CN103505068A

CN103505068A - Oven with light polycondensation and transmission function

Info

Publication number: CN103505068A
Application number: CN201210211157.XA
Authority: CN
Inventors: 王玄极
Original assignee: CHENGDU YISHENGXUAN TECHNOLOGY Co Ltd
Current assignee: CHENGDU YISHENGXUAN TECHNOLOGY Co Ltd
Priority date: 2012-06-26
Filing date: 2012-06-26
Publication date: 2014-01-15

Abstract

An oven with the light polycondensation and transmission function comprises a light collecting device, a light transmission device, a light transmission channel terminal light-to-heat conversion device, a storage device for converting light energy into heat energy, a metal wire, a switch and an oven body. The oven is characterized in that the inner layer of the oven body is made of non-toxic heat conduction material, the middle layer of the oven body is made of a thin metal sheet, and the outer layer of the oven body is made of heat insulation material; the middle layer of the oven body is connected with the storage device for converting the light energy into the heat energy through the metal wire; the light collecting device is connected with the light transmission device, a terminal of the light transmission device is connected with the light transmission channel terminal light-to-heat conversion device, and the light transmission channel terminal light-to-heat conversion device and the storage device for converting the light energy into the heat energy are integrated; the light collecting device collects the light, the light transmission device transmits the light, the light energy is converted into the heat energy in the terminal of the light transmission device, the terminal of the light transmission device converts the light energy into the heat energy and stores the heat energy in the storage device for converting the light energy into the heat energy, and the storage device for converting the light energy into the heat energy supplies heat to the oven.

Description

The baking box of a kind of polycondensation, transmission ray

Technical field

What patent of the present invention related to is the baking box of a kind of polycondensation, transmission ray, especially a kind ofly by polycondensation, transmission ray, transfers luminous energy to a kind of polycondensation of heat energy baking food, the baking box of transmission ray.

Background technology

A kind of polycondensation, the baking box of transmission ray is to reflect, reflection, total reflection polycondensation mirror (application number: 201010028057.4), refraction, reflection, total reflection polycondensation mirror is the integrated concentrating method (application number: 201010134349.6) of main body, refraction, reflection polycondensation mirror (application number: 201010028058.9), refraction, reflection polycondensation mirror is the integrated concentrating method (application number: 201010134358.5) of main body, the method of energy grade light ray curve transmission (application number: 201010266432.9), the method of energy grade light ray linear transmission (application number: 201010266412.1), light transmission channel end light turns hot method (application number: 201010286343.0), luminous energy transfers the storage method (application number: 201010286341.1) be basis of heat energy to.

Summary of the invention

The object of the invention is to use solar energy baking food, provide a kind of and luminous energy is transferred to the baking box of heat energy baking food by polycondensation, transmission ray.

A kind of polycondensation of the present invention, the baking box of transmission ray, comprise: light collection device, light transmission device, light transmission channel end light turns hot charging and puts, luminous energy transfers the storage device of heat energy to, plain conductor, switch, baking box, it is characterized in that: the internal layer of making baking box by nontoxic Heat Conduction Material, the inner surface of baking box internal layer adopt semi-enclosed microcellular structure increase baking box inner layer sheet area, strengthen baking box inner layer material to the heat radiation of baking box inner space, the internal layer of baking box be hollow for accommodating food, the intermediate layer of baking box is to be made by sheet metal, heat-insulating material is made the skin of baking box, baking box internal layer, intermediate layer, outer door that can switch in same position setting is used for putting into and taking out food, the inner layer material of baking box is divided into two types, and the first type is metal material, and feature is that firing rate is fast, and the second type is nonmetallic materials, and feature is that firing rate is slow, the internal layer close contact of the intermediate layer of baking box and baking box, the internal layer of the mode heating oven that transmit with heat in the intermediate layer of baking box, the storage device that the intermediate layer of baking box and luminous energy transfer heat energy to is connected in the mode of plain conductor, on plain conductor between the storage device that transfers heat energy at intermediate layer and the luminous energy of baking box, switch is set, the switch that the intermediate layer of baking box and luminous energy transfer on the plain conductor between the storage device of heat energy is with being connected and disconnection between gauge tap place plain conductor, reach control luminous energy and transfer the storage device of heat energy to the Push And Release of the intermediate layer heat transmission of baking box, the switch that the intermediate layer of baking box and luminous energy transfer on the plain conductor between the storage device of heat energy is the minimal-contact face being in contact with one another with between gauge tap place plain conductor, reach control luminous energy and transfer the storage device of heat energy to the size of the intermediate layer amount of heat transfer of baking box, the outer field heat-insulating material of baking box reduces heat loss, the protection intermediate layer of baking box and the internal layer of baking box, light collection device is connected with light transmission device, the terminal of light transmission device and light transmission channel end light turn hot charging and put and be connected, light transmission channel end light turns hot charging and puts that to transfer the storage device of heat energy to integrated with luminous energy, light transmission channel end light turns hot charging and puts and adopt light transmission channel end light to turn hot method, the storage device that luminous energy transfers heat energy to adopts luminous energy to transfer the storage method of heat energy to, light collection device is collected light, light transmission device transmission ray, terminal at light transmission device transfers luminous energy to heat energy, light transmission device terminal transfers luminous energy to thermal energy storage and at luminous energy, transfers the storage device of heat energy to, luminous energy transfers the storage device of heat energy to baking box heat supply.

The constituted mode of light collection device: the integrated hierarchical structure of upper surface of the lower surface of a upper refraction, reflection, total reflection polycondensation mirror and next refraction, reflection, total reflection polycondensation mirror, form polycondensation functional unit, in the mode of hierarchical structure, light is carried out to hierarchical ground polycondensation; The lower surface of first refraction of polycondensation functional unit, reflection, total reflection polycondensation mirror is plane, the upper surface that connects second refraction, reflection, total reflection polycondensation mirror, repeat successively to connect the integrated polycondensation functional unit that formation refraction, reflection, total reflection polycondensation mirror are main body; The upper surface of first refraction of the integrated polycondensation functional unit that light is main body from refraction, reflection, total reflection polycondensation mirror, reflection, total reflection polycondensation mirror enters, out, the integrated polycondensation functional unit that refraction, reflection, total reflection polycondensation mirror are main body completes light polycondensation and the transmission direction of light is carried out to tuning the lower surface of last refraction of the integrated polycondensation functional unit that light is main body from refraction, reflection, total reflection polycondensation mirror, reflection, total reflection polycondensation mirror; The integrated polycondensation functional unit that refraction, reflection, total reflection polycondensation mirror are main body is through permutation and combination, the plane of light incidence of the integrated polycondensation functional unit that refraction, reflection, total reflection polycondensation mirror are main body is integrated into plane, form planar concentrating face, the plane of light incidence of the integrated polycondensation functional unit that refraction, reflection, total reflection polycondensation mirror are main body is integrated into curved surface, forms curved surface caustic surface.The constituted mode of light transmission device: the identical element of the identical element of energy grade light ray curve transmission and energy grade light ray linear transmission forms light transmission passage.

Light transmission channel end light turns hot method: by the integrated hemi-closure space of hemi-closure space, semiclosed integrated interior volume is communicated with, and semiclosed integrated space is at the high specific heat capacity material surface semiclosed light that constantly mode of reflection transfers luminous energy to heat energy, to turn hot integrated space with light, it is the space forming in high specific heat capacity material that semiclosed light turns hot integrated space, the structure of high specific heat capacity material is divided into two kinds, the first structure is solid, the second structure is solid and liquid combination, solid is the airtight housing of hollow, liquid is present in the airtight enclosure interior of hollow, semiclosed light turns hot integrated space and is divided into principal space He Ke space, the principal space has light intake and space connector, light intake is for placing light introduction passage, space connector is for being communicated with principal space He Ke space, the contour structures variation of the principal space is divided into linear change and nonlinear change, visitor space is divided into one-level space, secondary space, N(natural number N:1, 2, 3, ) level space, and N >=1, one-level visitor space is communicated with the principal space, Yu Sanjike space, secondary visitor space is communicated with, the rest may be inferred, until (N-1) Ji Ke space is communicated with N Ji Ke space, the space connector in visitor space is that one-level visitor space is communicated with the principal space, (N-1) connector that Ji Ke space is communicated with N Ji Ke space, the contour structures variation in visitor space is divided into linear change and nonlinear change.Light enters the principal space from light introduction passage, there is following situation in light, the first light constantly reflects in the principal space, until high specific heat material absorbs luminous energy completely in heat energy mode, the second light enters objective space in the principal space through reflection, in the principal space, high specific heat material absorbs part luminous energy in heat energy mode, and the third light directly enters one-level visitor space in the principal space without reflection, light enters one-level visitor space from the principal space, the first light constantly reflects in one-level visitor space, until high specific heat material absorbs luminous energy completely in heat energy mode, the second light reflects into into the principal space in one-level visitor space process, in one-level visitor space, high specific heat material absorbs part luminous energy in heat energy mode, the third light enters secondary visitor space in one-level visitor space through reflection, in one-level visitor space, high specific heat material absorbs part luminous energy in heat energy mode, when not there is not secondary visitor space, there is not this light yet, the 4th kind of light directly enters secondary visitor space in one-level visitor space without reflection, when not there is not secondary visitor space, there is not this light yet.Ke space, when N >=2, light enters N Ji Ke space from (N-1) Ji Ke space, there is following situation in light, the first light constantly reflects in N Ji Ke space, until high specific heat material absorbs luminous energy completely in heat energy mode, the second light enters (N+1) Ji Ke space at N level visitor space light through reflection, in N Ji Ke space, high specific heat material absorbs part luminous energy in heat energy mode, the third light enters (N-1) Ji Ke space at N level visitor space light through reflection, in N Ji Ke space, high specific heat material absorbs part luminous energy in heat energy mode, the 4th kind of light directly enters (N+1) Ji Ke space in N Ji Ke space without reflection.

Luminous energy transfers the storage method of heat energy to: by high specific heat capacity material heat energy storage, the structure of high specific heat capacity material is divided into two kinds, the first structure is solid, the second structure is solid and liquid combination, solid is the airtight housing of hollow, and liquid is present in the airtight enclosure interior of hollow, and the heat energy dissipation in high specific heat capacity material is divided into two kinds of modes, the first is that heat radiation mode is scattered and disappeared, and the second is that heat exchange pattern scatters and disappears, for the lost heat energy of heat radiation mode, adopt the totally-enclosed heat radiation cyclic space, the semiclosed heat radiation cyclic space, the speed that slowing down heat energy is lost, the totally-enclosed heat radiation cyclic space is the totally-enclosed space forming in high specific heat capacity material, the contour structures variation of the totally-enclosed heat radiation cyclic space is divided into linear change and nonlinear change, the semiclosed heat radiation cyclic space is the hemi-closure space forming at high specific heat capacity material surface, and the contour structures variation of the semiclosed heat radiation cyclic space is divided into linear change and nonlinear change, for the lost heat energy of heat exchange pattern, adopt hierarchical structure mode, separated between layers, separate mode is between layers divided into three kinds, and the first is by vacuum separation, and the second is that inert gas is separated, the third is air separation, and air separation exists oxidation reaction, affects the character of material, hierarchical structure is divided into three types, the first type is center, center is the major storage region of heat energy, the second type is zone line, zone line plays and stores the lost heat energy in central area, zone line is sandwich construction, the hierarchical structure of zone line is more, the effect that delays heat energy dissipation is better, and the hierarchical structure of zone line is fewer, and the effect that delays heat energy dissipation is poorer, the 3rd class is outer, outer field effect has two, and first is to play adiabatic effect, and the 2nd, play the effect of protection internal structure, adopt between layers isolating construction, the method that overcomes gravity is the mode that adopts pillar, pillar adopts heat-insulating material to form, pillar is divided into the same post of different layer, the different post of different layer, different layer is that layer structure shares pillar with post, the different post of different layer is that layer structure do not share pillar, the effect of pillar is divided into four classes, the first kind is that supporting role overcomes gravity, Equations of The Second Kind is that the inside of pillar is to provide passage, when luminous energy transfers electric energy to, it is the admission passage of light, when electric energy transfers heat energy to, it is electric admission passage, when thermal energy conduction, it is the afferent pathway of heat energy, the 3rd class is that the inside of pillar is to get energy passage, externally supply heat energy, the 4th class is that the passage of detecting devices is installed.

The baking box of a kind of polycondensation of the present invention, transmission ray is provided in detail by the following drawings and embodiment.

Accompanying drawing explanation

Fig. 1 is the functional schematic of the baking box of a kind of polycondensation, transmission ray.

The specific embodiment

Embodiment:

Fig. 1 is the functional schematic of the baking box of a kind of polycondensation, transmission ray, (1) the integrated polycondensation functional unit that refraction, reflection, the total reflection polycondensation mirror of expression process permutation and combination is main body, (2) represent light transmission passage, (3) represent that light transmission channel end light turns the storage device that hot device and luminous energy transfer heat energy to, (4) represent plain conductor, (5) represent the switch on plain conductor, and (6) represent that baking box is outer, (7) represent baking box intermediate layer, (8) represent baking box internal layer.Baking box internal layer (8) is heat conduction, the inner surface of baking box internal layer (8) adopts semi-enclosed microcellular structure, baking box intermediate layer (7) is sheet metal, outer (6) heat insulation layer of baking box, baking box outer (6) plays the effect that reduces baking box heat energy dissipation, baking box outer (6) protection baking box intermediate layer (7) and baking box internal layer (8), combine closely with baking box internal layer (8) in baking box intermediate layer (7), the inner space accommodating food of baking box internal layer (8), baking box outer (6), baking box intermediate layer (7), baking box internal layer (8) can switch in same position setting door be used for putting into and taking out food, close baking box skin (6), baking box intermediate layer (7), baking box internal layer (8) keeps the baking box outer (6) of baking box at the door of same position, baking box intermediate layer (7), the complete structure of baking box internal layer (8), refraction through permutation and combination, reflection, total reflection polycondensation mirror is the refraction of the integrated polycondensation functional unit (1) of main body, reflection, total reflection polycondensation mirror is that the beam projecting face of the integrated polycondensation functional unit of main body docks with the plane of light incidence of light transmission passage (2), the terminal of light transmission passage (2) turns through light transmission channel end light the storage device (3) that hot device and luminous energy transfers heat energy to and transfers luminous energy to heat energy and heat energy storage, light transmission channel end light turns the plain conductor for storage device (4) that luminous energy that hot device and luminous energy transfers the storage device (3) of heat energy to transfers heat energy to and is connected with baking box intermediate layer (7), plain conductor (4) arranges switch (5) on plain conductor and controls the luminous energy that light transmission channel end light turns the storage device (3) that hot device and luminous energy transfers heat energy to and transfer the storage device of heat energy to the Push And Release of baking box intermediate layer (7) heat supply, the amount of heat supply, baking box intermediate layer (7) heating oven internal layer (8), food in baking box internal layer (8) heating oven internal layer (8).

Claims

1. a polycondensation, the baking box of transmission ray, comprise: light collection device, light transmission device, light transmission channel end light turns hot charging and puts, luminous energy transfers the storage device of heat energy to, plain conductor, switch, baking box, it is characterized in that: the internal layer of making baking box by nontoxic Heat Conduction Material, the inner surface of baking box internal layer adopt semi-enclosed microcellular structure increase baking box inner layer sheet area, strengthen baking box inner layer material to the heat radiation of baking box inner space, the internal layer of baking box be hollow for accommodating food, the intermediate layer of baking box is to be made by sheet metal, heat-insulating material is made the skin of baking box, baking box internal layer, intermediate layer, outer door that can switch in same position setting is used for putting into and taking out food, the internal layer close contact of the intermediate layer of baking box and baking box, the internal layer of the mode heating oven that transmit with heat in the intermediate layer of baking box, the storage device that the intermediate layer of baking box and luminous energy transfer heat energy to is connected in the mode of plain conductor, on the plain conductor between the storage device that transfers heat energy to, switch is set at intermediate layer and the luminous energy of baking box, the outer field heat-insulating material of baking box reduces heat loss, the protection intermediate layer of baking box and the internal layer of baking box, light collection device is connected with light transmission device, the terminal of light transmission device and light transmission channel end light turn hot charging and put and be connected, light transmission channel end light turns hot charging and puts that to transfer the storage device of heat energy to integrated with luminous energy, light transmission channel end light turns hot charging and puts and adopt light transmission channel end light to turn hot method, the storage device that luminous energy transfers heat energy to adopts luminous energy to transfer the storage method of heat energy to, light collection device is collected light, light transmission device transmission ray, terminal at light transmission device transfers luminous energy to heat energy, light transmission device terminal transfers luminous energy to thermal energy storage and at luminous energy, transfers the storage device of heat energy to, luminous energy transfers the storage device of heat energy to baking box heat supply.

2. the baking box of a kind of polycondensation, transmission ray according to claim 1, it is characterized in that: the inner layer material of baking box is divided into two types, and the first type is metal material, feature is that firing rate is fast, the second type is nonmetallic materials, and feature is that firing rate is slow.

3. a kind of polycondensation according to claim 1, the baking box of transmission ray, it is characterized in that: the switch that the intermediate layer of baking box and luminous energy transfer on the plain conductor between the storage device of heat energy is with being connected and disconnection between gauge tap place plain conductor, reach control luminous energy and transfer the storage device of heat energy to the Push And Release of the intermediate layer heat transmission of baking box, the switch that the intermediate layer of baking box and luminous energy transfer on the plain conductor between the storage device of heat energy is the minimal-contact face being in contact with one another with between gauge tap place plain conductor, reach control luminous energy and transfer the storage device of heat energy to the size of the intermediate layer amount of heat transfer of baking box.

4. a kind of polycondensation according to claim 1, the baking box of transmission ray, it is characterized in that: baking box internal layer (8) is heat conduction, the inner surface of baking box internal layer (8) adopts semi-enclosed microcellular structure, baking box intermediate layer (7) is sheet metal, outer (6) heat insulation layer of baking box, baking box outer (6) plays the effect that reduces baking box heat energy dissipation, baking box outer (6) protection baking box intermediate layer (7) and baking box internal layer (8), combine closely with baking box internal layer (8) in baking box intermediate layer (7), the inner space accommodating food of baking box internal layer (8), baking box outer (6), baking box intermediate layer (7), baking box internal layer (8) can switch in same position setting door be used for putting into and taking out food, close baking box skin (6), baking box intermediate layer (7), baking box internal layer (8) keeps the baking box outer (6) of baking box at the door of same position, baking box intermediate layer (7), the complete structure of baking box internal layer (8).

5. a kind of polycondensation according to claim 1, the baking box of transmission ray, it is characterized in that: through the refraction of permutation and combination, reflection, total reflection polycondensation mirror is the refraction of the integrated polycondensation functional unit (1) of main body, reflection, total reflection polycondensation mirror is that the beam projecting face of the integrated polycondensation functional unit of main body docks with the plane of light incidence of light transmission passage (2), the terminal of light transmission passage (2) turns through light transmission channel end light the storage device (3) that hot device and luminous energy transfers heat energy to and transfers luminous energy to heat energy and heat energy storage, light transmission channel end light turns the plain conductor for storage device (4) that luminous energy that hot device and luminous energy transfers the storage device (3) of heat energy to transfers heat energy to and is connected with baking box intermediate layer (7), plain conductor (4) arranges switch (5) on plain conductor and controls the luminous energy that light transmission channel end light turns the storage device (3) that hot device and luminous energy transfers heat energy to and transfer the storage device of heat energy to the Push And Release of baking box intermediate layer (7) heat supply, the amount of heat supply, baking box intermediate layer (7) heating oven internal layer (8), food in baking box internal layer (8) heating oven internal layer (8).