ES1256974U - AN OPTICAL LENS MODULE THAT ALLOWS ELECTRONIC ZOOM (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

An optical lens module that allows electronic zoom, characterized in that it includes the circuit board (4), which is equipped with several supports (3) of lens modules that are arranged in sets, each support (3) is equipped with a lens module (1), which (3) is connected to the circuit board (4) through at least one positioning column (5). The circuit board (4) is equipped with several groups of lamp sources, and any group of lamp sources is arranged according to the lens module (1), each of the groups of lamp sources is composed of several High luminous efficacy LED bulbs (2). Any of the lens modules (1) mentioned will be composed of the first lens (101), the second lens (102), the third lens (103) and the fourth lens (104). The circuit board (4) is equipped with light adjustment modules that allow the achievement of electronic zoom. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

AN OPTICAL LENS MODULE THAT ALLOWS ELECTRONIC ZOOM

FIELD OF APPLICATION OF THE INVENTION

The invention belongs to the field of optical technology for outdoor LED lighting and relates in particular to an optical lens module for the realization of electronic zoom, suitable for indoor and outdoor lamps and stage lamps.

BACKGROUND OF THE INVENTION

At present, the LED secondary optics technology has reached maturity, and the zoom method of the indoor and outdoor lamps follows the traditional rotary structure to adjust the distance between the lens and the light source to achieve zoom, or The LED zoom method generally uses a combination of the base lens plus a dimmer to zoom by changing the distance between the two.

There are the following technical defects in the use of the lamp: the zoom of the lamp requires changing the distance physically, which makes the structure complex, the precision is not easy to guarantee, and the costs are high; The loss of the total luminous flux of the LED after passing two or more lens layers through the intermediate separation distance is large and the lamp is inefficient.

How to design an optical lens module to achieve electronic zoom and how to achieve accurate optical zoom has become a pressing issue.

OBJECT OF THE INVENTION

Taking into account the disadvantages of the existing technology described above, the objective of the invention is to provide an optical lens module for the realization of the electronic zoom, and to solve the problems that exist in the current technology regarding the zoom of the lamps that require physical changes in distance, with complex structure, precision difficult to guarantee and high cost; as well as the problem that the loss of flow Total luminous intensity of the LED is large and the lamp is inefficient after passing two or more layers of lenses at a separate intermediate distance.

In order to achieve the above-mentioned objectives, the present invention provides an optical lens module for the realization of electronic zoom, which includes the circuit board, on it is equipped with several lens module holders that are arranged in sets, Each bracket is arranged with a lens module, which is connected to the circuit board through at least one positioning column.

By adopting this technology program: the positioning column enables effective control of the focal length and ensures the stability of the electronic zoom.

Several groups of light source have been equipped on the circuit board, and each group of light sources is arranged according to the lens module, and each group of light sources is composed of several high-luminous efficacy LED bulbs .

Any of the mentioned lens modules is made up of a first lens, second lens, third lens, and fourth lens.

In an application example of the present invention, the beam angle of the first lens is less than the beam angle of the second lens, the beam angle of the second lens is less than the beam angle of the third lens, and the beam angle of the third lens is less than the beam angle of the fourth lens.

In an application example of the present invention, the first lens, the second lens, the third lens, and the fourth lens of the lens module are integrated into the lens module holder and are molded in one shot; the center of the lens of either lens module is located at the same center point as the corresponding high brightness LED bulb.

In an application example of the present invention, the supports for the lens module are used in either of two ways: rectangular or square.

In an application example of the present invention, the first and second lenses have a diameter of 20 to 30mm and a height of 10 to 20mm.

The third and fourth lenses will have a diameter of 10-20mm and a height of 10-20mm.

In an application example of the present invention, the first and second lenses are arranged diagonally A, the third and fourth lenses are arranged diagonally B, the diagonals A and B being the two diagonals crossed within the same parallelogram.

There are two positioning columns on diagonal B, which are arranged symmetrically along the center of the parallelogram.

In an application example of the present invention, the circuit board is constituted by an aluminum substrate on which the light adjustment modules that allow electronic zoom are mounted.

In an application example of the present invention, the lens module is made of PMMA material and has a height of 40 to 50mm.

Thanks to the adoption of this technical program: PMMA material has the advantages of good chemical stability, high transparency, low price and easy machining; The lens module of PMMA material has excellent light transmittance, higher than that of glass, with a light transmission index of 93% and a refractive index of 1,491.

In an application example of the present invention, the light adjustment module is capable of emitting the control signal corresponding to the driving circuit of the LED and thus turning on the light of the LED; Under the control of the algorithm of the light adjustment module, the high-brightness LED bulbs are turned on according to different combinations of brightness, and the light emitted by the high-efficiency LED bulbs is combined into different size spots after passing through the lens module to achieve electronic zoom.

The present invention provides an illumination device that constitutes an internally mounted optical lens module for performing electronic zoom, including lens modules, high luminous efficacy LED bulbs, lens module holders and circuit board.

As mentioned above, the optical lens module of the present invention for the realization of the electronic zoom has a reasonable structure and solves the problem. problem that the existing zoom needs to physically change the distance, it is complex in its structure, the precision is not easy to guarantee and the cost is high; Electronic zoom is done through the circuit board light adjustment module, with four angle combined lens modules, which is easy to disassemble, and the optical zoom is precise, allowing to get a combined light shape, a smooth adjustment of the angles, a complete and delicate light color and a high efficiency of the lamp; Ultra remote focus can be realized through the DMX512 controller, WIFI and many other ways, and the promotion of the application has good economic and social benefits.

DESCRIPTION OF THE DRAWINGS

Figure 1 shows a diagram of the installation structure of the invention.

Figure 2 shows the main view of Figure 1.

Figure 3 shows the schematic structure of the lens module of the invention.

Figure 4 shows a panoramic view of figure 3.

Figure 5 shows the light spot diagram of the lens module of the invention. Figure 6 shows the actual light effect of the lens module of the invention.

In the figure: 1. lens module; 2. High luminous efficacy LED bulb; 3. lens module holder; 4. circuit boards; 5. positioning column; 101. first lens; 102. second lens; 103. third lens; 104. fourth lens.

PREFERRED EMBODIMENT OF THE INVENTION

The following describes the application method in which the invention is carried out by means of specific application examples, people familiar with this technology can easily understand other advantages and efficacy of the invention for what is explained in this manual.

See Figures 1 to 6. You should know that the structure, scale and illustrative size in the outline of this manual are only to reveal its informational content, and for people familiar with this technology to understand and read it, do not used as a qualification requirement to restrict the application of the present invention, therefore, it is not of substantial technical importance, any improvement of the structure, modification of the scale ratio or adjustment of the size remains under the technical scope revealed by the invention without prejudice to the effectiveness that the invention may produce and the purposes it may achieve. At the same time, the terms cited in this manual, such as "top", "bottom", "left", "right", "middle" and "one" are also used only to describe clearly, not to limit the scope. scope of this invention, the modification or adjustment of their relative relationships can also be considered as the scope of the present invention provided there are no substantive changes.

As shown in figure 1, the present invention provides an optical lens module for the realization of electronic zoom, which includes the circuit board (4), the characteristic of which is: the mentioned circuit board (4) is equipped with several supports (3) of lens modules that are arranged in sets, each support (3) is equipped with a lens module (1), which (3) is connected to the circuit board (4) through at least a positioning column (5); By adopting this technical program: the positioning column allows efficient control of the focal length and ensures the stability of the electronic zoom.

Several groups of light source have been equipped on the circuit board 4, and each group of light sources is arranged in accordance with the lens module 1, and each group of light sources is composed of several LED bulbs 2 of high luminous efficacy.

As shown in Figure 4, any of the mentioned lens modules is formed by the first lens 101, the second lens 102, the third lens 103 and the fourth lens 4.

The beam angle of the first lens 101 is less than the beam angle of the second lens 102, the beam angle of the second lens 102 is less than the beam angle of the third lens 103, and the beam angle of the third lens 103 is less than the beam angle of the fourth lens 104.

The first lens 101, the second lens 102, the third lens 103, and the fourth lens 104 of the lens module 1 are integrated into the support of the lens module 3 and are molded in one shot; the center of the lens of any of the lens 1 modules is located at the same center point as the corresponding high brightness LED bulb 2.

The mentioned support 3 of the lens module can use either of the two following shapes: rectangular or square.

As shown in Figure 3, the first lens 101 and the second lens 102 will have a diameter of 20 to 30mm and a height of 10 to 20mm.

The third lens 103 and the fourth lens 104 will have a diameter of 10 to 20mm and a height of 10 to 20mm.

The first lens 101 and the second lens 102 are arranged diagonally A, the third lens 103 and the fourth lens 104 are arranged diagonally B, the diagonals A and B being the two diagonals crossing within the same parallelogram.

There are two positioning columns 5 on the diagonal B, which 5 are arranged symmetrically along the center of the parallelogram.

The circuit board 4 is made of an aluminum substrate on which light adjustment modules are installed that allow electronic zoom.

The lens module 1 is made of PMMA material, that is, all lenses are polymethylmethacrylate lenses; By adopting this technical program: PMMA material has the advantages of good chemical stability, high transparency, low price, and easy machining; The lens module of PMMA material has excellent light transmittance, higher than that of glass, with a light transmission index of 93% and a refractive index of 1.491.

The height of lens module 1 will be 40 to 50mm.

The light adjustment module can output the control signal corresponding to the LED driving circuit and thus turn on the LED light; Under the control of the algorithm of the light adjustment module, the high-brightness LED 2 bulbs are turned on according to different brightness combinations, and the light emitted by the high-efficiency LED 2 bulbs is combined into different size spots after go through lens module 1 to achieve electronic zoom.

When concretely applied, the zoom principle of the present invention constitutes: the part combines the 4 angle lenses together (for example the beam angle of the first lens 101 is 7 °, the beam angle of the second lens 102 is 12 °, the beam angle of the third lens 103 is 24 °, the beam angle of the fourth lens 104 is 36 °), through a light adjustment module, the signal can be output control corresponding to the LED driving circuit and thus turn on the LED light; Under the control of the algorithm of the light adjustment module, the 2 high brightness LED bulbs corresponding to the 7 °, 12 °, 24 ° and 36 ° angle lenses are turned on according to different combinations of brightness, and the emitted light By 2 high-efficiency LED bulbs it is combined into different size spots after passing through the lens module to achieve electronic zoom. For example: When only the LED bulb corresponding to the 7 ° angle lens is lit, the lights accumulate to form a spot of light for the 7 ° lens, when you reduce the brightness of the LED bulb corresponding to the 7 ° lens °, and at the same time increases the brightness of the LED bulb corresponding to the lens 12 °, the light spot formed is between 7 ° and 12 °, when the brightness of the LED bulb corresponding to the 7 ° lens has been reduced to 0, while the brightness of the LED bulb corresponding to the 12 ° lens is increased to 100% brightness, the light spot formed will be 12 ° lens.

Application example 1: a lighting fixture constituting an internally mounted optical lens module to perform electronic zoom, including lens modules 1, high luminous efficacy LED bulbs 2, lens module holders 3 and plate of circuit 4. The lens module light spot diagram is shown in Figure 5.

The actual light effect of the lens module is shown in figure 6.

Application example 2: the invention realizes ultra remote focus by DMX512 controller, WIFI and other ways; Of which the DMX512 controller can output a standard DMX512 control signal, capable of connecting to multidmx lamps and collaborating with the DMX LED controllers to form a complete DMX control system; By using the router as an access point, the mobile phone and the WiFi connect to the same router and communicate with the mobile phone through the WiFi network. The wireless connection allows the adjustment of the phone light, increasing both the number of controls and the control distance.

Application example 3: In the holder 3 of the lens module of the invention, grooves have been developed that coincide with the zoom lens module 1, the holder is equipped with a positioning column fixed to the plate 4 as a prism; The dimensions of the zoom lens module will be 40 to 50mm; The zoom lens, whose structural design is based on the simple principle that the beam angle of the first lens 101 is less than the beam angle of the second lens 102, the beam angle of the second lens 102 is less than the angle of the beam of the third lens 103, the beam angle of the third lens 103 is less than the beam angle of the fourth lens 104; It is a four-angle combination module, easy to disassemble.

Application example 4: the light adjustment module of the invention uses an adjustment circuit to control the brightness of the LED; Under the control of the light adjustment circuit, the high-efficiency LED bulbs 2 corresponding to the first lens 101, the second lens 102, the third lens 103 and the fourth lens 104 are respectively turned on in a certain proportion of brightness, the Light emitted by 2 high-efficiency LED bulbs is combined into different size spots after passing through the lens module to achieve electronic zoom.

In conclusion, the optical lens module of the present invention for the realization of electronic zoom has a reasonable structure and solves the problem that the existing zoom needs to physically change the distance, it is complex in its structure, the precision is not easy to guarantee and the cost is high; The electronic zoom is done through the circuit board light adjustment module, with combined lens modules with four angles, which is easy to disassemble and the optical zoom is precise, allowing to obtain a combined light shape , a smooth adjustment of the angles, a complete and delicate light color and a high efficiency of the lamp; Ultra remote focusing can be done through DMX512 controller, WIFI and many other ways. Therefore, the invention effectively overcomes all the shortcomings of the existing technology and has a high industrial use value.

The above mentioned application examples are only illustrative for the description of the principles and effectiveness of the invention, and are not used to restrict the invention. Any person familiar with this technique may modify or revise the examples mentioned without violating the spirit and scope of the invention. Therefore, all modifications or improvements made by persons with ordinary knowledge in the technical field to which they belong, without violating the spirit and technical ideas revealed by the invention, will continue to be covered by the claims of the invention.

Claims (10)

1. An optical lens module that allows electronic zoom, characterized in that it includes the circuit board (4), which is equipped with several supports (3) of lens modules that are arranged in sets, each support (3) is equipped with a lens module (1), which (3) is connected to the circuit board (4) through at least one positioning column (5). The circuit board (4) is equipped with several groups of lamp sources, and any group of lamp sources is arranged according to the lens module (1), each of the groups of lamp sources is composed of several High luminous efficacy LED bulb (2). Any of the lens modules (1) mentioned will be composed of the first lens (101), the second lens (102), the third lens (103) and the fourth lens (104). The circuit board (4) is equipped with light adjustment modules that allow the achievement of electronic zoom. 2. An optical lens module that allows electronic zoom, according to claim 1, characterized in that the beam angle of the first lens (101) is less than the beam angle of the second lens (102), the beam angle of the Second lens (102) is less than the beam angle of the third lens (103), the beam angle of the third lens (103) is less than the beam angle of the fourth lens (104). 3. An optical lens module that allows electronic zoom, according to claim 1, characterized in that the first lens (101), the second lens (102), the third lens (103) and the fourth lens (104) of the lenses (1) are integrated in the support of the lens module (3) and molded in a single time; The center of the lens of any of the lens modules (1) is located at the same center point as the corresponding high brightness LED bulb (2). 4. An optical lens module that allows electronic zoom, according to claim 3, characterized in that the supports for lens modules (3) are optional with a rectangular or square shape. 5. An optical lens module that allows electronic zoom, according to claim 3, characterized in that the first lens (101) and the second lens (102) will have a diameter between 20 and 30mm and a height between 10 and 20mm; and the third lens (103) and the fourth lens (104) they will have a diameter of 10 to 20mm and a height of 10 to 20mm. 6. An optical lens module that allows electronic zoom, according to claim 3, characterized in that the first lens (101) and the second lens (102) are arranged diagonally A and the third lens (103) and the fourth lens ( 104) are arranged diagonally B, the diagonals A and B being two crossed diagonals within the same parallelogram; diagonal B has two positioning columns (5) arranged symmetrically along the center of the parallelogram. 7. An optical lens module that allows electronic zoom, according to claim 1, characterized in that the circuit board (4) is made of an aluminum substrate. 8. An optical lens module that allows electronic zoom, according to claim 1, characterized in that the lens module (1) is made of PMMA material and its height is 40 to 50mm. 9. An optical lens module that allows electronic zoom, according to claim 1, characterized in that the light adjustment modules can emit the control signal corresponding to the LED driving circuit and thus turn on the LED light; Under the control of the algorithm of the light adjustment module, the high-efficiency LED bulbs (2) are turned on according to different combinations of brightness, and the light emitted by the high-efficiency LED bulbs (2) is combined into spots of different sizes after passing through the lens module (1) to achieve electronic zoom. 10. An illumination device consisting of optical lens modules installed inside it to achieve electronic zoom, characterized in that the optical lens module will have the structure described in any of the above-mentioned claims 1 to 9.