CN109088566A - Solar energy heating electrification component - Google Patents

Abstract

Solar energy heating electrification component, it is the heat-collecting part in solar thermal collector, it is cecum with heat exchanger tube, bellows, heat exchanger tube upper end, the cecum is fixed with vacuum-pumping valve, the nozzle of heat exchanger tube lower end is docked with the nozzle of bellows upper end and is connected, the lower end of bellows is cecum, and bellows is provided with superconduction working medium；The periphery of heat exchanger tube is equipped with water jacket, and the top of water jacket is equipped with water outlet, bottom is equipped with water inlet；Thermoelectric generation film is posted on the outer wall of water-jacket outer wall or bellows；The outer surface of bellows is equipped with solar selectively absorbing coating；Transparent vacuum tube is set on bellows, the lower end of vacuum tube is cecum, and the upper end of vacuum tube and sylphon seal are connected；Solar thermal collector equipped with solar energy heating electrification component, Heat-collecting effect is good, the sun can be made full use of to can be carried out thermal-arrest and power generation, small to the angle restriction of installation, so that installation occupied area is small, can meet building major part resident use, effects of energy saving and emission reduction is good.

Description

Solar energy heating electrification component

Technical field

The present invention relates to field of solar energy utilization, and specifically there is provided a kind of solar energy heating electrification components.

Background technique

Previous solar thermal collector uses the thermal-collecting tube of planomural, so, work of the solar radiation angle to thermal-collecting tube Efficiency has large effect, domestic in China, and most solar thermal collector will usually tilt 8~38 degree of angles and be installed (not wrapping northern some areas), causes solar thermal collector occupied area larger, in today of urbanization, many people are lived in In skyscraper, since roof area is limited, the biggish solar thermal collector of occupied area is unable to satisfy more residents and wants benefit Reach the demand of energy-saving and emission-reduction with solar energy, so that the less effective of energy-saving and emission-reduction；And existing solar thermal collector is using In be only used for water in heating water tank, and on sun-drenched daytime, many residents simultaneously stay out, so that the utilization rate of solar energy It is insufficient；There are also resident in roofing solar panel storing electrical energy for routine use, but solar panel is to building ring The requirement in border is more harsh, needs frequent cleaning and maintenance, and the occupied area of solar panel is bigger, limited roof of storied building Product is not able to satisfy the demand of most of residents.

Summary of the invention

The object of the present invention is to provide a kind of solar energy heating electrification components, instead of the thermal-arrest in original solar thermal collector Pipe, the solar thermal collector equipped with the application solar energy heating electrification component, Heat-collecting effect is good, the sun can be made full use of to can be carried out Collect heat and generating power, it is small to the angle restriction of installation, so that installation occupied area is small, building major part resident use, section can be met Energy emission reduction effect is good.

The technical scheme is that solar energy heating electrification component, it is characterised in that: have heat exchanger tube (11), ripple Manage (21), heat exchanger tube upper end be cecum, the cecum be fixed with vacuum-pumping valve (7), heat exchanger tube lower end nozzle and bellows on The nozzle docking at end is connected, and the lower end of bellows is cecum, and bellows is provided with superconduction working medium (1)；The periphery of heat exchanger tube is equipped with Water jacket (6), the top of water jacket is equipped with water outlet (9), bottom is equipped with water inlet (16)；The outer wall of water-jacket outer wall (10) or bellows On post thermoelectric generation film (12).

It is set on bellows transparent vacuum tube (17), the lower end of vacuum tube is cecum, the upper end of vacuum tube and ripple The seal of tube is connected.

The outer surface of bellows is equipped with solar selectively absorbing coating (5).

The ripple of bellows inner and outer surfaces is continuous curve ripple, each wave crest (19) and each trough in curve ripple (20) radius of curvature is identical or difference ± 1cm.

Several heat transmission fins (3) are fixed on the outer wall of heat exchanger tube.

The surface of water-jacket outer wall is equipped with solar selectively absorbing coating (5).

The vacuum-pumping valve has valve pipe (8), and the lower end of valve pipe and heat exchanger tube are connected, and valve pipe upper end is equipped with screw hole (24), the inner bottom surface of screw hole is equipped with stomata (28), and the lower end of stomata is connected to heat exchanger tube inner space；Spiral shell is sequentially arranged in screw hole The tapered plug (22) of line connection, pressure cap (23), wherein the lower surface of pressure cap is crimped with the upper surface activity of tapered plug, the conical surface of tapered plug (27) it is crimped with the hole of stomata along (29) sealing, the top surface of tapered plug is equipped with groove (25), and the bottom of groove is equipped with inclined hole (26), tiltedly The opening of the hole other end is provided on the conical surface outside stomata (27),

Temperature control mechanism is housed, which has the sunshade of bearing (33), gear (32), rack gear (30) and C-shaped on vacuum tube Watt (31), wherein sunshade watt is buckled in the side of vacuum tube, and sunshade watt and gear are connected, and gear set is on bearing, bearing suit On vacuum tube, rack and pinion engagement connection, the intrados of the sunshade watt is equipped with reflective layer (39).

Temperature control mechanism is housed, which has the sunshade of bearing (33), worm gear (44), worm screw (43) and C-shaped on vacuum tube Watt (31), wherein sunshade watt is buckled in the side of vacuum tube, and sunshade watt and worm gear are connected, and worm gear set is on bearing, bearing suit On vacuum tube, worm gear engages connection with worm screw, and the intrados of the sunshade watt is equipped with reflective layer (39).

Superconduction working medium boiling point≤50 DEG C in the environment of vacuum degree >=0.05Mpa.

Installation and working principle of the invention is: several solar energy heating electrification component arrays use, each thermo-electric generation Piece is electrically connected by electric wire and electrical equipment or electric energy storage device, in each solar energy heating electrification component of water pipe serial or parallel connection Entery and delivery port entery and delivery port of water tank into solar thermal collector is recycled, and a certain amount of superconduction work is filled into bellows Matter is exchanged in heat pipe by vacuum-pumping valve and is vacuumized, and sealed valve.Bellows is made internal superconduction work by sunlight irradiation Matter is by thermal evaporation, and steam rises in heat exchanger tube and exchanges heat to the recirculated water in water jacket, carries out thermal-arrest, and steam condenses after heat exchange It returns in bellows and recycles for liquid flow；Thermoelectric generation film in component is then carried out not using the temperature difference that thermal-arrest heat transfer process generates Intermittent power generation, the electricity of sending are conveyed to electrical equipment or storage device electric.

The invention has the advantages that the circular arc of the Wave crest and wave trough of bellows surface and the circular arc of tube body are in both direction transition, It is wide in range to receive solar irradiation angle, keeps its setting angle wide in range, power generation uses thermo-electric generation, not by the irradiation angle shadow of sunlight It rings, to accomplish that installing area occupied minimizes, not only installation can be carried out using conventional angle and receive sunlight irradiation, may be used also It is installed in a manner of using vertical wall hanging and receives sunlight irradiation, solar energy heating electrification component can be mounted on to resident's sunny slope External wall or balcony on, to meet building major part resident use, effects of energy saving and emission reduction is good.And equivalent diameter, length Bellows is 2-4 times bigger than the surface area of walled tube, and Heat-collecting effect is more preferably；Superconduction working medium becomes on steam in bellows interior heat When row, there is part because temperature is uneven or low temperature when end vaporizes complete small liquid bead, it can be in Wave crest and wave trough during uplink It is attached under blocking on tube wall and continues heating vaporization, further increase collecting efficiency.The present invention organically ties collection heat and generating power It is combined, solar energy is adequately utilized.

The bellows of the curve ripple of use carries out auxiliary thermal-arrest using vacuum tube, thermal-arrest it is more efficient；Thermally conductive wing Piece can improve heat exchange efficiency；Solar selectively absorbing coating can be further improved collecting efficiency；The vacuum pumping valve of limiting structure Door, can vacuumize or heat emptying after can close sealing rapidly, utmostly reduce air secondary enter, avoid influence heat exchanger tube With the vacuum degree in bellows, pressure cap secondary compression and tapered plug is protected；Made by push-and-pull rack drives gear rotation described Sunshade watt goes to the upper surface of vacuum tube or below or side, can be with needing exposed or part, all covering evacuated pipe according to thermal-arrest Heating surface area, can be blocked when sunshade watt is on vacuum tube sunlight irradiation, at side can shield portions sunlight irradiation, make to collect Thermal process is controllable, and when sunshade watt is below vacuum tube, the back of reflecting coating energy reflected sunlight to vacuum tube in sunshade watt is positive Face then increases collecting efficiency；(such as hail, typhoon weather) in inclement weather, sunshade FE Tiler are protected in the outside of vacuum tube Vacuum tube avoids vacuum tube from hitting breakage because of external force.

Figure of description

Fig. 1 is the structural schematic diagram of solar energy heating electrification component of the present invention.

Fig. 2 is the partial enlargement diagram of vacuum-pumping valve in Fig. 1.

Fig. 3 is another structural schematic diagram of solar energy heating electrification component of the present invention.

Fig. 4 is the usage state diagram of solar energy heating electrification component of the present invention.

Fig. 5 is another usage state diagram of solar energy heating electrification component of the present invention.

Fig. 6 is another structural schematic diagram of solar energy heating electrification component of the present invention.

Fig. 7 is solar energy heating electrification component assembled state schematic diagram of the present invention.

1 superconduction working medium, the blocking of 2 rubber, 3 heat transmission fins, 4 thermal energy exchange storehouses, 5 solar selectively absorbing coatings, 6 in figure Water jacket, 7 vacuum-pumping valves, 8 valve pipes, 9 water outlets, 10 water-jacket outer walls, 11 heat exchanger tubes, 12 thermoelectric generation films, 13 electric wires, 14 storages Equipment, 15 insulating layers, 16 water inlets, 17 vacuum tubes, 18 heat-conducting glues, 19 wave crests, 20 troughs, 21 bellowss, 22 tapered plugs, 23 pressures Cap, 24 screw holes, 25 grooves, 26 inclined holes, 27 conical surfaces, 28 stomatas, 29 holes edge, 30 rack gears, 31 sunshades watt, 32 gears, 33 bearings, 34 Silk seat, 35 screws, 36 screw rods, 37 motors, 38 pedestals, 39 reflective layers, 40 brackets, 41 windows, 42 external walls, 43 worm screws, 44 Worm gear, 45 circulating water pipes, 46 circulating water outlets, 47 incubators, 48 circulation water inlets, 49 transparent cover plates.

Specific embodiment

The application solar energy heating electrification component is further described with reference to the accompanying drawing, as shown in Figure 1, the solar energy It is cecum that thermal-arrest electrification component, which has heat exchanger tube 11, bellows 21, heat exchanger tube upper end, which is fixed with vacuum-pumping valve 7, changes The nozzle of heat pipe lower end is docked with the nozzle of bellows upper end to be connected, and the lower end of bellows is cecum, and bellows is provided with superconduction Working medium 1；The periphery of heat exchanger tube is equipped with water jacket 6, and the top of water jacket is equipped with water outlet 9, bottom is equipped with water inlet 16；Water-jacket outer wall 10 Or thermoelectric generation film 12 is posted on the outer wall of bellows.

The outer surface of bellows is equipped with solar selectively absorbing coating 5；Solar selectively absorbing coating is that black chromium applies Layer, black nickel coating, black cobalt coating etc..

The heat exchanger tube inner space constitutes thermal energy exchange storehouse 4, and bellows interior space constitutes thermal-arrest boiling storehouse.Heat exchange Pipe and bellows are metal material, heat exchanger tube described in the present embodiment, bellows, the preferred copper of heat exchange valve, aluminium, stainless steel Material, the nozzle of heat exchanger tube lower end is docked with the nozzle of bellows upper end to be connected using welding, welding or integrated molding, described to change The internal volume of heat pipe is greater than the internal volume of bellows.

The thermoelectric generation film is commercial goods, and thermoelectric generation film is widely used in the fields such as sensor, wireless telecommunications Self continued power has the temperature difference that can generate voltage, and voltage is related with temperature difference size, in this application, thermogenetic due to collecting The temperature difference is larger (especially winter), and the efficiency of power generation will be very high.Thermoelectric generation film is not influencing thermal recovery collection, is exporting to make In the case where, the installation on water-jacket outer wall maximizes as far as possible, increases electric power output；Furthermore made according to power generation, thermal energy With situation, several thermoelectric generation films are sticked in ripple tube outer surface half or so, opaco are attached to, since ripple tube outer surface is Corrugated surface, so heat-conducting glue 18 is filled between bellows and thermoelectric generation film, since vacuum tube environment temperature is greater than ripple Pipe temperature thermal energy is exported, and thermoelectric generation film generates power generation effect, the electricity consumption that thermoelectric generation film passes through electric wire 13 and outside in turn Equipment or storage device electric 14 electrically connect.

The superconduction working medium full name is superconduction working media, belongs to common working media in solar thermal collector, is surpassed Lead working medium preferably in the environment of vacuum degree >=0.05Mpa boiling point≤50 DEG C superconduction working medium.Filling is in ripple in the present embodiment Superconduction working medium in pipe is dehydrated alcohol, which can also be superconducting liquid, conductive fluid, distilled water etc., but generally not Use coolant liquid and conduction oil.In the present embodiment, heat exchanger tube evacuated pressure 0.083Mpa (table is aobvious), when temperature reaches in bellows At 39 DEG C, dehydrated alcohol comes to life；The volume of the water jacket is set as needed, and can set insulating layer on water jacket when necessary 15；

Transparent vacuum tube 17 is set on bellows, the lower end of vacuum tube is cecum, the upper end of vacuum tube and bellows Sealing is connected；The vacuum tube is all-glass vacuum tube.The vacuum tube is close with corresponding bellows by rubber blocking 2 Sealing connects, and rubber blocks in a ring, and inner ring surface seals hoop on bellows, and bellows is equipped with planomural corresponding with the blocking Section is sealed connected, the outer ring surface and vacuum tube nozzle of rubber blocking between rubber blocking and bellows using sealant Inner ring surface sealing be connected, when necessary can also gluing auxiliary sealing is fixed.

The ripple of bellows inner and outer surfaces is continuous curve ripple, each wave crest 19 and each trough 20 in curve ripple Radius of curvature is identical or difference ± 1cm.

Several heat transmission fins 3 are fixed on the outer wall of heat exchanger tube.In the present embodiment, heat transmission fin is coiled in the shape of a spiral On heat exchanger tube, advantage is can to guide water flow in water jacket that water flow is sufficiently stirred using swirling flow, makes heat transfer effect more in the shape of a spiral Good, the heat transmission fin can also be in aliform or blade type etc., and when necessary, the outer surface of the heat exchanger tube is also designed to ripple table Face, purpose are provided to increase the heat exchange area of heat exchanger tube, improve heat exchange efficiency.

When water jacket outer surface does not set insulating layer, the surface of water-jacket outer wall is equipped with solar selectively absorbing coating 5.Into one Step adequately utilizes solar energy, solar selectively absorbing coating can also be equipped in the sunny slope of water jacket, in the opaco of water jacket If insulating layer.

Conventional vacuum-pumping valve can be used in the vacuum pumping valve, and the pumping that the application also provides a kind of limiting structure is true Empty valve.As shown in Figure 2: the vacuum-pumping valve has valve pipe 8, and the lower end of valve pipe and heat exchanger tube are connected, and valve pipe upper end is equipped with spiral shell The inner bottom surface in hole 24, screw hole is equipped with stomata 28, and the lower end of stomata is connected to heat exchanger tube inner space；Screw thread is sequentially arranged in screw hole The tapered plug 22 of connection, pressure cap 23, wherein the lower surface of pressure cap is crimped with the upper surface activity of tapered plug, the conical surface 27 and gas of tapered plug Along 29 sealing crimping, the top surface of tapered plug is equipped with groove 25 in the hole in hole, and the bottom of groove is equipped with inclined hole 26, the opening of the inclined hole other end It is provided on the conical surface 27 outside stomata.

Due to using bellows thermal-arrest, so the setting angle of the application solar energy heating electrification component array is more wide It is general, as shown in figure 4, can be installed by bracket 40, it can also be as shown in figure 5, being mounted under day side window 41 by hanger On external wall 42.

In order to make thermal-arrest process control, it is also equipped with temperature control mechanism on the vacuum tube, present embodiments provides two kinds of controls Warm device:

It is as shown in Figure 3: the specific structure of the first temperature regulating device are as follows: temperature control mechanism to be housed, which has on vacuum tube The sunshade watt 31 of bearing 33, gear 32, rack gear 30 and C-shaped, wherein sunshade watt is buckled in the side of vacuum tube, and sunshade watt and gear are solid Even, gear set is on bearing, and bearing holder (housing, cover) is on vacuum tube, rack and pinion engagement connection, the inner arc of the sunshade watt Face is equipped with reflective layer 39.

It is as shown in Figure 6: the specific structure of second of temperature regulating device are as follows: temperature control mechanism to be housed, which has on vacuum tube The sunshade watt 31 of bearing 33, worm gear 44, worm screw 43 and C-shaped, wherein sunshade watt is buckled in the side of vacuum tube, and sunshade watt and worm gear are solid Even, worm gear set is on bearing, and for bearing holder (housing, cover) on vacuum tube, worm gear engages connection, the inner arc of the sunshade watt with worm screw Face is equipped with reflective layer 39.

The reflective layer be reflective paint layer or reflexed light film or polishing after be in mirror surface metal layer or metal foil layer.

Wherein, although rack-and-pinion temperature control device can change the position of sunshade watt by Manual push-pull rack gear, in order to subtract Light manpower burden, runs equipment automatization, the solar energy heating electrification component of the application also has rack gear control mechanism, the machine Structure includes pedestal 38, motor 37, screw rod 36, screw 35, and the shell of the motor is fixed on the base, and the both ends of screw rod pass through Silk seat 34 is rotatably connected on pedestal, and pedestal is mounted on predetermined position by bracket 40, the output shaft and screw rod of motor be connected or Power connection, screw are connect with wire rod thread, and screw and the rack gear are connected, and when motor operation, screw rod rotation makes screw Displacement, so that screw be made to drive rack displacement, rack displacement drives corresponding gear, to rotate sunshade watt；Similarly, worm screw can To be rotated by manual actuation, i.e., crank is installed in one end of worm screw, can also be driven by motor；Above-mentioned two mechanism can routinely skill Art installs controller, to realize long-range control motor rotation, motor uses stepper motor, can rotate by set angle, realizes Automation control.

As shown in Figure 7: the solar energy heating electrification component array arrangement of the application is mounted in incubator 47, incubator Equipped with transparent cover plate 49 made of glass or organic glass or PC plate etc., remaining side plate is made sunny slope of thermal insulation material, transparent Cover board can open and close, and convenient for detection maintenance, incubator is equipped with circulating water outlet 46 and circulation water inlet 48, solar energy collection Circulating water pipe 45 in hot device enters in incubator by circulation water inlet, after pile warp solar energy heating electrification component array by recycling Water out is pierced by, and the entery and delivery port of each solar energy heating electrification component is by design and circulating water pipe connection.Incubator is to solar energy Thermal-arrest electrification component array can play the role of dust-proof, heat preservation, secondary thermal-arrest；When necessary, isolation can be set in incubator Vacuum tube is isolated in the independent sealing space of incubator, further increases the effect of heat preservation, thermal-arrest by sealing structure.

It will be apparent to a skilled person that in order to preferably show product structure, Figure of description not according to The ratio of actual products, pattern are drawn, only the displaying as summary of the invention structure, and the range of the application protection is not by attached drawing Disclosure is limited.

Claims (10)

1. solar energy heating electrification component, it is characterised in that: it is blind for having heat exchanger tube (11), bellows (21), heat exchanger tube upper end End, which is fixed with vacuum-pumping valve (7), the nozzle of heat exchanger tube lower end is docked with the nozzle of bellows upper end and is connected, ripple The lower end of pipe is cecum, and bellows is provided with superconduction working medium (1)；The periphery of heat exchanger tube is equipped with water jacket (6), and the top of water jacket is equipped with Water outlet (9), bottom are equipped with water inlet (16)；Thermoelectric generation film (12) are posted on water-jacket outer wall (10) or the outer wall of bellows.

2. solar energy heating electrification component according to claim 1, it is characterised in that: be set on bellows transparent true Blank pipe (17), the lower end of vacuum tube are cecum, and the upper end of vacuum tube and sylphon seal are connected.

3. solar energy heating electrification component according to claim 1, it is characterised in that: the outer surface of bellows is equipped with the sun It can coating for selective absorption (5).

4. solar energy heating electrification component according to claim 1, it is characterised in that: the ripple of bellows inner and outer surfaces For continuous curve ripple, in curve ripple, each wave crest (19) is identical as the radius of curvature of each trough (20) or difference ± 1cm.

5. solar energy heating electrification component according to claim 1, it is characterised in that: if being fixed on the outer wall of heat exchanger tube Dry heat transmission fin (3).

6. solar energy heating electrification component according to claim 1, it is characterised in that: the surface of water-jacket outer wall is equipped with the sun It can coating for selective absorption (5).

7. solar energy heating electrification component according to claim 1, it is characterised in that: the vacuum-pumping valve has valve It manages (8), the lower end of valve pipe and heat exchanger tube are connected, and valve pipe upper end is equipped with screw hole (24), and the inner bottom surface of screw hole is equipped with stomata (28), gas The lower end in hole is connected to heat exchanger tube inner space；Tapered plug (22), the pressure cap (23) of threaded connection are sequentially arranged in screw hole, wherein The lower surface of pressure cap is crimped with the upper surface activity of tapered plug, and the conical surface (27) of tapered plug is crimped with the hole of stomata along (29) sealing, is bored The top surface of plug is equipped with groove (25), and the bottom of groove is equipped with inclined hole (26), and the opening of the inclined hole other end is provided at outside stomata The conical surface (27) on.

8. solar energy heating electrification component according to claim 1, it is characterised in that: temperature control mechanism is housed on vacuum tube, The mechanism has the sunshade watt (31) of bearing (33), gear (32), rack gear (30) and C-shaped, and wherein sunshade watt is buckled in vacuum tube Side, sunshade watt and gear are connected, and gear set is on bearing, and bearing holder (housing, cover) is on vacuum tube, rack and pinion engagement connection, The intrados of the sunshade watt is equipped with reflective layer (39).

9. solar energy heating electrification component according to claim 1, it is characterised in that: temperature control mechanism is housed on vacuum tube, The mechanism has the sunshade watt (31) of bearing (33), worm gear (44), worm screw (43) and C-shaped, and wherein sunshade watt is buckled in vacuum tube Side, sunshade watt and worm gear are connected, and worm gear set is on bearing, and for bearing holder (housing, cover) on vacuum tube, worm gear engages connection with worm screw, The intrados of the sunshade watt is equipped with reflective layer (39).

10. solar energy heating electrification component according to claim 1, it is characterised in that: the superconduction working medium is in vacuum Boiling point≤50 DEG C in the environment of degree >=0.05Mpa.