CN106123368A - A kind of novel dish type solar energy hot systems and installation method thereof - Google Patents

Abstract

The invention discloses a kind of novel dish type solar energy hot systems, including principal reflection mirror assembly, second reflecting mirror, heat collector assembly, double-shaft solar follows the tracks of device, heat pipe and surely stand on the pillar on ground, described pillar upper end connects double-shaft solar and follows the tracks of device, described heat collector assembly and principal reflection mirror assembly are separately positioned on double-shaft solar and follow the tracks of above device, heat collector assembly is fixed on side under principal reflection mirror assembly middle concave, described second reflecting mirror is connected with principal reflection mirror assembly by pole, described heat pipe is a part of and described heat collector assembly is internal is connected, heat pipe another part is passed down through double-shaft solar and follows the tracks of the position that is connected with heat collector assembly of device and pass the movement with the rotation of principal reflection mirror assembly of the centre bore of pillar；The present invention is the advantage of several solar energy hot systems such as engineering tower, slot type, dish-style being integrated with on our times application, and structural system is more preferable, generate electricity, the cost that generates heat lower.

Description

A kind of novel dish type solar energy hot systems and installation method thereof

Technical field

The present invention relates to solar energy optical-thermal system engineering technology field, especially relate to a kind of novel dish type solar energy optical-thermal System and installation method thereof.

Background technology

In the world today, most countries pays much attention to the utilization of solar energy optical-thermal, has arranged in our country 13 planning Enter to give priority to one of industry.Solar energy optical-thermal system structure mainly has tower, slot type, dish-style and Fei Ershi at present, is all Existing Application Optics principle before applying the centuries, before two ways application account for maximum, especially most with slot type, they are excellent Gesture is to be transferred to the generating of conventional electric power generation equipment with large-scale heating generating by assembling sunlight heats heat-conducting medium, but The light efficiency utilization being total is the highest, is also not suitable for the distributed utilization of miniaturization.

Disc type solar energy opto-thermal system light efficiency utilizes best, and advantage is can to utilize with small distributed and use Stirling formula Electromotor generates electricity.Referring to Fig. 1, current disc type solar energy photo-thermal power generation uses the mode of disposable reflecting condensation mostly, i.e. With matrix parabolic curve surface, sunlight reflection being converged in focus, the heat collector of Stirling formula generating set 100 is exactly in Focal position, the 1000W that Stirling formula generating set is little has tens kilograms, and tens big KW have more than hundreds of kilogram, reflects dish Several meters of hundreds of kilogram weights that assembly 200 diameter is little, big has more than tens meters more than 100 ton of weights, a huge Stirling formula generating Unit 100 support arm to be leaned on 300 is fixed on stable operation on reflective focal position, there is also a lot of tired in structural system design Difficulty, and the producer of high-quality stirling generator group can be manufactured very little, large-scale employing disc type solar energy photo-thermal Still there are many technical barriers system Construction electric station；Secondly, the internal heat accumulation energy medium quilt of the heat collector of Stirling formula generating set After focusing, sunlight irradiation heats up the highest, up to thousands of degree high temperature, if heat collector being fixedly mounted on reflection dish assembly 200, Heat pipe is connected on heat collector to rotate by heel-tap reflex dish assembly 200 at any time, does not has any metal tube or macromolecular material pipe energy Carrying flowing high-temperature medium does not stop bending and swings, and this is extremely dangerous the most insecure.

Visible, the scheme that current solution utilizes disc type solar energy opto-thermal system efficient heat energy large-scale use is the most highly difficult, How innovation and creation one novel dish type solar energy hot systems, its can possess various advantage, eliminate shortcoming, more utilizations are too Solar ray energy is efficiently converted into heat energy, can not only maximize heating generating, again can the distributed use of miniaturization, reduce cost be only me Real research direction.

Summary of the invention

In order to solve above-mentioned existing issue, the invention provides a kind of novel dish type solar energy hot systems, this system is The advantage being integrated with on our times several solar energy hot systems such as engineering tower, slot type, dish-style of application, structural system More preferably, generate electricity, the cost that generates heat lower.

The technical scheme is that a kind of novel dish type solar energy hot systems, including principal reflection mirror assembly, second anti- Penetrating mirror, heat collector assembly, double-shaft solar tracking device, heat pipe and surely stand on the pillar on ground, described pillar upper end connects Double-shaft solar follows the tracks of device, and described heat collector assembly and principal reflection mirror assembly are separately positioned on double-shaft solar and follow the tracks of on device Side, heat collector assembly is fixed on side under principal reflection mirror assembly middle concave, and described second reflecting mirror passes through pole and principal reflection mirror Assembly connects, and it is complete that principal reflection mirror assembly follows the tracks of, at double-shaft solar, the light that on device, moment tracking solar orbit is assembled when running Portion reflexes on the second reflecting mirror convex surface, and the second reflecting mirror converges the hot spot reflected and fully falls in the heat-collecting head of heat collector assembly On, described heat pipe is a part of and described heat collector assembly is internal is connected, and described heat pipe another part is passed down through twin shaft too Sun can follow the tracks of the position that device is connected centre bore not the turning with principal reflection mirror assembly passing described pillar with heat collector assembly Move and move.

It is that X, Y double-shaft solar follows the tracks of device that described double-shaft solar follows the tracks of device, and described heat collector assembly is arranged on double Above the X-direction base of axle solar energy tracking device, principal reflection mirror is arranged on double-shaft solar and follows the tracks of the Y-direction base of device On.

Described heat collector assembly heat-collecting head is ball-type head, is energy efficient absorption heat energy, an appearance for the low reflecting rate in surface Device, has high temperature to conduct flow media, heat energy is transferred out by heat pipe inside it.

Described heat collector assembly can be Stirling formula generating set system, when optically focused heat energy is irradiated to its hot head region Heat collector assembly, by the flowing velocity of heat-conducting medium in the internal heat pipe of control heat collector assembly, controls temperature and reaches Si Te The scope that the generating of woods machine needs, makes stirling generator normal power generation.

The heat-collecting head Center of described heat collector assembly is arranged on double-shaft solar and follows the tracks of on the Y-direction axis of device, The directrix axis of principal reflection mirror assembly is perpendicular to double-shaft solar and follows the tracks of the Y-direction axis of device and by the collection of heat collector assembly Re Tou center, when principal reflection mirror assembly any moment follows the tracks of solar orbit operation, this design ensure that principal reflection mirror assembly meeting Poly-light all reflexes in the second reflecting mirror convex design region, and the hot spot of the second reflecting mirror convergence reflex fully falls in thermal-arrest On design section position, device assembly heat-collecting head surface, more utilize solar energy.

Described heat collector assembly and the X-direction base of double-shaft solar tracking device and pillar three are bolted It is an entirety, it is ensured that entirety maintains static, to ensure that heat pipe is fixing mobile with the rotation of principal reflection mirror assembly.

The reflecting surface of described principal reflection mirror assembly is matrix parabolic surface or matrix sphere curved surface, and its surface is coated with high anti- Light rate is high temperature resistant dura mater, the reflecting surface of principal reflection mirror assembly can be that a reflecting mirror constitutes or is made up of more than one piece unit reflecting mirror Reflecting curved surface.

Further, present invention also offers the installation method of a kind of novel dish type solar energy hot systems, including following Step:

A, the double-shaft solar being provided with X-direction base and Y-direction base is followed the tracks of device it is arranged on and stably stands on ground Pillar upper end, heat collector assembly is bolted above X-direction base, and principal reflection mirror assembly is arranged on Y-direction base, Second reflecting mirror is arranged on above principal reflection mirror assembly by pole, the second reflecting mirror convex surface facing principal reflection mirror assembly；

The Y of device is followed the tracks of in b, heat-collecting head its ball-type head ball center F design and installation of heat collector assembly at double-shaft solar In azimuth axis, the directrix axis H of principal reflection mirror assembly is perpendicular to double-shaft solar and follows the tracks of the Y-direction axis of device and by collection Ball-type head center F of hot device assembly, when principal reflection mirror assembly dish stand any moment follows the tracks of solar orbit operation, it is ensured that main anti- The light penetrating mirror assembly convergence all reflexes in the second reflecting mirror convex design region, and the hot spot of the second reflecting mirror convergence reflex is complete Clan is on the design section position, surface of heat collector assembly ball-type head；

C, a part for heat pipe being connected with heat collector assembly, another part is passed down through double-shaft solar and follows the tracks of device X-direction base and the central bore of pillar be connected with external stability, heat pipe is not because of the principal reflection mirror assembly real-time tracking sun Rotate and move.

Described heat collector assembly is connected by bolt with X-direction base and the pillar three of double-shaft solar tracking device Connecing is an entirety.

The invention have the benefit that

1, the present invention is connected by a design heat pipe part is internal with heat collector assembly, and another part is passed down through twin shaft Position that solar energy tracking device is connected with heat collector assembly and through the centre bore of pillar not with the rotation of principal reflection mirror assembly And move, heat pipe is fixedly mounted, it is ensured that the dependability of heat pipe so that disc type solar energy opto-thermal system is whole Structural system is safer；

2, the present invention is in principal reflection mirror assembly converging light line reflection to the second reflecting mirror convex surface, convex by the second reflecting mirror Face reflexes to fixedly mount below principal reflection mirror assembly reflection dish stand central through hole the collection of not changing position convergence of rays again On hot device assembly heat-collecting head, the second mirror diameter is little, light weight, and it instead of the Si Te that primary event theory structure weighs very much Woods formula electromotor and the installation site with cooling system, structure is very simple, and the design of the aspect such as weight, stress simplifies completely ?；

3, heat collector assembly is fixed on the pillar upper end standing on ground, and it is total that heat collector assembly heat-collecting head is in principal reflection mirror Sunlight when moving to any position is become to converge to, in the focus of light convergence reflex again of the second reflecting mirror, be different from primary event Principle, owing to heat collector assembly is no longer to be fixed on principal reflection mirror assembly by huge support arm, so principal reflection mirror assembly is followed the tracks of Have more preferable stability, safety during motion, system structure design simplifies, the cooling system of heat collector assembly, electronic system It is more convenient that connection installed by pipeline electric wires etc., and detection in the future is safeguarded and is easier to, and vibration during generator system generating is to integral inverted Any impact is not had when penetrating mirror pursuit movement.

4, light reflexes to the second mirror surface, the second reflecting mirror reflecting focal again through principal reflection mirror assembly, convergence Form focus, at the second reflection converging focal point, place heat collector assembly, by its internal thermal conductive fluid medium, heat energy is transmitted out Go, thermal energy exchange use can be carried out with separate unit disc type solar energy heat-generating system, enter life staying idle at home, commercial market；Can also be many Platform disc type solar energy opto-thermal system series and parallel gets up to supply high hot-fluid and is applied to power large-scale electric generating station；Us are used new invention to create Make change completely disc type solar energy opto-thermal system on our times be not easy to build power large-scale electric generating station project situation.

Accompanying drawing explanation

Fig. 1 is that present disc type solar energy opto-thermal system uses primary event principle schematic；

Fig. 2 is the structural representation of novel dish type solar energy hot systems of the present invention；

Fig. 3 is Fig. 2 I portion enlarged diagram；

Fig. 4 is novel dish type solar energy optical-thermal system heat energy application schematic diagram of the present invention；

Fig. 5 is novel dish type solar energy hot systems power generation applications schematic diagram of the present invention；

Fig. 6 is that novel dish type solar energy optical-thermal system cluster of the present invention connects heat energy application schematic diagram.

In figure, 1, principal reflection mirror assembly；2, the second reflecting mirror；3, heat collector assembly；31, spherical head；4, biaxial solar Device can be followed the tracks of；41, X-direction base；42, Y-direction base；5, pillar；6, heat pipe；7, pole.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments, not wholely In the case of conflict, the embodiment in the application and the feature in embodiment can be mutually combined, below with reference to the accompanying drawings and tie Close embodiment and describe the present invention in detail.

The present invention is further elaborated with embodiment below in conjunction with the accompanying drawings.

As shown in Figure 2 and Figure 3, a kind of novel dish type solar energy hot systems, it includes principal reflection mirror assembly 1, and second is anti- Penetrating mirror 2, heat collector assembly 3, double-shaft solar follows the tracks of device 4, pillar 5 and heat pipe 6, and pillar 5 surely stands on ground, pillar 5 Upper end connect double-shaft solar follow the tracks of device 4, heat collector assembly 3 and principal reflection mirror assembly 1 be separately positioned on double-shaft solar with Above track device 4, the second reflecting mirror 2 is connected with principal reflection mirror assembly 1 by pole, heat pipe 6 part and heat collector assembly 3 Internal connecting, another part is passed down through double-shaft solar and follows the tracks of position that device 4 is connected with heat collector assembly 3 and pass pillar The centre bore of 5 is not mobile with the rotation of principal reflection mirror assembly.

Principal reflection mirror assembly 1 includes dish stand and is formed at the reflecting surface on dish stand surface, and reflecting surface is that parabola is around directrix Axis H rotates the concave Iy curved or matrix sphere curved surface formed, and surface is coated with the high temperature resistant dura mater of high reflecting rate, the reflection formed Face can be that a large-scale reflecting mirror constitutes and can also be formed reflecting curved surface by more than one piece unit reflecting mirror, it is necessary to adjusts every piece by piece Part unit principal reflection mirror makes sunlight that its principal reflection mirror assembly 1 reflecting surface formed reflected to the second reflecting mirror 2 Nonreentrant surface.

Second reflecting mirror 2 is that convex surface is corresponding towards principal reflection mirror assembly 1 reflecting surface, is fixed on main anti-with at least 3 poles 7 Penetrate on mirror assembly 1 dish stand, and with principal reflection mirror assembly 1 directrix axis H coaxial placement, the second reflecting mirror 2 plated surface height reflection Rate is high temperature resistant dura mater；It is placed on design attitude and prolongs principal reflection mirror directrix axis H axis relative to the movable tune of principal reflection mirror assembly 1 Whole second reflecting mirror 2, makes focused light spot fall the heat-collecting head of design attitude heat collector assembly 3 all the time.Principal reflection mirror assembly is double The light that on axle solar energy tracking device, the moment is assembled when following the tracks of solar orbit operation all reflexes on the second reflecting mirror, and second Reflecting mirror converges the hot spot of reflection and fully falls on the heat-collecting head of heat collector assembly.

Double-shaft solar follows the tracks of X-direction base 41 and the Y-direction base 42 that device 4 includes integrally connecting, and pillar 5 upper end is even Connecing X-direction base, heat collector assembly 3 is to be fixed on above X-direction base with bolt, and the dish stand of principal reflection mirror assembly 1 is It is connected on Y-direction base；Specifically, heat collector assembly 3 is connected as through bolt with X-direction base 41 and pillar 5 three One is overall, it is ensured that heat collector assembly 3 and the mounting stability of heat pipe 6, heat collector assembly 3 is fixedly mounted on principal reflection mirror Below assembly dish stand centre bore concave bottom.

The heat-collecting head of heat collector assembly is ball-type head 31, and it is an energy efficient absorption heat energy, the low reflecting rate in surface Container, has high temperature to conduct flow media inside it, heat is transferred out by heat pipe 6；The ball-type head 31 of heat collector assembly 3 Center F design and installation is on the Y-direction axis of movement of X, Y biaxial tracker assembly 4.The directrix axis H of principal reflection mirror assembly 1 hangs down The directly Y-direction axis of movement in X, Y biaxial tracker assembly 4 the ball-type head 31 center F by heat collector assembly 3；Work as master When reflecting mirror assembly 1 dish stand any moment follows the tracks of solar orbit operation, it is ensured that the light that it is assembled all reflexes to the second reflecting mirror 2 In convex design region, the hot spot of the second reflecting mirror 2 convergence reflex falls in the design district, ball-type head 31 surface of heat collector assembly 3 On position, territory.

The heat energy of novel dish type solar energy hot systems of the present invention is applied as shown in Figure 4, and heat collector assembly 3 is added by high temperature Heat, is led by heat pipe after the heat absorption of inner loop thermal conductive fluid medium and flows out to heat accumulation tower/water storage tower/drying oven etc., and utilization is led The high temperature gone out, is used for generating electricity, for domestic hot water, drying baker etc..

The electric energy application of novel dish type solar energy hot systems of the present invention is as it is shown in figure 5, collect when optically focused heat energy is irradiated to it Hot head region, by the flowing velocity of heat-conducting medium in the internal heat pipe of control, controls temperature and reaches Stirling-electric hybrid generating needs Scope, make stirling generator normal power generation；All pipelines with the heat pipe 6 of input and output and stirling generator, Including cooling water pipe, high input voltage output electric wire, temperature control electric wire etc., be all to be passed down through X, Y biaxial tracker assembly X-direction base and the central bore of pillar, any with outside be connected and fixing will not because of reflecting mirror assembly 1 real-time tracking too Sun rotates and moves.

New type solar energy opto-thermal system cluster of the present invention connects heat energy and applies as shown in Figure 6, according to mode described in Fig. 4 every Individual novel dish type solar energy hot systems is by after heat pipe series/parallel, and a large amount of enough heat energy are by high-temperature hot permeable medium It is transferred to electric station or the use of other heating equipment through heat pipe, large-scale heat supply generating can be reached.

The above, only presently preferred embodiments of the present invention, not in order to limit the present invention, every skill according to the present invention Any trickle amendment, equivalent and the improvement that above example is made by art essence, should be included in technical solution of the present invention Protection domain in.

Claims (8)

1. a novel dish type solar energy hot systems, it is characterised in that include principal reflection mirror assembly (1), the second reflecting mirror (2), heat collector assembly (3), double-shaft solar follow the tracks of device (4), heat pipe (6) and surely stand on the pillar (5) on ground, described Post (5) upper end connects double-shaft solar and follows the tracks of device (4), and described heat collector assembly (3) and principal reflection mirror assembly (1) are respectively provided with Following the tracks of device (4) top at double-shaft solar, heat collector assembly (3) is fixed on side, institute under principal reflection mirror assembly (1) middle concave Stating the second reflecting mirror (2) to be connected with principal reflection mirror assembly (1) by pole, principal reflection mirror assembly (1) is followed the tracks of at double-shaft solar Device (4) the upper moment follows the tracks of the light assembled when solar orbit runs and all reflexes on the second reflecting mirror (2) convex surface, and second is anti- The hot spot penetrating mirror (2) convergence reflection fully falls on the heat-collecting head of heat collector assembly (3), described heat pipe (6) part and institute State that heat collector assembly (3) is internal to be connected, described heat pipe (6) another part be passed down through double-shaft solar follow the tracks of device (4) with The position that heat collector assembly (3) connects, and through described pillar (5) centre bore not with principal reflection mirror assembly (1) rotation and Mobile.

Novel dish type solar energy hot systems the most according to claim 1, it is characterised in that described double-shaft solar is followed the tracks of Device (4) is that X, Y double-shaft solar follows the tracks of device, and described heat collector assembly (3) is arranged on double-shaft solar and follows the tracks of device (4) X-direction base (41) top, principal reflection mirror is arranged on double-shaft solar and follows the tracks of on the Y-direction base (42) of device (4).

Novel dish type solar energy hot systems the most according to claim 1, it is characterised in that described heat collector assembly (3) Heat-collecting head is ball-type head (31).

Novel dish type solar energy hot systems the most according to claim 1, it is characterised in that described heat collector assembly (3) For Stirling formula generating set system.

Novel dish type solar energy hot systems the most according to claim 2, it is characterised in that described heat collector assembly (3) Heat-collecting head Center be arranged on double-shaft solar follow the tracks of device (4) Y-direction axis on, the standard of principal reflection mirror assembly (1) Line axis is perpendicular to double-shaft solar and follows the tracks of the Y-direction axis of device (4) and by the heat-collecting head center of heat collector assembly (3).

Novel dish type solar energy hot systems the most according to claim 1, it is characterised in that described heat collector assembly (3) Follow the tracks of the X-direction base of device (4) with double-shaft solar and pillar (5) three to be bolted be one overall.

7. the installation method of a novel dish type solar energy hot systems, it is characterised in that comprise the following steps:

A, the double-shaft solar being provided with X-direction base (41) and Y-direction base (42) is followed the tracks of device (4) it is arranged on and stably stands on Pillar (5) upper end on ground, heat collector assembly (3) is bolted at X-direction base (41) top, principal reflection mirror assembly (1) being arranged on Y-direction base (42), the second reflecting mirror (2) is arranged on above principal reflection mirror assembly (1) by pole, and second The corresponding reflecting surface towards principal reflection mirror (1) assembly of the convex surface of reflecting mirror (2)；

B, its ball-type head (31) ball center F design and installation of heat-collecting head of heat collector assembly (3) follow the tracks of device at double-shaft solar (4), on Y-direction axis, the directrix axis H of principal reflection mirror assembly (1) is perpendicular to double-shaft solar and follows the tracks of the Y-direction of device (4) Axis by ball-type head (31) the center F of heat collector assembly (3), followed the tracks of when principal reflection mirror assembly (1) dish stand any moment When solar orbit runs, it is ensured that the light that principal reflection mirror assembly (1) is assembled all reflexes to the second reflecting mirror (2) convex design region In, the hot spot of the second reflecting mirror (2) convergence reflex fully falls in the surface design section of heat collector assembly (3) ball-type head (31) On position；

C, a part for heat pipe (6) being connected with heat collector assembly (3), another part is passed down through double-shaft solar and follows the tracks of dress The central bore of the X-direction base (41) and pillar (5) of putting (4) is connected with external stability, and heat pipe is not because of principal reflection mirror assembly The real-time tracking sun rotates and moves.

The installation method of novel dish type solar energy hot systems the most according to claim 7, it is characterised in that described collection Hot device assembly (3) and double-shaft solar follow the tracks of the X-direction base (41) of device (4) and pillar (5) three be bolted into One is overall.