CN106152560B

CN106152560B - A kind of heat collector for solar thermal collector

Info

Publication number: CN106152560B
Application number: CN201610825735.7A
Authority: CN
Inventors: 张家兴; 曾智勇; 陈武忠; 崔小敏; 黄贝; 雷宝力
Original assignee: Shenzhen Enesoon Science & Technology Co Ltd
Current assignee: Shenzhen Enesoon Science & Technology Co Ltd
Priority date: 2016-09-14
Filing date: 2016-09-14
Publication date: 2019-07-16
Anticipated expiration: 2036-09-14
Also published as: WO2018050076A1; CN106152560A

Abstract

The invention discloses a kind of heat collectors for solar thermal collector, the several groups thermal-arrest pipe unit of sunlight shadow surface is used to form above first isocon and the second isocon including the first isocon set up in parallel and the second isocon, along first isocon and the second isocon length direction strung alongside and the influent stream pipe and outflow tube successively flowed into and out for liquid working substance along several thermal-arrest pipe units that connect respectively with first isocon and/or the second isocon, the influent stream pipe and outflow tube are connected with external heat exchanging devices respectively.The heat collector designed using this structure, the shunting function of the first isocon and the second isocon that set up in parallel can be passed through, so that the liquid medium imported by influent stream pipe is successively flowed along several thermal-arrest pipe units arranged side by side, the heat on the sunlight shadow surface for there are several thermal-arrest pipe units to be formed side by side is exported by the liquid medium in thermal-collecting tube finally, and then carries out energy conversion with external heat exchanging devices.Daylighting area of the present invention is big, and thermal conversion efficiency is high.

Description

A kind of heat collector for solar thermal collector

Technical field

The present invention relates to solar light-heat power-generation technical field more particularly to a kind of collection hot chargings for solar thermal collector It sets.

Background technique

With the development of civilization, the use of fossil fuel is sharply increased, which results in serious problem of environmental pollution and entirely Ball warms, which has become the hot topic of international community, but due to developed country, developing country and less developed country Between different opinions relevant to national interests and just moving towards a undesirable direction.Corresponding to which, it is made that split The various trials for the renewable energy for sending out new, energetically to cope with global warming and environmental problem.New renewable energy refers to Utilized by converting traditional fossil fuel or to include the renewable energy such as sunlight, water, underground heat, biologic artifact into The energy that row utilizes.Its characteristic is the future source of energy towards sustainable energy feed system.Since oil price is unstable and weather becomes Change the limitation etc. of agreement, the importance of new renewable energy becomes larger.Renewable energy includes solar heat, sunlight, biomass Energy, wind-force, small power station, underground heat, ocean energy and waste energy etc., and new energy includes fuel cell, liquefaction coal, gasification of coal Charcoal and Hydrogen Energy.Problem is not up to be equal to from the cost of new renewable energy, particularly solar power generation and utilize fossil fuel Traditional thermal power generation cost power grid par.But improve with the development of technology, from new renewable energy too The solar thermal power generation of positive heat power generation persistently reduces in cost of electricity-generating, and is being gradually increased in generating efficiency.

Used under the prior art by tracking the sun while with efficient condenser in short focus to solar energy Assembled, and then the liquid medium in solar thermal collector is heated, is carrying out heat turn with external power generator later The heat collector for the solar thermal collector for changing, and being designed using this mode is in limited bulk, and heating surface area is small and hot-cast socket is imitated Rate is low, therefore up for improving to it.

Summary of the invention

The purpose of the present invention is to provide a kind of daylighting area is big, the high heat collector of thermal conversion efficiency.

To achieve this purpose, the present invention adopts the following technical scheme:

A kind of heat collector for solar thermal collector, including the first isocon set up in parallel and the second isocon, Along first isocon and the second isocon length direction strung alongside above first isocon and the second isocon It is used to form the several groups thermal-arrest pipe unit of sunlight shadow surface and is shunted respectively with first isocon and/or second Pipe connects the influent stream pipe and outflow tube successively flowed into and out for liquid working substance along several thermal-arrest pipe units, the influent stream Pipe and outflow tube are connected with external heat exchanging devices respectively.

Wherein, the thermal-arrest pipe unit includes the first thermal-collecting tube list for forming arch heat-absorbent surface after being successively arranged side by side Member, and for being connected smoothly with arch heat-absorbent surface after being successively arranged side by side and to form the second thermal-collecting tube list of inclination heat-absorbent surface Member.

Wherein, the first thermal-arrest pipe unit and the second thermal-arrest pipe unit are provided with arc top and the arc Two support portions of the both ends perforation connection at the top of shape, respectively two load receiving parts with two support portion perforation connections, two institutes Load receiving part is stated to connect with first isocon and the perforation of the second isocon respectively.

Wherein, the first thermal-arrest pipe unit and the second thermal-arrest pipe unit have several thermal-collecting tube Side by side groupings and At the thermal-collecting tube scattering device of the load receiving part of the first thermal-arrest pipe unit and the second thermal-arrest pipe unit after combination.

Wherein, first isocon and the second isocon are arranged at intervals with several dividing cells along pipe range direction, The dividing cell is connected with the nozzle of the load receiving part respectively, and the dividing cell passes through the first thermal-arrest arranged side by side Pipe unit and the second thermal-arrest pipe unit successively penetrate through setting.

Wherein, the pipe range of the first thermal-arrest pipe unit and arc length are disposed as equal, the second thermal-arrest pipe unit Pipe range in successively successively decrease setting and arc length it is equal；

Wherein, it is respectively corresponded in the dividing cell of first isocon or the second isocon and is provided with sewage pipe.

Wherein, which further includes the heat-insulating bracket for setting up first isocon and the second isocon, with And the work shape channel steel for setting up the heat-insulating bracket, the heat-insulating bracket are uniformly arranged along the work shape channel steel length direction, The supporting walls of the work shape channel steel are uniformly provided with insulation hole along its length.

Wherein, the heat-insulating bracket includes the support base being anchored at the top of the work shape channel steel, is set to the support base The U-shaped card slot at top and setting are used to match with first isocon and the second isocon respectively in the U-shaped card slot The heat insulation foam of conjunction.

Wherein, the external heat exchanging devices include cryogenic liquid working tank, for will be low in cryogenic liquid working tank The liquid pump of geothermal liquid working medium importing influent stream pipe, be connected the high-temp liquid for storing high-temp liquid working medium with the outflow tube Working medium tank and the turbine generator equipment being arranged between the cryogenic liquid working tank and high-temp liquid working medium tank.

Beneficial effects of the present invention: the present invention includes the first isocon set up in parallel and the second isocon, along described One isocon and the second isocon length direction strung alongside are used to form above first isocon and the second isocon It the several groups thermal-arrest pipe unit of sunlight shadow surface and connects respectively with first isocon and/or the second isocon For influent stream pipe and outflow tube that liquid working substance is successively flowed into and out along several thermal-arrest pipe units, the influent stream pipe and out stream Pipe is connected with external heat exchanging devices respectively.Using this structure design heat collector, can by set up in parallel first The shunting function of isocon and the second isocon, so that the liquid medium imported by influent stream pipe is along several thermal-arrests arranged side by side Pipe unit successively flows, and the heat on the sunlight shadow surface for having several thermal-arrest pipe units to be formed side by side is finally passed through thermal-collecting tube Interior liquid medium export, and then energy conversion is carried out with external heat exchanging devices.Daylighting area of the present invention is big, thermal conversion efficiency It is high.

Detailed description of the invention

Fig. 1 is a kind of axonometric drawing of the heat collector for solar thermal collector of the present invention.

Fig. 2 is the axonometric drawing of the first thermal-arrest pipe unit in Fig. 1.

Fig. 3 is the axonometric drawing of the second thermal-arrest pipe unit in Fig. 1.

Fig. 4 is the axonometric drawing of the small heat collection unit of the first thermal-arrest pipe unit in Fig. 2.

Fig. 5 is the partial enlarged view in Fig. 4 at A.

Fig. 6 is the axonometric drawing of the small heat collection unit of the second thermal-arrest pipe unit in Fig. 3.

Fig. 7 is the partial enlarged view in Fig. 6 at B.

Fig. 8 be in Fig. 1 the first isocon and the second isocon installation after axonometric drawing.

Fig. 9 is the partial enlarged view in Fig. 8 at E.

Figure 10 is the partial enlarged view in Fig. 8 at C.

Figure 11 is the partial enlarged view in Fig. 8 at D.

Figure 12 is the axonometric drawing of hearth body in Fig. 1.

Specific embodiment

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1, the heat collector includes the first isocon 11 set up in parallel and the second isocon 12, along first point Flow tube 11 and 12 length direction strung alongside of the second isocon are used to form above the first isocon 11 and the second isocon 12 If the several groups thermal-arrest pipe unit 13 of sunlight shadow surface and connect respectively with the second isocon 12 for liquid working substance along The influent stream pipe 14 and outflow tube 15 that dry thermal-arrest pipe unit successively flows into and out, influent stream pipe 14 and outflow tube 15 are handed over external heat respectively Changing device is connected.When solar irradiation is mapped to the sunlight shadow surface as made of several groups thermal-arrest pipe unit Side by side groupings, lead to The liquid working substance that influent stream pipe imports in several groups thermal-arrest pipe unit is crossed, if edge under the action of the first isocon and the second isocon Dry group thermal-arrest pipe unit is heated to be high-temp liquid when successively flowing, and the high-temp liquid after heating flows into outer eventually by outflow tube Portion's heat-exchange device.External heat exchanging devices include cryogenic liquid working tank, for by the Low Temperature Liquid in cryogenic liquid working tank Body working medium imports the liquid pump of influent stream pipe 14, the high-temp liquid working medium being connected with outflow tube for storing high-temp liquid working medium Tank and the turbine generator equipment being arranged between cryogenic liquid working tank and high-temp liquid working medium tank.

Preferably, the liquid working substance in the present embodiment is set as heating fused salt, and external heat exchanging devices include cryogenic liquid Working medium tank, the liquid pump for the cryogenic liquid working in cryogenic liquid working tank to be imported to influent stream pipe 14 are connected with outflow tube It connects the high-temp liquid working medium tank for storing high-temp liquid working medium and is arranged in cryogenic liquid working tank and high-temp liquid working medium Turbine generator equipment between tank.

Heat collector in preferred the present embodiment is suitable for tower type solar heat collector, can be arranged by tower bottom anti- The sunlight for penetrating the reflection of mirror lens group is irradiated the heat collector, carries out energy conversion with this.

In the present embodiment as shown in Figure 1, Figure 2 and Figure 3, thermal-arrest pipe unit 13 includes for forming arch after being successively arranged side by side First thermal-arrest pipe unit 131 of shape heat-absorbent surface, and for being connected smoothly shape after being successively arranged side by side with arch heat-absorbent surface At the second thermal-arrest pipe unit 132 of inclination heat-absorbent surface.Preferably, as shown in Figures 4 and 5, the pipe range of the first thermal-arrest pipe unit 131 And arc length is disposed as equal, as shown in FIG. 6 and 7, the pipe range of the thermal-collecting tube 1314 of the second thermal-arrest pipe unit 132 is in successively passing It reduces and sets and arc length is equal；It is configured in this way, after combining the first thermal-arrest pipe unit with the second thermal-arrest pipe unit The thermal-arrest cavity of shape as shown in Figure 1 is formed, and then should not be penetrated between adjacent heat pipe convenient for the sunlight come from bottom irradiation Out, it and can effectively increase light-receiving area, improve the thermal conversion efficiency of thermal-arrest pipe unit.

In the present embodiment, as shown in Fig. 1, Fig. 4 and Fig. 5, the first thermal-arrest pipe unit 131 and the second thermal-arrest pipe unit 132 are It is provided with 1311 at the top of arc, penetrated through with the support portion 1312 of the both ends perforation connection at arc top 1311, with support portion 1312 Load receiving part 1313, load receiving part 1313 respectively with the first isocon 11 and the second isocon 12 perforation connect, the first thermal-collecting tube list Member 131 and the second thermal-arrest pipe unit 132 have several 1314 Side by side groupings of thermal-collecting tube to form, the first thermal-collecting tube list after combination The thermal-collecting tube scattering device of the load receiving part 1313 of member 131 and the second thermal-arrest pipe unit 132.The thermal-collecting tube designed using the above structure Unit, by taking the first thermal-arrest pipe unit as an example, first by Side by side groupings after the identical 8 thermal-collecting tube bendings of structure at as shown in Figure 4 The first thermal-arrest pipe unit small heat collection unit, using close right side by side at the top of the support portion 1312 of the small heat collection unit and arc Neat structure welding is integrated, and is then again symmetrical arranged the thermal-collecting tube of load receiving part using structure disperses as shown in Figure 4, according to this The weight for dispersing entire small heat collection unit prevents hollow to further make load receiving part have preferable load bearing effect Thermal-collecting tube deformation, is arranged with casing in the end of load receiving part, makes load-bearing more reliable and more stable with this.

Identical as above-mentioned principle, the second thermal-arrest pipe unit is when arranged side by side, in order to enable forming an inclination at top Face effectively prevent sunlight to be lost, for form the length arc length of thermal-collecting tube of the second thermal-arrest pipe unit fix and pipe range successively Successively decrease, support portion and load receiving part are set as identical structure with the support portion of the first thermal-arrest pipe unit and load receiving part, and successively right The nozzle of load receiving part is made to match respectively with the circular hole on the first isocon and the second isocon as shown in Figs. 8 to 11 after neat It closes, is finally combined into heat collector as shown in Figure 1.

As shown in Fig. 4, Fig. 8 and Fig. 9, the first isocon 11 and the second isocon 12 in the present embodiment are equal along pipe range direction Several dividing cells 111 are arranged at intervals with, dividing cell 111 is connected with the nozzle of load receiving part 1313 respectively, and shunts single Member 111 successively penetrates through setting by the first thermal-arrest pipe unit 131 and the second thermal-arrest pipe unit 132 arranged side by side.Dividing cell Setting be utilized on isocon the side of the barrier sheet 112 for uniformly preventing liquid medium from flowing directly to along isocon length direction What formula was designed, i.e., barrier sheet is inserted radially into the fluting being opened on isocon, so that blocking the axial direction of liquid medium Flowing makes liquid medium in the dividing cell of the first isocon flow to the other end along one end of thermal-collecting tube according to this and flows to the In the dividing cell of two isocons, it is set to as shown in Figure 10 in order to enable adjacent dividing cell can successively penetrate through connection 8 diffluence pass 122 are provided only in the dividing cell at the first isocon both ends, in remaining dividing cell and the second isocon It is all set in 16 diffluence pass 122 in dividing cell, shunts the dividing cell on the first isocon with second Dividing cell on pipe successively penetrates through.

Thermal-collecting tube is needed to carry out clearly in obstruction or long-term use process when heating fused salt flows in thermal-collecting tube in order to prevent Blowdown is washed, as shown in figure 11, is respectively corresponded in the dividing cell 111 of the first isocon 11 and is provided with sewage pipe 112.

In the present embodiment, as can be seen from figures 8 and 9, which further includes for setting up the first isocon 11 and second The heat-insulating bracket 17 of isocon 12, and the work shape channel steel 16 for setting up heat-insulating bracket 17, heat-insulating bracket 17 is along work shape channel steel 16 length directions are uniformly arranged, and the supporting walls of work shape channel steel 16 are uniformly provided with insulation hole 161, heat-insulating bracket 17 along its length Support base including being anchored on 16 top of work shape channel steel, the U-shaped card slot 171 being set at the top of support base and setting are in U-shaped card Heat insulation foam 172 in slot 151 for being matched respectively with the first isocon 11 and the second isocon 12.It is set by this method Meter, can effectively block the heat from the first isocon 11 and the second isocon 12 and thermal-arrest pipe unit 13, prevent heat stream It loses.

Above structure can be installed in hearth body 2 as shown in figure 12, and pass through the opening 24 in 2 one side wall of hearth body Receive the irradiation of sunlight, in the case where irradiating at night without sunlight with this, plays good heat insulation effect.

The technical principle of the invention is described above in combination with a specific embodiment.These descriptions are intended merely to explain of the invention Principle, and shall not be construed in any way as a limitation of the scope of protection of the invention.Based on the explanation herein, the technology of this field Personnel can associate with other specific embodiments of the invention without creative labor, these modes are fallen within Within protection scope of the present invention.

Claims

1. a kind of heat collector for solar thermal collector, it is characterised in that: including the first isocon set up in parallel and Two isocons, along first isocon and the second isocon length direction strung alongside in first isocon and second point Be used to form above flow tube sunlight shadow surface several groups thermal-arrest pipe unit and respectively with first isocon and/or Second isocon connects the influent stream pipe and outflow tube successively flowed into and out for liquid working substance along several thermal-arrest pipe units, The influent stream pipe and outflow tube are connected with external heat exchanging devices respectively, and the thermal-arrest pipe unit includes for successively setting side by side The the first thermal-arrest pipe unit to form arch heat-absorbent surface is postponed, and for seamlessly transitting after being successively arranged side by side with arch heat-absorbent surface Connection forms the second thermal-arrest pipe unit of inclination heat-absorbent surface, and the first thermal-arrest pipe unit and the second thermal-arrest pipe unit are all provided with It is equipped at the top of arc, connects with two support portions of the both ends perforation connection at the top of the arc, respectively with two support portion perforations Two load receiving parts connect, two load receiving parts are connected with first isocon and the perforation of the second isocon respectively, and described the One thermal-arrest pipe unit and the second thermal-arrest pipe unit have several thermal-collecting tube Side by side groupings to form, and described first after combination The thermal-collecting tube scattering device of the load receiving part of thermal-arrest pipe unit and the second thermal-arrest pipe unit, first isocon or second point Respectively corresponded in the dividing cell of flow tube and be provided with sewage pipe, the heat collector further include for set up first isocon and The heat-insulating bracket of second isocon, and the work shape channel steel for setting up the heat-insulating bracket, the heat-insulating bracket is along the work Shape channel steel length direction is uniformly arranged, and the supporting walls of the work shape channel steel are uniformly provided with insulation hole along its length, and described One isocon and the second isocon are arranged at intervals with several dividing cells along pipe range direction, the dividing cell respectively with institute The nozzle for stating load receiving part is connected, and the dividing cell passes through the first thermal-arrest pipe unit and the second thermal-collecting tube list arranged side by side Successively perforation setting, the pipe range and arc length of the first thermal-arrest pipe unit are disposed as equal, the second thermal-arrest pipe unit to member Pipe range in successively successively decrease setting and arc length it is equal, the heat-insulating bracket includes the support being anchored at the top of the work shape channel steel Seat, the U-shaped card slot that is set at the top of the support base and be arranged in the U-shaped card slot for respectively with described first point The heat insulation foam that flow tube and the second isocon match, the external heat exchanging devices include cryogenic liquid working tank, for will be low Cryogenic liquid working in geothermal liquid working medium tank imports the liquid pump of influent stream pipe, is connected with the outflow tube for storing high temperature The high-temp liquid working medium tank of liquid working substance and the vapour being arranged between the cryogenic liquid working tank and high-temp liquid working medium tank Turbine generation apparatus.