CN201503149U - Solar energy multidirectional tracking heat pipe utilization system - Google Patents

Abstract

The utility model discloses a solar energy multidirectional tracking heat pipe utilization system which adopts a group of solar energy optical lenses consisting of a plurality of reflecting mirrors, a Fresnel lens and a plane mirror; a rotating shaft of each solar energy optical lens is arranged on a solar energy lens support frame with different shapes; each solar energy optical lens can rotate around the shaft; the solar energy lens support frame also can move simultaneously so as to achieve the multidirectional tracking of the solar energy lenses rotating around the rotating shaft and moving along with the solar energy lens support frame; because the multidirectional tracking reduces the difficulty of single-shaft tracking, the scope of a focus in a cylinder region is simultaneously reduced, the focal time is improved, and the use temperature is improved; because the solar energy heat pipe utilization system is arranged within the cylinder region and can be arranged on the ground or a building and keep unchanged during the movement of the solar energy lenses, the focus of the solar energy heat pipe utilization system adopts changed focus tracking; and various utilization of focus tracking solar energy can be achieved through arranging the solar energy heat pipe utilization system in a cylinder. A heat pipe is utilized as a solar energy switching device; the heat pipe technology is perfectly combined with an optical lens system to achieve the thermal power generation, the heating and the refrigeration of the solar energy and the application of hot water, boiling water and the like. The utility model provides an array structure, is suitable for systems with different scales and is also suitable for large-scale utilization of the solar energy simultaneously, in particular to the photovoltaic power generation and the heat utilization of the solar energy.

Description

A kind of solar multi-directional tracking heat pipe utilizes system

Technical field

The utility model relates to the solar energy utilization, and particularly solar focusing tracking focus is the linearity tracking of straight line and forms array tracking and realize integrated applications such as the heat generating of solar energy, heating, refrigeration, hot water, boiling water.

Background technology

The heat of solar energy is used the main glass-vacuum tube hot pipe technique that adopts, and realizes that temperature is that 60 hot water of spending are used, and the elevated temperature heat utilization of solar energy mainly is to adopt slot type, tower and three kinds of solar energy acquisition technology of butterfly, realizes that the solar energy thermal-power-generating of high temperature is used.It is the small-scale application of family type that the hot water of existing low temperature 60 degree is used, owing to do not have tracking system thereby temperature not to improve, can't realize the utilization of high temperature, and slot type, tower and three kinds of solar energy high temperature acquisition techniques of butterfly, can't realize small-scale family type application, thereby limit The Application of Technology.

Existing industrial foundation in conjunction with the cryogenic vacuum Manifold technology, and the acquisition technique of high temperature solar just can be realized the solar energy acquisition and the utilization of high temperature, the technology that particularly adopts technology in vacuum tube and groove type solar acquisition technique to combine can realize the solar energy thermal-power-generating utilization of family type.

The main tracking mode of international slot type system adopts changes the focal line position that vacuum tube is arranged on the slot type system with one, charges into conduction oil in changing vacuum tube, realizes the collection of heat energy thereby flowed by the motor-driven conduction oil.Conduction oil motion together in pipeline in the process of tracking solar realizes being connected between the pipeline that moves and the pipe that does not move in the mode of heat conducting oil pipe and outflow end employing bellows; Because bellows needs high temperature resistant, the high requirement of reliability, thereby becomes Primary Component, this kind connection simultaneously can't guarantee the heat insulating ability requirement, thereby the heat waste height of system, cost height.Thereby need reduce cost, usefulness is provided, increases technology of dependability and product.

Hot pipe technique can be combined with the high temperature acquisition technique, just can be in conjunction with the existing industrial foundation of hot pipe technique, utilize the acquisition technique of high temperature solar just can realize the solar energy acquisition and the utilization of high temperature, the technology that particularly adopts heat pipe and groove type solar acquisition technique to combine can realize the utilization such as solar energy thermal-power-generating, heating, refrigeration, hot water, boiling water of family type.

Summary of the invention

The purpose of this utility model just provides a kind of solar multi-directional tracking heat pipe and utilizes system, the one group of optics of solar energy mirror that adopts a plurality of speculums, Fresnel mirror, level crossing to form, the rotating shaft of each mirror is arranged on one can have on the difform solar energy mirror support, each optics of solar energy mirror can rotate around axle, the solar energy mirror support can also move simultaneously, has realized that like this sunglasses changes and follow the multi-directional tracking of solar energy mirror support motion around playing axle; Because multi-directional tracking has reduced the difficulty of uniaxiality tracking, can reduce the scope of the cylindrical zone of focusing simultaneously, improve the multiple that focuses on, improve the temperature of using; Because solar heat pipe utilizes equipment to be set in the cylinder interval and on ground or building, when solar energy mirror is moved, keep motionless, thereby its focal length be the zoom that changes with following the tracks of, solar heat pipe utilizes equipment to be arranged on the utilization that has just realized the solar energy of focus tracking in the cylinder.Utilize heat pipe as solar energy conversion device, hot pipe technique is perfectly combined with the optical frames system, application such as the heat generating of realization solar energy, heating, refrigeration, hot water, boiling water.

The utility model provides its array structure, is suitable for the system of different scales, also is suitable for the heat energy utilization of large-scale utilization solar energy, particularly solar energy simultaneously.

Concrete summary of the invention is as follows:

A kind of solar multi-directional tracking heat pipe utilizes system, comprise that at least one solar heat pipe utilizes equipment, at least one group of optical frames wherein every group of optical frames is made up of a plurality of solar linear focusing optical mirrors, the solar energy mirror support that is used for support of optical mirror group, make solar linear focusing optical mirror can follow the tracks of the solar energy tracking device of solar motion, Power Drive Unit, and electronic control system, every group of optical frames focuses in the cylindrical region jointly, have at least a solar heat pipe to utilize equipment to be arranged in this cylindrical region and keep motionless, it is characterized in that: be set with at least one rotating shaft on each solar linear focusing optical mirror, the two ends of described rotating shaft are arranged on the solar energy mirror support, driving linear focusing optical mirror by Power Drive Unit rotates and follows the solar energy mirror support and move along rotating shaft, make the focal line of every group of line focus optical frames remain at solar heat pipe and utilize in the zone at equipment place, by the heat generating of Heat Pipes heat energy, heating, refrigeration, hot water, boiling water is used.

Can select dissimilar mounting systems as required, can be suitable for the use of the solar energy mirror of any form like this, can select the solar energy mirror that is fit to as required, while can provide more flexible for the motion of every group of optical frames and support easily and movement locus, can reduce cost, improve tracking efficient, the solar energy mirror support can be selected the device of following at least a shape usually:

A, parabolic type;

B, arc;

C, circular device;

D, polygon support;

E, compound parabolic line style;

F, straight line, oblique line, shaped form.

Because line focusing system is motionless, any heat pipe can be utilized system to be arranged in this zone, even heavy weight equipment can be arranged on the focal line zone, in the focal range of focal line and solar energy mirror, heat pipe can be set utilize system, according to requirements such as temperature and spaces, can select any scope that is not more than focal length that heat pipe is set and utilize system.

The evaporation ends of described heat pipe is arranged in the focal line zone of solar energy line focus, the condensation end of heat pipe is arranged on outside the focal line zone, condensation end is connected with heat exchanger, realize the collection of heat energy by heat exchanger, and then heat energy can be applied to hot generating, heating, refrigeration, hot water, boiling water application.Thereby realized hot pipe technique is perfectly combined with the optical frames system, realized utilizing hot pipe technique to realize heat energy collection efficiently and transmission, reduced the collection of system and transmitted heat waste.

Tracking means comprises tracking support, the power transmission mechanism that is used to support whole system.In order to realize that Power Drive Unit (6) drives power transmission mechanism, realize the tracking of optical frames to solar energy, described power transmission (10) one ends are connected with drive unit, at least an other end is arranged on rotating shaft, solar energy mirror support or the solar linear focusing optical mirror, drive power transmission mechanism by Power Drive Unit (6), realize tracking solar energy.The tracking support is that solar utilizing equipment, optics of solar energy mirror, tracking system, solar energy line focus optical frames support all components provide support.Follow the tracks of support and can be arranged on any position of said system,, the position and the structure of support can be set arbitrarily as long as meet requirement of the present utility model.

Any power-driven system (6) that passes through drives power transmission mechanism, may be used to solar energy tracking of the present utility model, and one of described power transmission mechanism selection is following: gear mechanism (10), link chain mechanism, turbine and worm mechanism, linkage.

Wherein when the other end of power transmission (10) is arranged in the rotating shaft of solar linear focusing optical mirror, rotating shaft is fixedlyed connected with optical frames, drive gear or the chain or the linkage of transmitting device by Power Drive Unit, rotating shaft is rotated, rotate around rotating shaft thereby drive solar linear focusing optical mirror; When power transmission is arranged on the solar energy mirror support, can drives the solar energy mirror support and move; When power transmission is set directly on the solar linear focusing optical mirror, can directly drives solar linear focusing optical mirror and move.

The solar energy mirror support is arranged on to be followed the tracks of on the support, and can on the tracking support, move by Power Drive Unit and power transmission solar energy mirror support, formed multidirectional motion jointly with the motion of prolonging rotating shaft of solar energy mirror, mainly reach the purpose and the requirement of tracking, the motion mode of solar energy mirror support can adopt any possible form, and is one of following but the track of preferred motion can be selected:

A, parabola or arc or circular device and ground level parallel motion;

B, parabola or arc or circular device prolong two parabolas or arc or circle and carry out parabola or arc or circus movement.

C, moving along straight line, oblique line, curve.

Linear tracking system is by North and South direction and two kinds of tracking modes of east-west direction, the parallel placement of main employing with ground level, according to different longitude and latitude at the earth's surface, the direction setting that preferential selection is vertical with solar light irradiation or angle is minimum, solar linear focusing optical mirror focal line, the axis of symmetry of the length direction of optics of solar energy mirror is parallel with earth's axis, make that like this collecting efficiency is the highest, the focal line of solar linear focusing optical mirror selects one of following manner to place: parallel with earth's axis, parallel angle minimum with earth's axis, parallel to the ground, parallel with horizontal plane, be preferably parallel placement with earth's axis.

In the tracing process of carrying out to solar energy, the error that may occur following the tracks of, perhaps Bu Fen sunshine is owing to reasons such as scatterings, be in heat pipe through sunshine behind the primary optics of solar energy mirror line focus and utilize zone outside the system, in order to reduce the loss of this part, adopted secondary focusing, promptly utilize the solar energy mirror that a secondary focusing is set in the system at heat pipe, the solar energy of a focused lost is utilized in the system through after the secondary focusing solar energy being focused on heat pipe, usually can select following at least a kind of secondary focusing optical frames (8), heat pipe utilize system around, also be provided with the secondary reflection mirror, optical frames that solar linear focuses on and secondary reflection mirror are selected from following at least a:

A, linear composite parabolic speculum;

B, linear Fresnel lens or speculum;

C, linear concave, convex lens;

D, Linear Parabolic face speculum;

E, glass, metal, nonmetallic plane mirror.

The secondary focusing optical frames can be arranged on heat pipe utilizes in the system, rotate with the solar energy mirror that once focuses on, this sample once can adopt same tracking equipment and driving arrangement to realize secondary focusing to solar energy having improved the efficient that solar energy utilizes with the solar energy mirror of secondary focusing.

Drive power transmission mechanism (10) by power-driven system (6), realize the tracking to solar energy, the power-driven system device that is adopted is selected from one of following:

A, Mechanical Driven device are preferably mechanical clockwork spring, spring, tracking;

B, phase transformation drive unit adopt the material be enclosed in a space, along with the increase of temperature makes the increase of its pressure, promote motion, realize following the tracks of;

Two kinds of tracking of above-mentioned A, B do not need consume electric power, and becoming does not have the electricity driving;

C, utilize electric energy to drive motor or hydraulic means to drive power transmission mechanism (10) and realize following the tracks of;

The signal of D, the sensor by electricity or light by relatively electric current, magnitude of voltage and/or the brightness values of the conversion of solar energy device of different parts, is adjusted the tracking that the motion of motor (6) realizes by computer or single-chip microcomputer;

Two kinds of tracking of above-mentioned C, D need consume electric power, become power consumption and drive.

For the ease of using, this system can be arranged on different zones, both can be arranged on ground, also can be arranged on top of building, usually adopt a plurality of heat pipes to utilize system (1) to be set to an array, each array can be arranged on the common platform or be arranged on the zone of ground and/or building.Wherein have at least a plurality of solar heat pipes to utilize equipment to be set to an array, each array utilizes equipment to form by many groups solar energy mirror, tracking system, mounting system, solar heat pipe, solar heat pipe to same row and/or same row utilizes equipment, a shared power drive device, every array can be arranged on the common platform or be arranged on the zone of ground and/or building.

Form a system by a plurality of arrays, row, row solar heat pipe utilize equipment more than being provided with on each array, every row on each array or row solar heat pipe utilize the fluid that equipment flows by hot-pipe system and/or forced circulation to carry out heat exchange or directly utilization, and the fluid by hot-pipe system and/or forced circulation between a plurality of arrays carries out heat exchange or directly utilization.The scheme that the utility model is selected is to realize the preferred version of the utility model purpose, and any scheme that meets principle of the present utility model and technology, product all are protection domains of the present utility model.

Adopt the technical solution of the utility model can reach following beneficial effect:

1, can reduce the range of movement of device, the energy consumption of the power drive part of reduce following the tracks of realizes that efficient, highly reliable, tracking cheaply and heat pipe utilize the utilization of system.

2, realize hot pipe technique is perfectly combined with the optical frames system, realize utilizing hot pipe technique to realize heat energy collection efficiently and transmission, reduced the collection of system and transmitted heat waste.

3, can realize efficient utilization, expand technology and scope that groove type solar utilizes greatly, strengthen reliability of applying, improve the loading capacity of system heat energy.

4, can be suitable for the comprehensive utilization of small area and family.

5, can utilize system's utilization so that realize the heat pipe of array, realize the large-scale utilization efficiently of different solar products.

Description of drawings

Figure one is that many parabolic reflectors heat pipe utilizes the system side view

Figure two is that many glass reflectors heat pipe utilizes system diagram

Figure three is that many fresnel reflecting mirrors array tracking heat pipe utilizes system diagram

Figure four is that one group of fresnel reflecting mirror array tracking heat pipe utilizes system diagram

The implication of concrete label is as follows among the figure:

1: heat pipe utilizes system, and 2: solar energy line focus optical frames, 3: solar energy mirror support, 4: follow the tracks of support, 5: rotating shaft, 6: Power Drive Unit (motor), 7: gear, 8: secondary solar energy reflection mirror, 9: dynamic transfer system, 10: the adopting heat pipes for heat transfer system; 11, be arranged on the heat exchanger of heat pipe condensation end, 12, solar energy mirror carriage drive device.

The specific embodiment

Embodiment one: many parabola reflection heat pipes utilize system

This figure is a side view, solar energy mirror (2) is four parabolic mirrors (2), heat pipe utilizes system (1) for being arranged on the heat pipe of glass tube inside, the outer setting of heat pipe has the solar energy coating, paraboloidal mirror is arranged on the Parabolic device, each parabola mirror is provided with an axle, solar energy mirror can be rotated along rotating shaft (5), simultaneously, on the ground, also be provided with roller, can roll on the ground, realization is to the driving of solar energy mirror support (4), realize like this by rotating shaft (5) driving and to driving at the solar energy mirror support of parabola device, realization is to the tracking of the integral body of solar energy; Four solar energy mirror focus on solar energy heat pipe evaporation ends (10) simultaneously by the tracking of different motion realizations to solar energy, realize the various utilizations of heat energy by the heat exchanger (11) that is arranged on condensation end.Four parabola mirrors adopt same drive system, and transmission mechanism is a gear train, the gear number of teeth difference of different solar energy mirror, thus can adopt different rotating speeds to have the different solar energy mirror of driving to move, realize solar energy tracking and utilization; Also be provided with the secondary reflection mirror in the glass tube outside, on the heat pipe of the solar energy reflection that the secondary reflection mirror will once focus in the glass tube.

Embodiment two: many glass reflectors heat pipe utilizes system

As shown in Figure 2, this example adopts two group glass reflectors to realize solar energy tracking, and wherein each group solar energy mirror is two glass reflectors, two groups of glass reflector tracking system series connection; The evaporation ends of heat pipe is arranged on vacuum tube, and condensation end is arranged on the perimeter of line focus, is provided with a heat exchanger at its condensation end, realizes the various application such as generating, heating, refrigeration to heat energy.Four glass reflectors are fixed on three circular ring type devices, Power Drive Unit is a motor (6), power transmission is the gear mechanism that is arranged on the annulus, motor drives the gear that is arranged on the annulus by gear mechanism, make glass mirror on annulus, forward to, simultaneously, also be provided with drive unit (12) to solar energy mirror support (4), realize like this by rotating shaft (5) driving and to driving at the solar energy mirror support of parabola device, realize to the tracking of the integral body of solar energy and to the tracking and the heat pipe heat utilization of solar energy.

Embodiment three, many fresnel reflecting mirrors array tracking heat pipe utilize system

Shown in figure three, present case is the multiple mirror arrays tracking system, adopt four fresnel reflecting mirrors, Power Drive Unit is a motor, motor drives two gears that are arranged in the focal line rotating shaft by the power transmission device of chain, also be provided with the system that solar energy mirror support (3) provides driving force that drives simultaneously, realize making the solar energy mirror system to move, can realize multidirectional tracking like this along the semicircular ring support; Realization is to the solar energy tracking of 2*2 array, and the evaporation ends of hot-pipe system is arranged on the focal line zone of line focusing system, and condensation end is arranged on the focal line region exterior, thereby realizes the utilization of the various heat energy of solar energy.

Four, one group of fresnel reflecting mirror array tracking heat pipe of embodiment utilizes system

Shown in figure four, the one group of solar energy mirror tracking system that has three Fresnel mirrors (2) to form, each Fresnel mirror is arranged on the solar energy mirror support of two circles, each Fresnel mirror is provided with two rotating shafts, power section is a motor, by three gear trains of motor-driven, realize driving respectively to each Fresnel, the gear of drive part is arranged in the rotating shaft of Fresnel mirror (2), simultaneously for each annulus that provides support for solar energy mirror (3), be provided with drive unit (12), realize driving, can realize like this to the rotation of solar energy mirror and at the multi-directional tracking of the driving of solar energy mirror support to each annulus; The evaporation ends of heat pipe is arranged on the inside of glass pipe, and its condensation end is arranged on the focal line region exterior, carries out the various comprehensive utilizations that heat exchange realizes heat energy by the heat exchanger that is arranged on the heat pipe condensation end.

According to principle of the present utility model, can realize other embodiment, as long as but meet condition of the present utility model, all belong to implementation content of the present utility model.

Claims (11)

1. a solar multi-directional tracking heat pipe utilizes system, comprise that at least one solar heat pipe utilizes equipment, at least one group of optical frames wherein every group of optical frames is made up of a plurality of solar linear focusing optical mirrors, the solar energy mirror support that is used for support of optical mirror group, make solar linear focusing optical mirror can follow the tracks of the solar energy tracking device of solar motion, Power Drive Unit, and electronic control system, every group of optical frames focuses in the cylindrical region jointly, have at least a solar heat pipe to utilize equipment to be arranged in this cylindrical region and keep motionless, it is characterized in that: be set with at least one rotating shaft on each solar linear focusing optical mirror, the two ends of described rotating shaft are arranged on the solar energy mirror support, drive linear focusing optical mirror by Power Drive Unit and rotate and follow the solar energy mirror support and move, make the focal line of every group of line focus optical frames remain at solar heat pipe and utilize in the zone at equipment place along rotating shaft.

2. solar multi-directional tracking heat pipe according to claim 1 utilizes system, it is characterized in that: described solar energy mirror support is selected the device of following at least a shape:

A, parabolic type;

B, arc;

C, circular device;

D, polygon support;

E, compound parabolic line style;

F, straight line, oblique line, shaped form.

3. solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: described tracking means comprises tracking support, the power transmission mechanism that is used to support whole system, described power transmission one end is connected with drive unit, at least an other end is arranged on rotating shaft, solar energy mirror support, the solar linear focusing optical mirror, drive power transmission mechanism by Power Drive Unit, realize tracking solar energy.

4. solar multi-directional tracking heat pipe according to claim 3 utilizes system, it is characterized in that: one of described power transmission mechanism selection is following: gear mechanism, link chain mechanism, turbine and worm mechanism, linkage.

5. solar multi-directional tracking heat pipe according to claim 3 utilizes system, it is characterized in that: described solar energy mirror support is arranged on to be followed the tracks of on the support, and it is one of following that the track that the solar energy mirror support moves can be selected:

A, parabola or arc or circular device and ground level parallel motion;

B, parabola or arc or circular device prolong two parabolas or arc or circle and carry out parabola or arc or circus movement;

C, moving along straight line, oblique line, curve.

6. arbitrary solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: the evaporation ends of described heat pipe is arranged in the focal line zone of solar energy line focus, the condensation end of heat pipe is arranged on outside the focal line zone, condensation end is connected with heat exchanger, realize the collection of heat energy by heat exchanger, and then heat energy can be applied to hot generating, heating, refrigeration, hot water, boiling water application.

7. arbitrary solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: the focal line of solar linear focusing optical mirror selects one of following manner to place: parallel with earth's axis, parallel with earth's axis angle minimum, parallel to the ground, parallel with horizontal plane is preferably parallel placement with earth's axis.

8. arbitrary solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: described Power Drive Unit is selected from one of following:

A, Mechanical Driven device are preferably mechanical clockwork spring, spring, tracking;

B, phase transformation drive unit adopt the material be enclosed in a space, along with the increase of temperature makes the increase of its pressure, promote motion, realize following the tracks of;

C, utilize electric energy to drive motor or hydraulic means to drive power transmission mechanism and realize following the tracks of;

The signal of D, the sensor by electricity or light by relatively electric current, magnitude of voltage and/or the brightness values of the conversion of solar energy device of different parts, is adjusted the tracking that the motion of motor realizes by computer or single-chip microcomputer.

9. arbitrary solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: solar heat pipe utilize equipment around, also be provided with the secondary reflection mirror, optical frames that solar linear focuses on and secondary reflection mirror are selected from following at least a:

A, linear composite parabolic speculum;

B, linear Fresnel lens or speculum;

C, linear concave, convex lens;

D, Linear Parabolic face speculum;

E, glass, metal, nonmetallic plane mirror.

10. arbitrary solar multi-directional tracking heat pipe according to claim 1 and 2 utilizes system, it is characterized in that: have at least a plurality of solar heat pipes to utilize equipment to be set to an array, each array utilizes equipment to form by many groups solar energy mirror, tracking system, mounting system, solar heat pipe, solar heat pipe to same row and/or same row utilizes equipment, a shared power drive device, every array can be arranged on the common platform or be arranged on the zone of ground and/or building.

11. solar multi-directional tracking heat pipe according to claim 10 utilizes system, it is characterized in that: form a system by a plurality of arrays, row, row solar heat pipe utilize equipment more than being provided with on each array, every row on each array or row solar heat pipe utilize the fluid that equipment flows by hot-pipe system and/or forced circulation to carry out heat exchange or directly utilization, and the fluid by hot-pipe system and/or forced circulation between a plurality of arrays carries out heat exchange or directly utilization.

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