WO2010148956A1

WO2010148956A1 - Device for transmitting light energy by parabolic mirrors

Info

Publication number: WO2010148956A1
Application number: PCT/CN2010/073754
Authority: WO
Inventors: 黄建文
Original assignee: Huang Chien-Wen
Priority date: 2009-06-24
Filing date: 2010-06-10
Publication date: 2010-12-29
Also published as: CN101576649A

Abstract

A device for transmitting light energy by parabolic mirrors, includes at least one parabolic convex mirror (1) and at least one parabolic concave mirror (2). The convex surface of the convex mirror (1) is a parabolic reflecting surface. The concave surface of the concave mirror (2) is a parabolic reflecting surface. The reflecting surface of the convex mirror (1) is mounted opposite to the reflecting surface of the concave mirror (2). The parabolic forms of he two reflecting surfaces are similar. The geometric dimension of the reflecting surface of the concave mirror (2) is greater than the geometric dimension of the reflecting surface of the convex mirror (1). Axes of the reflecting surfaces of the two reflecting mirrors are overlapped at a public axis (4). Focuses of the reflecting surfaces of the two reflecting mirrors are overlapped at a public focus (7).

Description

Device using parabolic light energy

Wood field

This and the use of parabolic light energy to use parabolic special anti-special parallelism to achieve effective or scattered and more diverse in the field of wood.

Background

At present, the light source of the light source is divided into the following schemes.

1 is the use of the lens. The lens is known as the Big Eight. It can be gathered on it.

2 is the use of lenses (F e sne ens) The current lens is mostly made of materials or made of glass. The surface of the lens is smooth. The other side of the lens is concentric with small to large mercury. It is based on the use of light and phase sensitivity and acceptance angle requirements. The lens is better at many lenses than the lens, but the cost is much lower than that of a normal lens. Mostly used for precision requirements such as, magnifying glass, infrared, etc.

The effect of the lens is that the focus is on the infrared or the reverse on the infrared. The second effect is to divide the inner component and the rest of the energy in the form of temperature on the P.

3 is to use the parabolic anti-parabolic anti-parabolic retrieving special, columnar parabola, parabola. Parabolic retrieving special anti-light can make her light in her round light.

However, the common use of the concentrating light source scheme is that it is used in close proximity to her.

The most current method is to use the reverse hand or control the direction and elevation angle to turn the light from the mirror to her near to her. The use of multiple counters can make a tortuous path. The scheme can be any of the same in the surface or in a closed pipeline.

Another way is to use light or a pipe.

Some methods are to use the lens (F e sne ens will The light source has a light lens in the lens chamber around the room. The nearly parallel beam can reach 20 miles or more. Currently on the coast or on the reef is the use of wood.

I can get closer to her, the beam must be a parallel beam. The artificial laser aS e ) is also a parallel beam. It can be close to her, so it is obtained in this, weapons, and other aspects. However, the laser is an artificial light source and it is currently manufactured to produce powerful lasers and lasers.

Content

The purpose of this and the purpose is to provide new light energy. Using parabolic special light anti-speciality makes the parallelism effective or scattered and different.

The purpose of this and the purpose of the project is

The anti-parabola anti-parabola anti-parabola of the anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabola Anti-reverse

Size, western parabola, anti-reverse, public, looking for her, and each

In the public she.

Parabolic anti-mirror and parabolic anti-parabolic anti-uniform parabolic retrieving the special Western parabolic retrieving special western parabolic retrieving special is to find the hundred parabolic objects in the same hundred to find the special public.

The center of her blasphemy is in the public search.

The parabolic inverse and the parabolic inverse parabolic anti-uniform force columnar parabola are formed on the inverse of each parabola.

Look for her in the paradox.

At the bottom of the 汝吋吋吋抛和和和和和和和和和和和和吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋吋汝汝汝汝汝汝Antiparabolic The inverse size of the similar concentrating parabola is larger than the anti-dimensional convection of the convection parabola and the opposite is true.

In the gathering of light, she is against her.

In the opposite direction, the parabolic object and the parabola are opposite to each other. The third parabola is anti-third parabolic inverse and the anti-third parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-parabolic anti-mirror The size of the parabola is smaller than the size of the parabola. The size of the third parabola is larger than the size of the parabola. The parabola of the parabola is the common one of the third parabola and the opposite of the third parabola.

Parabolic inverse, parabolic inverse mirror and third parabolic inverse parabolic anti-uniform parabolic retrieving special or columnar parabola.

Light source in the form of a light source in the form of a soil, controlled by control, control software, sensors, and support

And the control and control software installed on the support receives the light source of the Zhu sensor and the common light source that enables the light energy.

汝 There is image receiving, image receiving, and half imaging.汝光光用以用以将将将将将将将将将将将将将将将将将将将将将将将将到到到到到到到到到到到到到到到到到到到到到到到到到到Can beam the light to the woodland

The light energy of a hundred pipes is composed of several hundred and a number of anti-reverses. The light beam that is connected to her in the same hundred pipes is parallel to the hundred directions in each hundred pipes.

The light energy of the pipe is made up of a number of parallel beams that are highly reflective on the inner wall of each pipe. Empty pipeline

Light energy is formed by several 汝

Put the beam of light into the woodland.

In the woodland of the light energy, there is a light energy dispersing device. The light energy is dispersed in the parabola. The hole in the public is in the direction of the public.

Above the parabola, there is at least a lens lens that can be a common combination of lenses or lens lenses.

There is at least a lens lens that can be a common combination of a lens or a lens lens below the parabola.

The use of parabolic light energy is formed by a number of pre-loading or combination of parabolic light energy.

In the light of the light, she finds out that she has light to collect the light into the woodland and gather it in the woodland.

Benefits of this

The use of parabolic light energy is a new kind of light energy, and the parabolic phase of the parasitic phase uses the characteristic light energy of the parabola itself. 1 using parabolic light energy

2 using parabolic light energy

3 using parabolic light energy, the fourth

4 using parabolic light energy installation

5 using parabolic light energy

6 using parabolic light energy

7 using parabolic light energy, the seventeenth

8 using parabolic light energy

9 using parabolic light energy

10 using parabolic light energy

11 Use parabolic light. Parabolic inverse 1 parabolic inverse 2 support 3 parabolic inverse 5 parabolic inverse 6. 7 8 9 Concentrated parabola anti-reflection

12 concentrating parabola anti 14 third parabolic anti 20 third parabolic anti her 21 third parabolic anti 22 hol 30 concentrating 40 lens 50 light source 80 light source 140

Hugh way

The composition of the husband and the composition of the wood, the effectiveness of the woodwork and the effectiveness of the work in conjunction with the 休休力力力力力及及及及及及及及及及及及力力力力力力力力力力力力力力The apparatus utilizing parabolic light energy as shown includes at least parabolic inverse 1, at least parabolic inverse 2, and support 3. The inverse of the parabola of parabola. The inverse of the parabola of the parabola. Parabolic anti-1 Parabola The inverse of the anti-2 is 汝 and the parabola of the West is similar. The similarity is the equal size of each of the western parabolic objects. The inverse size of the parabola inverse 2 is greater than the inverse dimension of the parabola inverse 1 . The west parabola counter-reverse and each contradicts 7 her.

Parabolic inverse 1 and parabolic reverse 2 are mounted and fixed on the supported 3 . However, it is possible that the parabolic anti-1 and parabolic anti-2 of the large size can be mounted on the pedestal or base without having to be restricted to the support 3 of the same.

It is pointed out that the trick of this is to use a parabolic energy with parabolic inverse. Parabolic is the upper set of equals F and millions on the plane. Verification of F is the verification of parabola that is parabolic. Hundreds of approvals on the plane and

F. It is parabolic. Parabolic

.

From the semi-pushing of the parabola, she knows that she omits the rest, if the anti-parabolic inverse, then any parallel to the parabolic light to the anti-nuclear On the contrary to the parabolic. On the other hand, if the anti-parabola is reversed, then any light parallel to the parabola will be counter-reverse.

The opposite of the parabola is reversed. If the opposite parabola is reversed, then any anti-parallel light will be parabolic and anti-reverse light will be parallel to the parabolic inverse.

The characteristics of the above parabola are shown in this and the use of parabolic light energy as shown in 汝 1. There are still parallel 8 along the common 4 direction of parabola inverse 1 and parabolic inverse 2 parabolic anti 2 8 will be reversed to 7 . Nuclear counter 8 to parabola inverse 1 on the reverse 8 to parabola inverse 1 to parabolic counter 2 on the 8th parabola counter 2 on the parabola counter 1 on the 8th in the west paradox and vice versa in the light 8 will gradually west Parabolic inverse 5, 6 . The most parallel 8 will be a parallel energy beam with a strong energy density near 5 of the parabola. This is the power and light energy

The basic principle of light energy. 2 shows the parabolic anti-uniform force parabolic retrieving special for parabolic inverse 1 and parabolic inverse 2 in the first step. The western parabola retrieves the special combination of 7. The 7th West Parabute Retrieving Special 5, 6 is in the same hundred and hundreds of is the West Parabolic Retrieving Special 2 shows the third is in the second of the 5th in which the parabola is 2 in the center of her 9 9 On the public 4th. It is possible to make the parallel beam 8 round 9 . 3 is a parabolic anti-uniform columnar parabola that defines parabolic inverse 1 and parabolic inverse 2 in the first step. A columnar parabola is a shape formed by a parabola along a certain hundred. Public 7 forms a common 7 7 Parabolic inverse 2 of 5 is 5 5 Parabolic inverse 1 of 6 is 6 6 . The public 7 7 5 5, 6 6 are parallel to each other and she is in the same plane. Her plane is public 4 translation formed. 3 is shown in the fourth on the parabolic counter 2 of 5 5 she 汝 9. It is possible to make the parallel beam 8 can be 9. 4 shows that at least on the fifth side, there are at least a concentrating parabola 4 and a concentrating parabola.

The concentrating parabola has a parabolic inverse of or. The inverse of the parabola of the anti-parabolic anti-10. Concentrating parabola anti-French parabola anti-surface anti-surface 汝 and west anti-parabolic similar. The inverse size of the condensing parabola inverse 10 is larger than the inverse dimension of the concentrating parabola inverse 14. The combination of the west and the light parabola is the opposite of each other. The top 9 of the shape light on the concentrating parabola inverse 14 and the concentrating parabola inverse 10 three form a dense parallel beam. The principle of rest is in the middle.

It is pointed out that as long as the opposite of the opposite of the convection parabola and the convection parabola, the same parabola can be combined. The anti-parabolic parabola of the concentrating parabola counter 14 and the concentrating parabolic mirror 10 are similar to the antiparabola of the parabola inverse 2.

In addition, the 聚聚抛反和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和和聚聚Ann's on her in the light parabolic anti-10, she 汝11. It is thus possible to form the parallel beam 8 11 . 5 is shown on the same as the parabolic reflection and the parabolic inverse 2 have a third parabola inverse 20. Third parabolic inverse The inverse of 20 and the uniform force parabola. The antiparabolic parabola of the third parabola counter 20 is inversely similar to the parabola of the inverse parabola of the third parabola inverse 20. The size of the third parabola inverse 20 is smaller than the parabolic inverse 2

The size of the third parabola inverse 20 is larger than the size of the parabola inverse 1 . The anti-parabolic combination of the third parabola and the anti-community of the public. In addition, in the third parabolic counter 20, she has a hole 21 21 third parabolic anti 20 and .

It is pointed out that the opposite of the inverse of the third parabolic anti 20 antiparabal anti 1 of the new antimony is opposite. They don't need to be opposite each other. But what needs to be strong is nuclear.

The common 8 parallel parallel 8 to the third parabolic inverse 20 will reverse and go back to the common 7 direction nucleus 8 to the parabola inverse 1 nucleus counter 8 will parably reverse 1 reverse to the third parabola counter 20 8 and the third parabola counter 20 counter-reverse to parabolic anti-1 on the 8th in the west parabolic opposite and the opposite anti-reverse light 8 will gradually go westward parabolic anti-parallel 8 will be the third parabola anti 20 of 22 her 21 Parabolic anti-2 is near the inverse of 5.

However, the parallel parallel 8 of the common 4 to the parabolic inverse 2 will reverse to the common 7-direction nucleus 8 to the third parabolic counter 20, the counter-reverse 8 will be the third parabola counter 20 counter-parabolic On the opposite side of the 2nd, the anti-reverse of the parabola is reversed to the opposite of the third parabolic counter 20, so that the light in the west parabola and vice versa will gradually become the parallel to the west parabolic object. Anti-2 anti-5 energy intensity near the parallel beam. The present invention is in turn to provide a number of parabolic solutions in the form of light energy and enhanced light energy capabilities. Can The field-like technology can make any multi-parabolic anti-solution. Therefore, God does not have a creative form of transformation, which is within the protection of Benghili. 5 is shown on the top of the 5 in which the parabola is 2, she is 9. It is possible to form the parallel beam 8

9 .

Ten

Before the parabolic inverse 1 , the parabolic inverse 2 and the third parabolic inverse 20 can be parabolically retrievable.

Ten

In the same way, the parabolic inverse of the parabolic inverse, the parabolic inverse 2, and the third parabolic inverse 20 can also be columnar parabolic 汝. From the principle of light energy of the former and the light energy, it can be seen that the aspect of the light energy is different from the parabolic anti-special aspect. The parallel angle also has a higher requirement, that is, the parallel direction of the common phase is parallel to obtain the desired light energy effect. . As shown in Fig. 6, this and the above step have a light source 140. The light source is any of the first to the tenth, which uses parabolic light energy.

Since the light source 140 has been used in fields such as solar energy and so on, it is now mature wood. Here we only make the approximate lead. The general light source 140 includes the form and form of the Western god.

The form of the light source 140 is controlled by control, control software, sensors, and support. And is installed on the support. Control and control software receives the light source of the Zhu sensor

And the public that makes Ben Gurley’s light energy

.

The form of the light source 140 is generally controlled by control software, And support. And it is installed on the support. The control software has the same equation for the work of the light source by the control and control software as well as the common light source that makes Ben Gurley's light energy.

Thirteen

The first to the tenth are a number of different forms of light energy. Light energy can be paralleled to increase the energy density of the parallel beam. The rational use of parallel beams with strong energy density is a special feature of light energy. The light energy specialization package can be a light energy mature specialization device, a light energy specialization device, a light energy specialization device, a light energy specialization device or a mature specialization device.

The more special light energy special equipment can be too much, the temperature difference is too low, and the temperature difference is too small, and the premature break, pre-cooking, and/or, exchange, anti- or bio-reverse energy specialization. Because the energy specialization is more powerful than other wood fields, this mature energy specialization technology is not suitable here.

Fourteen

In addition, the light beam of the present light energy can not be thirteenth. The other energy can also be connected to the image receiving image or . Therefore, there are images received on the top to the tenth. Image reception can be, semi-imaging or human eyes. The human eye can do a good job of restoring the beam of light to the eye of the adult. It also helps the human eye to be darker.

Fifteen

In the present, the light energy on the third, fifth, and upper sides has a high energy density beam for the high energy density beam to the woodland. Light energy 12 can be reversed, hundreds of pipes, pipes and light

form.

The nuclear retroreflective energy 12 includes at least a transmissive, special, and angular inverse. Nuclear counter-attacks are in the direction of the public. The angle and orientation of the nuclear reversal can be directed to the woodland as indicated by the parallel beam.

The hundred pipe light energy 12 is made up of several hundred and several inverses. Counter The parallel beams that are connected to each other in the same direction are parallel to the hundred directions in each of the hundreds of tubes. The most parallel beam is to the woodland. In addition, the best pipe is its empty pipe.

The pipe light energy 12 is connected by several. There is a high reflection on the inner wall of each tube so that the parallel beam can be reflected inside the pipe to the woodland. The best of the same pipe is its empty pipe.

Light energy 12 is formed by a number of turns. Parallel beams of light into the woodland.

Sixteen

The first thirteenth, fourteenth, sixteenth Anniversary is on the fifteenth. In the woodland of the light energy 12, there are light energy specialization, image receiving, processing, and light energy dispersing.

The light energy specialization package can be a light energy mature specialization, a light energy specialization, a light energy specialization, a light energy specialization or a mature specialization. More leisure light energy special equipment can be too, rest temperature difference and too

Additional semi-slow temperature difference, premature break, , and , , exchange, anti- or bio-reverse energy specialization.

Image reception can be , semi-imaging or human eyes.

Processing can be cut, comminuted, melted, melted or perforated. As long as the beam energy density of the light energy is sufficient, the cutting, pulverizing, melting or perforating of the Hugh can be processed.

The light energy dispersion device can disperse the strong light onto the directional or non-directional energy density. The light energy dispersion device may be a reflective surface that is not parallel to the output beam of the forest floor or a reflective surface that is uneven. Light source can be illuminated near the woodland.

Seventeen

The light energy of the first to the tenth is the light energy for the purpose of collecting light. However, the light energy of the upper auspicious 不 is not used for concentrating energy, and the dispersion of 汝 light energy can be utilized. This is the light energy dispersion of this and the light energy.

As shown in Figure 7, on the first 5 She has a hole 9. In the common direction of the 9, there is a light source 80. The light source 80 and the light 8 9 are reversed from the opposite side of the parabola to the opposite side of the parabola. The sobs are so scattered on the opposite side of the west, and the anti-reverse of the parabola is reversed from the direction of the public 4.

Eighteen

The eighteenth is the seventeenth step of the light energy dispersion modification step defining the light source 80, the light rest, the image and the natural light source or the artificial light source. In which the image and the power source are 汝, so that the light energy can be dispersed.

Or the purpose of micromirror work.

Nineteen

The inverse light reversal ability of each of the enhanced light energy reduces the light energy caused by the multi-reflection or the specific light. The anti-materials of each of the first to tenth and seventeenth steps are all inverse or opposite. Because of the all-reverse and anti-uniformity of the light-reflective materials that have been used, there is no more lead. Since the light energy of the light energy of this and the 汝 is very strong, especially at the near-reverse light energy density is the strongest. High-energy-density light energy can easily cause an inverse energy effect. This is the system in each of the tenth and seventeenth. That is to say, the system can be arbitrarily, water-cooled or the other way that the anti-cooling is reversed by the anti-parabolic shape. As shown in Fig. 8, the intermediate light energy has at least the lens 50 in the previous steps from the first to the tenth. In the first, second, fourth, sixth, tenth, tenth, and tenth gods, the light energy lens 50, which has a hole in her object, can be hovered above the parabola. In the third, fifth, and God's parabolic objects, the light-energy lens 50 that is entangled in the object can be hovered above or below. Front common of lens 50 Hehe.

In the upper step of the upper light energy, the lens 50 is intended to prevent the parasitic energy of the light energy from being processed by itself.

The most light energy effect.汝 Light lens 50 light energy can step light energy to eliminate the effect of carbon on the surface.

The lens 50 can be a lens or a lens.

With the light energy that we can have on the glossy side of the lens 50, we have the light energy that is used in the light. Light energy specialization can be too much, the temperature difference is too low, and the temperature difference is too small, and the rest, the rest, the, and the, the exchange, the anti- or the bio-reverse energy specialization.

In addition, in the third, fifth, and God's anti-parabolic light, she has the light of the lens, and she can have the processing mentioned above. Processing can be cut, comminuted, melted, melted or perforated. In the previous scheme, as shown in Fig. 9, the columnar parabola is opposite to the condensing parabola 14 and the concentrating parabola 10 below. If 吋汝, the convection parabola 14 and the concentrating parabola are required. The cost of production and the production of the concentrating light were raised. Therefore, a more reasonable solution is

There are a number of small concentrating parabola counters 14 and concentrating parabola counters 10 below. The way is that some of the concentrating parabola and the concentrating parabola of the 汝 will gather some of the most concentrated rather than concentrated concentrating.

A number of concentrating lights I can concentrate on the new concentrating program. As shown in Fig. 9, the previous one is in the concentrating parabola, and there is light energy 12 to concentrate the light 8 to the woodland. In the woodland 所 spotlight 40.

The woodland concentrating can be a lens, a lens, a parabola or the use of parabolic light energy in the tenth to concentrate a plurality of concentrating light. Concentrated spotlights or a number of spotlights are found.

The fifteenth light energy 12 can be reversed, hundred pipes, pipes, and light.

Hundreds of pipes Light energy 12 consists of several hundred and several inverses. The parallel beam that is connected to her in the same direction is parallel to the hundred directions in each of the hundreds of tubes. The most parallel beam of light is sent to the woodland. In addition, the best pipe is its pipe.

Light energy 12 is formed by a number of turns. Parallel beams of light into the woodland. 10 and 11 are shown in the medium and the light energy of the 不 can not be used, can be from a number of former to tenth and

In or combined to form light energy. Can be used with greater light energy.

In addition, the light source can be stepped up in the light energy of the upper mode to increase the direction of the light energy with the light source.

effect. The lead of the light source is already in the lead. Each of the light energy formed by a similar combination has been concentrated to form a plurality of concentrated light rather than concentrated concentrated light, thus failing to fully utilize the light energy.

As shown in Fig. 11, reference is made to the concentrating method of the light-emitting concentrating scheme. In the spotlight of each light energy, she has light energy 12 to gather light into the woodland. . Collecting light in the woodland. The woodland concentrating light may be a lens, a lens, a parabola, or a concentrating light that utilizes parabolic light energy in the tenth to concentrate a plurality of concentrating forces.

The fifteenth light energy 12 can be reversed, hundred, piped, and light.

Hundreds of pipes Light energy 12 consists of several hundred and several inverses. The parallel beam that is connected to her in the same direction is parallel to the hundred directions in each of the hundreds of tubes. The most parallel beam of light is sent to the woodland. In addition, the best pipe is its empty pipe.

In addition, it is pointed out that the light energy of the present is the light energy as in the third, fifth, and the like. In light energy, it is useful to output concentrated light.

This book has taken a new look at the use of parabolic light energy. It is not clear from this and the use of parabolic light energy. The trick of this is that the parabola of the 汝 phase counteracts the characteristic light energy of the parabola itself. Therefore, any unconstructive transformation made by the skilled person in this field is within the protection of this.

Claims

Claim

1. The use of parabolic light energy is characterized by at least parabolic inverse, at least parabolic anti-parabolic inverse parabola anti-parabolic anti-parabolic anti-parabolic anti-parabola anti-reverse opposite and western anti-parabolic similar parabolic inverse anti-dimension The anti-size western parabola that is larger than the parabolic inverse is in common with the public to find her and each contradicts the public.

2, the requirements of the use of parabolic light energy is based on the parabolic anti-mirror and parabolic anti-parabolic anti-uniform force parabolic retrieving the special parabolic retrieving of the West Parabolic Retrieving special is in the same hundred Hundreds of Western parabolic objects are retrieved from the public.

3. The use of parabolic light energy of claim 2 is characterized by the parabolic opposition of her cockroach's center in the public search.

4. The use of parabolic light energy of claim 1 is characterized by a parabolic inverse and a parabolic inverse parabolic anti-uniform force columnar parabolic parabola on the anti-reverse surface of the set of parabola.

5. The use of parabolic light energy in claim 4 is characterized by the fact that she is looking for her in the parabola.

6. The use of parabolic light energy of requirement 5 is characterized in that there are at least 聚 concentrating parabolic mirrors and concentrating parabolic anti-concentrating parabolic objects with a parabolic inverse

The anti-convergence parabola of the parabola of the parabola is opposite to the anti-convergence of the anti-convergence parabola and the anti-parallel of the anti-parallel of the west is opposite to the anti-dimensional of the anti-difference of the parabola. And each is also true.

7. The use of parabolic light energy of claim 6 is characterized by her opposition to the parabola that is concentrated in the light.

8. The required use of parabolic light energy is characterized by the fact that the parabolic object and the parabola are opposite to each other. The third parabolic inverse and the uniform parabolic anti-third parabolic inverse anti-parabolic parabolic inverse anti-parabolic similar to the third parabolic inverse anti-parabolic parabolic inverse anti-parabolic similar to the third parabolic inverse smaller than the parabolic inverse The size of the third parabolic inverse is larger than the parabolic inverse. The parabolic inverses are common to her third parabolic inverse and the opposite public combination is in the third parabolic inverse.

9. The use of parabolic light energy in claim 8 is characterized by her opposition to the parabola.

10. The use of parabolic light energy of claim 8 is characterized by a parabolic inverse, a parabolic inverse mirror, and a third parabolic inverse parabolic anti-uniform parabolic retrieving feature.

11. The use of parabolic light energy of claim 8 is characterized by a parabolic inverse, a parabolic inverse mirror, and a third parabolic inverse parabolic anti-uniform cylindrical parabola.

12. The use of parabolic light energy of any of the requirements 1 to 11 is characterized by a light source in the form of a light source having a soil form.

Control, control software, sensors, and support

13. The use of parabolic light energy of any of claims 1 to 11 is characterized by a light source in the form of a light source of the form

The control and control software, and the common light source that enables the light energy, are controlled by the control, control software, and support, and the control software installed in the support has the same equation of light source work.

14. Requirements 1 to 11 Any use of parabolic light energy is characterized by the fact that the light energy specialization light energy specialization can be light energy mature specialization, light energy specialization, light energy specialization, light energy special Cosmetic or mature Specialized equipment.

15. The requirement of using parabolic light energy of 14 is that the special energy of the light energy can be too much, the temperature difference is too low, and too

16. Requirements for the use of parabolic light energy from 1 to 11 are: 汝 image receiving, image receiving, semi-imaging

17. Any of the requirements of 3, 5, 7, and 9 using parabolic light energy is characterized by the fact that there is light energy to transmit the light beam to the forest. The light energy can be reversed, hundreds of pipes, pipes or

Form

The anti-light energy includes at least the nucleus, the angle, the anti-nuclear reaction, the angle of the nucleus in the common direction of the object, and the orientation of the beam to the woodland.

The parallel light beam of the pipe light energy is connected by a number of high reflections in each pipe.

Empty pipe

Light energy is formed by several 汝

Put the beam of light into the woodland.

18. The requirement for the use of parabolic light energy in 17 is that in the woodland of light energy, there is light energy specialization, light energy specialization, light energy, specialization, light energy specialization, light energy specialization, light It can be specially equipped or cooked.

19. The use of parabolic light energy in claim 18 is characterized by the specialization of light energy, the temperature difference and the temperature difference.

Additional semi-slow temperature difference, premature break, , and,, exchange, anti-reverse or bio-reverse energy specialization.

20. The requirement for the use of parabolic light energy of 17 is that there is image receiving in the forest of light energy. Image reception can be, semi-imaging.

21. The use of parabolic light energy of claim 17 is characterized by the fact that it is to be processed, cut, pulverized, melted, melted or perforated in a forest of 5 light energy.

22. The use of parabolic light energy of claim 17 is characterized in that the light energy of the light energy device is dispersed in a light energy dispersing device, which may be a reflective surface that is not parallel to the output beam of the woodland or an uneven reflection.

10 23. The use of parabolic light energy of claim 1 is characterized by the fact that she has a hole in the direction of the parabola.

24. The use of parabolic light energy of claim 23 is characterized by the light source, the light, the light, the image and the natural light source or the artificial light source.

15 25. The use of parabolic light energy in any of the requirements 1 to 1 and 23 is characterized in that the anti-materials of the respective mirrors are all reversed or inverted.

26. Any of the requirements of parabolic light energy in 1 to 1, 23 is characterized by the inverse of the system in which the system is reversed.

20 27, any of the requirements 1 to 11 using parabolic light energy

It is characterized by having at least a lens above the parabola

The lens can be a common lens or lens lens.

28. The requirement for the use of parabolic light energy in 27 is that in the 25-lens smooth surface, she has a special light energy specialization, and the temperature difference can be too much, the temperature difference is too high, and the temperature difference is too long, and the premature time difference, and And, exchange, chemical or biological anti-equivalent special equipment.

29. Requires any of the 3, 5, and 7 9ths that utilize parabolic light energy. The special feature is that at least the lens lens can be a lens or a lens lens below the parabolic reflection. Public union.

30. The use of parabolic light energy of claim 29 is characterized by the fact that she has a special light energy in the glossy surface of the lens. Specialized loading can be too much, the temperature difference is too low, the temperature difference is too high, and the premature time difference, And, exchange, chemical or biological anti-equivalent special equipment.

31. Requirement 29 The use of parabolic light energy is characterized by the fact that she is to be cut, comminuted, melted, melted or perforated on the glossy side of the lens.

32. The use of parabolic light energy of claim 7 is characterized in that there is light energy on the opposite side of each concentrating parabola for concentrating light onto the woodland. The concentrating light in the woodland can be a lens, a lens, a parabola or Any of the requirements of parabolic light energy as required in Requirements 1 to 11 to condense light in a plurality of concentrating forces can be reversed, hundreds of pipes, pipes or forms

The light energy of the pipe is made up of a number of parallel beams that are highly reflective on the inner wall of each pipe.

Empty pipe

Light energy is formed by several 汝

Put the beam of light into the woodland.

33. The use of parabolic light energy is characterized by a combination of a number of requirements 1 to 11 and requirements 27 and 29 using parabolic light energy.

34. The use of parabolic light energy in claim 33 is characterized by A light source in the form of a light source in the form of a soil is received by a control, control software, sensor, and support, and a control and control software installed on the support receives the light source of the Zhu sensor and makes the light energy common.

light source.

35. The use of parabolic light energy of claim 33 is characterized by the fact that the light source in the form of a form of light source is controlled by the control, control software, and the equations of the same and the light source work in the control software installed on the support. Control and control software and a common light source that enables light energy.

36. The use of parabolic light energy is characterized by the inclusion or combination of a plurality of parabolic light energy requirements 3, 5, 7, and 9.

In the spotlight of each light energy, she has light energy to collect the light into the woodland. The light collected in the woodland can be a lens, a lens, a parabola or any one of requirements 1 to 11. The use of parabolic light energy to concentrate a plurality of concentrated concentrating light energy can be reversed, hundreds of pipes, pipes or forms

Empty pipe

Light energy is formed by several 汝

Put the beam of light into the woodland.