CN214954459U - Five-channel RGB bus communication stroboscopic light source control system - Google Patents

Abstract

The utility model relates to the technical field of light source regulation and control, in particular to a five-channel RGB bus communication stroboscopic light source control system, which comprises a fixing frame and RGB light sources arranged on the fixing frame, wherein each RGB light source comprises a first light source and four second light sources arranged into a rectangular ring; the light source comprises a fixing piece and is characterized by further comprising three control units arranged on the fixing piece, wherein each control unit is electrically connected with a first light source and a second light source respectively, the first control unit is used for regulating and controlling the brightness of the light source, the second control unit is used for regulating and controlling the color of light emitted by the light source, and the third control unit is used for regulating and controlling the opening and closing of the light source; in the use of RGB light source, with the help of three the independent control of the control unit, to the actual demand of waiting to shine the article of difference for the light source can intermittent type nature luminous, send the light of different luminance, send the light of different colours, satisfies the different demands of shining of article, promotes the performance of RGB light source.

Description

Five-channel RGB bus communication stroboscopic light source control system

Technical Field

The utility model relates to a light source regulation and control technical field especially discloses a five-channel RGB bus communication stroboscopic light source control system.

Background

In the processing procedure of article, often need shoot the article, then carry out each item processing to the article with the help of the data information of the photograph analysis processing article of shooting, and then carry out the data information according to the data information who analyzes, the environment demand of shooing of article among the prior art is various, and the structural design of light source is unreasonable, can not satisfy the various demands that the article shines, leads to not clearly shooing, and then leads to the article to handle badly, and it is extremely inconvenient to use.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming and the deficiency that exist among the prior art, the utility model aims to provide a five-channel RGB bus communication stroboscopic light source control system, with the help of three the control unit's independent control, to the different actual demand that treats the irradiation article for the light source can intermittent type nature luminous, send the light of different luminance, send the light of different colours, satisfy the different irradiation demand of article, promote the performance of RGB light source.

In order to achieve the above object, the utility model discloses a five-channel RGB bus communication stroboscopic light source control system, including the mount, set up the RGB light source on the mount, the RGB light source includes the first light source, arranges into four second light sources of rectangular ring, the light that the first light source, four second light sources sent shines to the same side of article; the light source comprises a fixing piece and is characterized by further comprising three control units arranged on the fixing piece, each control unit is electrically connected with the first light source and the second light source respectively, the first control unit is used for regulating and controlling the brightness of the light source, the second control unit is used for regulating and controlling the color of light emitted by the light source, and the third control unit is used for regulating and controlling the opening and closing of the light source.

The industrial camera shoots objects irradiated by the light source through the lens unit.

The RGB light source comprises a heat conduction shell and a radiator arranged on the heat conduction shell, and the first light source and the second light source are both arranged on the heat conduction shell; the fixing frame is provided with an air pipe connector, the vacuum generator is matched with the radiator through the air pipe connector, and the air pipe connector is used for regulating and controlling the on-off of the circulating air.

The lens assembly is positioned between the first control unit and the second control unit, and the vacuum generator enables flowing air to flow through the heat radiator, the lens unit and the gap between the first control unit and the second control unit through the air pipe joint.

The heat conducting shell comprises a first shell and a second shell which are arranged on the fixing frame, a lens is arranged in the first shell, the first light source is arranged in the first shell, light rays emitted by the first light source irradiate the lens and penetrate through the second shell to be emitted after being refracted by the lens, the four second light sources are arranged in the second shell, and light rays emitted by the four second light sources are emitted out of the second shell.

The first shell is provided with a first through hole penetrating through the first shell, the second shell is provided with a second through hole communicated with the first through hole, the lens is located in the first through hole, the central axis of the lens and the central axis of the first through hole are arranged in a crossed mode, the four second light sources are arranged around the second through hole, and light rays emitted by the first light sources and light sources emitted by the second light sources are emitted out of the second shell through the second through hole.

The second shell is provided with a rectangular ring surrounding the second through hole, the second light source is arranged in a crossed mode with the central axis of the second through hole, the lower end of the second light source abuts against the rectangular ring, and the upper end of the second light source abuts against the inner side of the second shell.

The first light source and the second light source comprise circuit boards, and a plurality of LED patches welded on the circuit boards are arranged on the circuit boards in an array mode.

The utility model has the advantages that: in the use of RGB light source, with the help of three the independent control of the control unit, to the actual demand of waiting to shine the article of difference for the light source can intermittent type nature luminous, send the light of different luminance, send the light of different colours, satisfies the different demands of shining of article, promotes the performance of RGB light source.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the exploded structure of the present invention;

fig. 3 is a schematic structural diagram of the second housing according to the present invention.

The reference numerals include:

1-fixed frame 2-first light source 3-second light source

4-control unit 5-industrial camera 6-lens unit

7-radiator 8-air pipe joint 9-first shell

11-second housing 12-rectangular ring.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

Please refer to fig. 1 to 3, the RGB light source control system of the present invention comprises a fixing frame 1, and RGB light sources installed on the fixing frame 1, wherein the RGB light sources include a first light source 2 and four second light sources 3 arranged in a rectangular ring, and the light emitted from the first light source 2 and the four second light sources 3 irradiates the same side of the object. In this embodiment, the plane where the first light source 2 is located and every two of the four second light sources 3 are arranged in a crossing manner.

The LED lamp further comprises three control units 4 arranged on the fixing piece, each control unit 4 is electrically connected with the first light source 2 and the second light source 3 respectively, the first control unit 4 is used for regulating and controlling the brightness of the light sources, the second control unit 4 is used for regulating and controlling the color of light emitted by the light sources, and the third control unit 4 is used for regulating and controlling the opening and closing of the light sources.

In the use of RGB light source, with the help of three the independent control of control unit 4, to the actual demand of waiting to shine the article of difference for the light source can intermittent type nature luminous, send the light of different luminance, send the light of different colours, satisfies the different demands of shining of article, promotes the performance of RGB light source.

The industrial camera 5 is arranged on the fixing frame 1, and the lens unit 6 is arranged on the fixing frame, and the industrial camera 5 shoots objects irradiated by the light source through the lens unit 6. During the in-service use, five passageway RGB bus communication stroboscopic light source control system form an independent modular component, installs on external board via mount 1, realizes five passageway RGB bus communication stroboscopic light source control system's mechanical installation, via three the control unit 4 with external control box electric connection, realizes five passageway RGB bus communication stroboscopic light source control system's electric installation, promotes five passageway RGB bus communication stroboscopic light source control system's dismouting efficiency.

The RGB light source comprises a heat conduction shell and a radiator 7 arranged on the outer side of the heat conduction shell, and the first light source 2 and the second light source 3 are both arranged on the heat conduction shell; the fixing frame 1 is provided with an air pipe joint 8, the vacuum generator is matched with the radiator 7 through the air pipe joint 8, and the air pipe joint 8 is used for regulating and controlling the on-off of the circulating air.

During the in-service use, air pipe joint 8 is opened, and vacuum generator starts and makes the air flow through radiator 7, and then takes away the heat on the radiator 7, realizes the quick heat dissipation to the heat conduction casing, and then realizes the quick heat dissipation to the RGB light source, avoids the RGB light source high temperature and disturbs the normal use of industrial camera 5 and lens unit 6.

The lens assembly is located between the first control unit 4 and the second control unit 4 and the vacuum generator causes flowing air to flow through the heat sink 7, the lens unit 6, the gap between the first control unit 4 and the second control unit 4 via the air line connection 8. By means of the structural layout of the lens assembly and the two control units 4 and the flowing air, the two control units 4 can be quickly cooled, and the poor use caused by overhigh temperature of the control units 4 is avoided.

The heat conduction shell comprises a first shell 9 and a second shell 11 which are arranged on the fixing frame 1, a lens is arranged in the first shell 9, the first light source 2 is arranged on the first shell 9, light emitted by the first light source 2 irradiates the lens and penetrates through the second shell 11 to be emitted after being refracted by the lens, the four second light sources 3 are arranged in the second shell 11, and the light emitted by the four second light sources 3 is emitted out of the second shell 11. Through the split design of the first shell 9 and the second shell 11, the first light source 2 is prevented from shielding the bottom surface of the second shell 11, so that the first light source 2 and the four second light sources 3 can sufficiently irradiate on one side surface of an object.

The first shell 9 is provided with a first through hole penetrating through the first shell 9, the second shell 11 is provided with a second through hole communicated with the first through hole, the lens is located in the first through hole, the central axes of the lens and the first through hole are arranged in a crossed manner, preferably, an included angle between the lens and the central axis of the first through hole is 45 degrees, the four second light sources 3 are arranged around the second through hole, and light rays emitted by the first light sources 2 and light sources emitted by the second light sources 3 are emitted out of the second shell 11 through the second through hole.

The second housing 11 is provided with a rectangular ring 12 surrounding the second through hole, the second light source 3 is arranged to intersect with the central axis of the second through hole, the lower end of the second light source 3 abuts against the rectangular ring 12, and the upper end of the second light source 3 abuts against the inner side of the second housing 11. The rectangular ring 12 stops and abuts against the second light source 3, so that the second light source 3 is quickly and accurately mounted on the second housing 11, and the mounting yield of the second light source 3 is improved.

First light source 2, second light source 3 all include the circuit board, and a plurality of LED paster of welding on the circuit board, a plurality of LED pasters are the array setting at the circuit board. Preferably, the plurality of LED patches are arranged in a rectangular array on the circuit board.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (8)

1. A five-channel RGB bus communication stroboscopic light source control system comprises a fixing frame and RGB light sources arranged on the fixing frame, wherein each RGB light source comprises a first light source and four second light sources arranged in a rectangular ring, and light rays emitted by the first light source and the four second light sources irradiate the same side of an object; the method is characterized in that: the light source comprises a fixing piece and is characterized by further comprising three control units arranged on the fixing piece, each control unit is electrically connected with the first light source and the second light source respectively, the first control unit is used for regulating and controlling the brightness of the light source, the second control unit is used for regulating and controlling the color of light emitted by the light source, and the third control unit is used for regulating and controlling the opening and closing of the light source.

2. The five-channel RGB bus communication strobe light source control system of claim 1, wherein: the industrial camera shoots objects irradiated by the light source through the lens unit.

3. The five-channel RGB bus communication strobe light source control system of claim 2, wherein: the RGB light source comprises a heat conduction shell and a radiator arranged on the heat conduction shell, and the first light source and the second light source are both arranged on the heat conduction shell; the fixing frame is provided with an air pipe connector, the vacuum generator is matched with the radiator through the air pipe connector, and the air pipe connector is used for regulating and controlling the on-off of the circulating air.

4. The five-channel RGB bus communication stroboscopic light source control system of claim 3, wherein: the lens assembly is located between the first control unit and the second control unit, and the vacuum generator causes the flowing air to flow through the heat sink, the lens unit, and the gap between the first control unit and the second control unit via the air pipe joint.

5. The five-channel RGB bus communication stroboscopic light source control system of claim 3, wherein: the heat conducting shell comprises a first shell and a second shell which are arranged on the fixing frame, a lens is arranged in the first shell, the first light source is arranged in the first shell, light rays emitted by the first light source irradiate the lens and penetrate through the second shell to be emitted after being refracted by the lens, the four second light sources are arranged in the second shell, and the light rays emitted by the four second light sources are emitted out of the second shell.

6. The five-channel RGB bus communication stroboscopic light source control system of claim 5, wherein: the first shell is provided with a first through hole penetrating through the first shell, the second shell is provided with a second through hole communicated with the first through hole, the lens is positioned in the first through hole, the central axis of the lens and the central axis of the first through hole are arranged in a crossed mode, the four second light sources are arranged around the second through hole, and light rays emitted by the first light sources and light sources emitted by the second light sources are emitted out of the second shell through the second through hole.

7. The five-channel RGB bus communication stroboscopic light source control system of claim 6, wherein: the second shell is provided with a rectangular ring surrounding the second through hole, the central axes of the second light source and the second through hole are arranged in a crossed mode, the lower end of the second light source is abutted against the rectangular ring, and the upper end of the second light source is abutted against the inner side of the second shell.

8. The five-channel RGB bus communication strobe light source control system of claim 1, wherein: first light source, second light source all include the circuit board, and the welding is a plurality of LED paster on the circuit board, and a plurality of LED pasters are the array setting at the circuit board.

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