodies are provided to be spaced apart from each other on both surfaces of the mounting substrate. The light scattering light emitting unit is formed in the width (W) direction end of the mounting substrate so that the prism is installed in front of the light source body arranged in the width (W) direction end of the.

Alternatively, the mounting substrate may be installed horizontally on the body frame.

In the optical device to which the prism according to the present invention is applied, the light emitting module includes a light source body arranged in a plurality of rows and a plurality of columns on each surface of the mounting substrate, and a column in the width (W) direction of the mounting substrate. A prism is installed in front of the light source body forming the light scattering light emitting unit, and a prism is removed in front of the light source body forming a central column in the width (W) direction of the mounting substrate, thereby forming a light rectifying light emitting unit. It is characterized by that.

In the optical device to which the prism according to the present invention is applied, the light emitting module has a prism having a width b 'smaller than the width b of the chip-shaped light emitting diode on the end of the mounting substrate in the width b direction. The light emitted from the chip-shaped light emitting diode portion corresponding to the prism is characterized in that the incident to the prism.

Here, the width b 'of the prism preferably has a value of ½ or less of the width b of the chip-shaped light emitting diode.

In the optical device to which the prism according to the present invention is applied, the light source body is arranged in a plurality of rows and a plurality of columns on the surface of the mounting substrate, and the prism has a bar shape having a predetermined length. It is characterized in that it is installed perpendicular to the front of the light source body forming a row of (W) direction end portion.

In the optical device to which the prism according to the present invention is applied, the prism has a triangular cross-sectional shape, the first surface of which light is incident while facing the light source body; A second surface through which a part of the light passing through the first surface passes and is emitted to the outside, and a part of the light passing through the first surface is totally reflected; It characterized in that it has a third surface through which the light totally reflected from the second surface passes through and is emitted to the outside.

Here, the cross-sectional shape of the prism may be a right isosceles triangle.

In the optical device to which the prism according to the present invention is applied, the prism may be installed while varying an angle between the first surface and the surface of the mounting substrate.

In the optical device to which the prism according to the present invention is applied, a pair of prisms in which the third surface and the first surface are in contact with each other is installed in front of the light source body forming the width end in the width (W) direction of the mounting substrate. do.

According to the optical device to which the prism according to the present invention is applied, as the emission area of the light is widened through the prism disposed on the light path of the light source body, the required amount of the light source body constituting the light fixture is minimized while the light emission area is maximized. Will have

In addition, according to the present invention, as the light fixture is manufactured with a minimized number of light sources, the present invention also has the effect of reducing the manufacturing cost and power consumption.

1A is a partial plan view of a light fixture to which a prism according to a first embodiment of the present invention applied to a tower lamp is applied;
Figure 1 (b) is a partial front view of the light fixture to which the prism according to the first embodiment of the present invention applied to the tower lamp;
1C is a partial side view of a light fixture to which a prism according to a first embodiment of the present invention applied to a tower lamp is applied;
2 is a view for showing a path in which light is dispersed and emitted from a light scattering type light emitting unit constituting a light fixture to which a prism is applied according to a first embodiment of the present invention;
3 (a) to (c) is a view for showing a path in which light is dispersed and emitted from the light fixture to which the prism according to the first embodiment of the present invention applied to the tower lamp;
4 (a) is a partial plan view for showing the configuration of a light fixture to which the prism according to the second embodiment of the present invention;
Figure 4 (b) is a view for showing a path in which light is dispersed and emitted in the light fixture to which the prism according to the second embodiment of the present invention;
FIG. 5A is a partial plan view showing the structure of a light fixture to which a prism according to a third embodiment of the present invention is applied; FIG.
5 (b) is a view for showing a path in which light is dispersed and emitted in the light fixture to which the prism according to the third embodiment of the present invention;
6 (a) is a partial plan view for showing the configuration of a light fixture to which a prism according to a fourth embodiment of the present invention is applied;
6 (b) is a view for showing a path in which light is dispersed and emitted in the light fixture to which the prism according to the fourth embodiment of the present invention;
7 (a) is a partial plan view for showing the configuration of a light fixture to which the prism according to the fifth embodiment of the present invention;
Figure 7 (b) is a view for showing a path in which light is dispersed and emitted in the light fixture to which the prism according to the fifth embodiment of the present invention;
8 (a) is a partial plan view for showing the configuration of a light fixture to which a prism according to a sixth embodiment of the present invention is applied;
8 (b) is a view for showing a path in which light is dispersed and emitted in the light fixture to which the prism according to the sixth embodiment of the present invention;
9 (a) is a partial plan view for showing the configuration of a light fixture to which a prism according to a seventh embodiment of the present invention is applied;
FIG. 9B is a view illustrating a path in which light is dispersed and emitted from a light fixture to which a prism according to a seventh embodiment of the present invention is applied.

The optical device 100 to which the prism according to the present invention is applied may be used for a warning lamp or a tower lamp used to send a warning signal to the outside, or to send a work / operation signal of various devices. In the optical device 100 to which the prism according to the present invention is applied, a prism 26 is disposed on an optical path of a light source body 24 such as a light emitting diode (LED) so that the light scattering type light emitting unit 20a has a light emitting module 20. It is to be included in the technical features. With the light dissipation type light emitting unit 20a, the emission area of the light that can be secured from one light source body 24 can be maximized, so that the number of the light source bodies 24 for each area to secure the required light emission area is obtained. Can be minimized so that the configuration of the light fixture can be simplified.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 9. On the other hand, in the drawings and detailed description showing and referring to the configuration and operation easily understood by those skilled in the art from general light fixtures, prisms, and the like are briefly or omitted. In particular, in the drawings and detailed description of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements not directly related to technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or described. It was.

1 (a) is a partial plan view of a light fixture to which the prism according to the first embodiment of the present invention applied to the tower lamp, Figure 1 (b) is a first embodiment of the present invention applied to the tower lamp Partial front view of a light fixture to which a prism is applied, FIG. 1C is a partial side view of a light fixture to which a prism is applied according to a first embodiment of the present invention applied to a tower lamp, and FIG. 2 is a first embodiment of the present invention. 3 is a view showing a path in which light is distributed and emitted from a light scattering light emitting unit constituting a light fixture to which a prism is applied, and FIGS. 3A to 3C illustrate a first embodiment of the present invention applied to a tower lamp. 4 is a view illustrating a path in which light is dispersed and emitted from a light fixture to which a prism is applied, and FIGS. 4 to 9 are applied to a prism according to embodiments 2, 3, 4, 5, 6, and 7 of the present invention. Shows the composition of the light fixture and the path through which light is dispersed A view group.

The optical device 100 to which the prism of the first embodiment of the present invention is applied includes a light emitting module 20 and a body frame 40 as shown in FIGS. 1A to 1C.

The light emitting module 20 is to emit light to the outside, such a light emitting module 20 is composed of a configuration including a mounting substrate 22 and the light source body (24).

The mounting substrate 22 is formed in a flat plate shape and fixed to the body frame 40. The mounting substrate 22 of the optical device 100 according to the first embodiment of the present invention is installed perpendicular to the body frame 40. So that both surfaces of the mounting substrate 22 face in the lateral direction. Here, the mounting substrate 22 is preferably to be disposed in the center portion of the body frame 40.

On the contrary, the mounting substrate 22 may be horizontally installed on the body frame 40 according to the function or installation conditions of the light fixture 100.

The light source body 24 is disposed on the surface of the mounting substrate 22. The light source body 24 of the light fixture 100 according to the first embodiment of the present invention uses a light emitting diode (LED). Here, the optical device 100 according to the first embodiment of the present invention is a light emitting diode, that is, an LED chip in the form of a chip (chip) is used, on the contrary, a general type LED may be used.

Here, a plurality of light source bodies 24 are provided and arranged on both sides of the mounting substrate 22 to be spaced apart from each other. Such a light source body 24 has a plurality of rows and a plurality on each surface of the mounting substrate 22. It is preferred to be arranged in rows. Accordingly, the light source bodies 24 according to the first embodiment of the present invention are arranged in two rows and three columns on each surface of the mounting substrate 22.

On the other hand, when the light emitting diode is used as the light source body 24, the mounting substrate 22 is a PCB having a predetermined width (W) and length (L).

Here, the light emitting module 20 of the light fixture 100 according to the first embodiment of the present invention comprises a light scattering type light emitting unit 20a and a light linear type light emitting unit 20b.

The light scattering type light emitting unit 20a arranges the prism 26 on the light path of the light source body 24, and the light of the light source body 24 passes through the prism 26 and is located in front and side of the prism 26. It is dispersed and released to the outside. Accordingly, the light emitting area secured from one light source body 24 constituting the light scattering type light emitting unit 20a can be expanded.

Here, the prism 26 is installed in front of the light source body 24 arranged at the end portion in the width (W) direction of the mounting substrate 22, so that the light-dispersion type light emitting unit 20a of the mounting substrate 22 It is formed in the end portion in the width (W) direction. In the case of the optical device 100 according to the first embodiment of the present invention, since the light source bodies 24 form three rows, prism is provided in rows 1 and 3 corresponding to the end portions of the mounting substrate 22 in the width W direction. 26 will be installed.

In this way, the light scattering type light emitting unit 20a is formed at the end portion in the width (W) direction of the mounting substrate 22 and is disposed in front of the surface of the mounting substrate 22 installed vertically as shown in FIGS. 3A to 3C. In addition, the light is emitted to the side of the mounting substrate 22 surface to ensure the light emitting area.

On the other hand, the prism 26 is a prism 26 used in the light fixture 100 according to the first embodiment of the present invention has a bar shape of a predetermined length bar (W) direction of the end of the mounting column It is installed perpendicular to the front of the light source body forming a can be fixed to the body frame 40, or may be fixed to the mounting substrate (22).

Here, the prism 26 is formed in a triangular cross-sectional shape, the prism 26 according to the first embodiment of the present invention has a cross-sectional shape of a right angle isosceles triangle, but may have a variety of triangular cross-sectional shape other than to be. As shown in FIG. 2, the prism 26 faces the light source body 24 and a part of the light passing through the first surface 261 and the first surface 261 through which the light is incident is emitted to the outside. The remaining part of the light passing through the first surface 261 has a second surface 262 that is totally reflected, and a third surface 263 that is totally reflected from the second surface 262 and is emitted to the outside.

The prism 26 has a width equal to or greater than the width of the light source body 24 so that the light source body 24 can be accommodated, and the length of the plurality of light source bodies 24 forming one row can be accommodated. Will have

On the other hand, the prism 26 may be installed while varying the angle between the first surface of the prism 26 and the surface of the mounting substrate 22, such an installation angle between the prism 26 and the mounting substrate 22 is It may be determined by the emission area of the light required for the light fixture 100 or the design conditions of the light fixture 100.

The light rectifying type light emitting unit 20b is formed without the prism 26 in front of the light source body 24 forming a central column in the width (W) direction of the mounting substrate 22, according to the first embodiment of the present invention. In the case of the light fixture 100, since the light source bodies 24 form three rows, two rows corresponding to the central portion of the mounting substrate 22 in the width (W) direction form the linear light emitting unit 20b. .

Such a light linear light emitting unit 20b is provided in front of the mounting substrate 22 vertically installed with the light emitted through the second surface 262 of the prism 26 in the light scattering light emitting unit 20a. Will be emitted.

On the other hand, the optical device 100 according to the second embodiment of the present invention is to ensure that the light source body 24 is arranged in two rows on each surface of the mounting substrate 22 as shown in Figure 4 (a) and (b) Accordingly, the light scattering type light emitting unit 20a is formed at one end on one surface of the mounting substrate 22, and the light scattering type light emitting unit 20a is formed at the other end on the other surface of the mounting substrate 22.

The area in which the light is emitted from the light fixture 100 according to the second embodiment of the present invention is based on an arrow indicating the center path of the light incident from the light source body 24 as shown in FIG. To a fan-shaped region.

In addition, the optical device 100 according to the third and fourth embodiments of the present invention illustrated in FIGS. 5 and 6 may include a third in front of the light source body forming a row of end portions in the width (W) direction of the mounting substrate 22. A pair of prisms in which the surface 263 and the first surface 261 are in contact with each other is provided.

Here, in the optical device 100 according to the third embodiment of the present invention, as shown in FIGS. 5A and 5B, a pair of prisms 26 having the same size as each other has the width of the mounting substrate 22. The first surface 261 of the other prism 26 is installed in front of the light source body 24 forming the row in the W) direction and on the third surface 263 of the one prism 26 in contact with the light source body 24. ) Is joined.

In the optical device 100 according to the fourth embodiment of the present invention, a pair of prisms 26 and 26 ′ having different sizes as shown in FIGS. 6A and 6B have a mounting substrate 22. It is provided in front of the light source body 24 forming a row in the width (W) direction of the (), one large prism 26 is installed while contacting the light source body 24, the other small prism (26) ') Is joined to the third surface 263 of one prism 26.

As described above, a pair of prisms separated and joined to each other may be used. Alternatively, one prism having a shape in which a pair of prisms are bonded may be used.

The region in which the light is emitted from the optical device 100 according to the third and fourth embodiments of the present invention is the light incident from the light source body 24 as shown in FIGS. 5B and 6B. It is shown as a fan-shaped area based on the arrow indicating the center path.

In addition, the optical device 100 according to the fifth, sixth, and seventh embodiments of the present invention illustrated in FIGS. 7 to 9 has a width smaller than the width b of the light source body 24 formed of a light emitting diode having a chip shape. The prism 26 'of b') is installed on the end of the mounting substrate 22 in the width W direction.

The width b 'of the prism 26' is preferably equal to or less than ½ of the width b of the light source body 24 formed of the chip-shaped light emitting diodes. In the light fixture 100 according to the seventh embodiment, a prism 26 ′ having a width corresponding to ½ of the width b of the light source body 24 is used.

In the light apparatus 100 according to the fifth, sixth, and seventh embodiments of the present invention, a part of the light emitted from each light source body 24 is the first surface of the prism 26 ′ in contact with the light source body 24. The light incident on the light source 261 is dispersed and emitted, and the remaining part of the light emitted from each light source body 24 is straight ahead to be emitted to the outside.

Accordingly, in the optical device 100 according to the fifth, sixth, and seventh embodiments of the present invention, a portion where the prism 26 'is formed forms a light scattering type light emitting unit 20a, and a portion without the prism 26'. The optical straight light emitting unit 20b is formed.

Here, in the optical device 100 according to the fifth embodiment of the present invention, the light source body 24 forms three rows, and the light source body forming one row and one end of the light source body 24 forming one row is formed in three rows. Prism 26 'is provided in the other end part of 24, respectively.

In the light fixture 100 according to the sixth embodiment of the present invention, the light source body 24 has two rows, and the light source body having three ends and three rows of the light source body 24 forming one row ( Prisms 26 'are provided at the end portions of 24, respectively.

In addition, in the optical device 100 according to the seventh embodiment of the present invention, the light source body 24 is formed in one row, and the prism 26 'is installed at both ends of the light source body 24 in one row. do.

Such a region in which light is emitted in the optical device 100 according to the fifth, sixth, and seventh embodiments of the present invention is as shown in FIGS. 7B, 8B, and 9B. It is shown as an area | region which forms a fan shape with respect to the arrow which shows the center path | route of the light incident from the light source body 24. As shown in FIG.

The body frame 40 is to be fixed to the light emitting module 20, it may have a variety of configurations depending on the type of device in which the optical device 100 to which the prism according to the present invention is applied. That is, when the light fixture 100 to which the prism is applied according to the present invention is used as a warning lamp, it may have a configuration of a general housing constituting the warning lamp, and when the light fixture 100 to which the prism according to the present invention is used is used as a tower lamp, It may have a configuration of a general housing constituting the tower lamp.

Here, the body frame 40 constituting the optical device 100 according to the first embodiment of the present invention forms a globe of the tower lamp, the base 42 is fixed to the light emitting module 20, and the light The body frame 40 is made of the transparent housing 44 is discharged.

In the optical device 100 to which the prism of the present invention configured as described above is applied, the emission region of the light secured from one light source body 24 by the prism 26 disposed on the light path of the light source body 24 is enlarged. As a result, it is possible to minimize the number of the light emitting bodies 24 satisfying the required light emitting area and the required light intensity, thereby simplifying the configuration of the light fixture 100.

As described above, the optical device to which the prism according to the embodiment of the present invention is applied is shown in accordance with the above description and drawings, but this is merely described, for example, and various changes and modifications can be made without departing from the spirit of the present invention. Those skilled in the art will appreciate that changes are possible.

20: light emitting module 20a: light scattering light emitting unit
20b: light linear light emitting unit 22: mounting substrate
24: light source body 26, 26 ': prism
261: page 1 262: page 2
263: third side 40: body frame
42: base 44: housing
100: light fixture

Claims (14)

A light emitting module emitting light to the outside;
The light emitting module is provided with a body frame is fixed,
The light emitting module includes a light scattering type light emitting unit in which a prism is disposed on an optical path of a light source body.
The light dispersing light emitting unit is a prism is applied to the light source characterized in that the light emitted from the light source body dispersed in the front and side of the prism while passing through the prism to the outside. The method of claim 1,
The light emitting module includes a mounting plate of a flat plate fixed to the body frame;
And a light source body disposed on a surface of the mounting substrate. The method of claim 2,
The mounting substrate is a PCB having a predetermined width (W) and length (L) is used,
The light source is a light fixture with a prism characterized in that the light emitting diode (LED) is used The method of claim 3, wherein
The light emitting diode has a prism is applied to the optical device characterized in that the chip (chip) form The method of claim 3, wherein
The mounting substrate is installed perpendicular to the body frame,
The light source body is provided with a plurality of spaced apart from each other on both surfaces of the mounting substrate,
The prism is characterized in that the light-dispersion type light emitting unit is formed at the end portion in the width (W) direction of the mounting substrate so that the prism is installed in front of the light source body arranged at the end portion in the width (W) direction of the mounting substrate. Applied light fixture. The method of claim 3, wherein
The mounting substrate is installed horizontally on the body frame,
The light source body is provided with a plurality of spaced apart from each other on the upper surface of the mounting substrate,
The prism is characterized in that the light-dispersion type light emitting unit is formed at the end portion in the width (W) direction of the mounting substrate so that the prism is installed in front of the light source body arranged at the end portion in the width (W) direction of the mounting substrate. Applied light fixture. The method of claim 3, wherein
The light emitting module has a light source body arranged in a plurality of rows and a plurality of columns on each surface of the mounting substrate,
A prism is installed in front of the light source body forming a row in the width (W) direction of the mounting substrate so that the light scattering type light emitting unit is formed.
The prism is applied to the front of the light source body forming a central row in the width (W) direction of the mounting substrate, so that the optically straight light emitting unit is formed. The method of claim 4, wherein
In the light emitting module, a prism having a width b 'smaller than a width b of the chip-shaped light emitting diode is installed on an end of the mounting substrate in the width W direction thereof, so that the chip-shaped light emitting diode portion corresponds to the prism. The light fixture with the prism characterized in that the light emitted from the incident to the prism. The method of claim 8,
And a prism width of the prism is equal to or less than ½ of the width b of the chip-shaped light emitting diode. The method according to any one of claims 5 to 8,
The light source body is arranged in a plurality of rows and a plurality of columns on the surface of the mounting substrate,
And a prism having a bar shape having a predetermined length and installed vertically in front of a light source body forming a row of end portions in a width (W) direction of the mounting substrate. The method according to any one of claims 5 to 8,
The prism is made of a triangular cross-sectional shape,
A first surface on which light is incident while facing the light source body;
A second surface through which a part of the light passing through the first surface passes and is emitted to the outside, and a part of the light passing through the first surface is totally reflected;
And a third surface through which the light totally reflected by the second surface passes and is emitted to the outside. 12. The method of claim 11,
The prism is applied to the light fixture, characterized in that the cross-sectional shape of the prism is a right isosceles triangle. 12. The method of claim 11,
And the prism may be installed while varying an angle between the first surface and a surface of the mounting substrate. 12. The method of claim 11,
And a pair of prisms in which a third surface and a first surface are in contact with each other in front of the light source body forming a row in the width (W) direction of the mounting substrate.

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