CN203837297U - Solar heat collection device with reflective mirror array - Google Patents

Solar heat collection device with reflective mirror array Download PDF

Info

Publication number
CN203837297U
CN203837297U CN201420268556.4U CN201420268556U CN203837297U CN 203837297 U CN203837297 U CN 203837297U CN 201420268556 U CN201420268556 U CN 201420268556U CN 203837297 U CN203837297 U CN 203837297U
Authority
CN
China
Prior art keywords
reflective mirror
mirror array
heat collector
reflective
main support
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201420268556.4U
Other languages
Chinese (zh)
Inventor
杨发
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN201420268556.4U priority Critical patent/CN203837297U/en
Application granted granted Critical
Publication of CN203837297U publication Critical patent/CN203837297U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/47Mountings or tracking

Landscapes

  • Optical Elements Other Than Lenses (AREA)

Abstract

The utility model provides a solar heat collection device with a reflective mirror array. The solar heat collection device comprises the reflective mirror array and a heat collector (18), the reflective mirror array comprises a plurality of reflective mirrors (15), an adjusting mechanism which can adjust the angle of the reflective mirrors (15) and enable sun light (21) reflected by the reflective mirrors (15) to irradiate the heat collector (18) is arranged on the back faces of the reflective mirrors (15), and the adjusting mechanism comprises a reflective mirror array main support (1) used for supporting the reflective mirrors (15), a plurality of adjusting units used for adjusting the angles of reflective mirrors (15) and adjusting connecting rods (6) connected with the adjusting units. The solar heat collection device with the reflective mirror array of the vertical structure enlarges the receiving area of solar energy, and therefore the use efficiency of the solar energy can be improved, and the device is especially suitable for high-latitude areas with the low sun irradiation angle in the heating period in winter. In addition, the reflective mirror array is arranged vertically, and the occupied area can be saved.

Description

A kind of reflective mirror array solar heat collector
Technical field
The utility model relates to technical field of solar energy utilization equipment, and concrete is a kind of device that utilizes reflective mirror array that solar energy collecting is generated heat of vertical structure.
Background technology
Along with the minimizing gradually of fossil fuel, people need to greatly develop regenerative resource.Solar energy is inexhaustible regenerative resource.Because solar energy density is low, existing solar energy heat collector, as lower in the efficiency of thermal-collecting tube type solar energy heat collector, especially in the winter time or when sunshine, situation was bad, can not well satisfy the demands, solar energy receiving device adopts high-order installation mostly in addition, cause windward side larger, heat loss is larger, thus need to adopt the mode of optically focused to improve the density of solar energy, thus improve the utilization ratio of solar energy.
Utility model content
In order to solve the low technical problem of solar energy utilization ratio in prior art.The utility model provides a kind of reflective mirror array solar heat collector, and this reflective mirror array solar heat collector has expanded the receiving area of solar energy, thereby can improve the service efficiency of solar energy.
The utility model is that the technical scheme that solves its technical problem employing is: a kind of reflective mirror array solar heat collector, comprise reflective mirror array and heat collector, described reflective mirror array contains multiple reflective mirrors, the back side of reflective mirror is provided with the guiding mechanism that can adjust the angle of reflective mirror and make the sunray directive heat collector of reflective mirror reflection, and described guiding mechanism comprises reflective mirror array main support for supporting reflective mirror, for adjusting multiple adjustment units of reflective mirror angle and the regulating connecting rod being connected with adjustment unit.
Reflective mirror in this reflective mirror array is with the setting of arranging of regular ranks, and multirow reflective mirror is with direction setting from low to high.
Reflective mirror array main support is between regulating connecting rod and reflective mirror, described adjustment unit comprises reflective mirror fixed mount, reflective mirror angular adjustment bar and the projection that is arranged on regulating connecting rod surface, described projection is focusing slideway towards the surface of reflective mirror, one end of reflective mirror fixed mount is fixedly connected with reflective mirror array main support, the other end and the reflective mirror of reflective mirror fixed mount are rotationally connected, one end and the reflective mirror of reflective mirror angular adjustment bar are rotationally connected, the other end of reflective mirror angular adjustment bar contacts with the focusing slideway of described lug surface, in the time that regulating connecting rod moves along the length direction of regulating connecting rod, reflective mirror angular adjustment bar also can be crossed along the length direction of reflective mirror angular adjustment bar and move.
Reflective mirror angular adjustment bar is connected with reflective mirror array main support by sliding bearing, and reflective mirror angular adjustment bar can be along moving back and forth perpendicular to the direction of reflective mirror array main support.
The focusing slideway butt of the other end of reflective mirror angular adjustment bar and described lug surface, is provided with spring between reflective mirror and reflective mirror array main support, and one end of spring is connected with reflective mirror, and the other end of spring is connected with reflective mirror array main support.
The focusing slideway of described lug surface contains the chute that cross section is T shape, and size and shape and the chute of the other end of reflective mirror angular adjustment bar match, and the other end of reflective mirror angular adjustment bar is plugged in described chute.
Reflective mirror angular adjustment bar is vertical with reflective mirror array main support, and reflective mirror array main support is parallel with regulating connecting rod.
Described guiding mechanism also comprises drive unit and sunshine automatic tracing device, and this drive unit can drive regulating connecting rod to move along the length direction of regulating connecting rod, and sunshine automatic tracing device is arranged between described reflective mirror array and heat collector.
Described adjustment unit comprises reflective mirror adjusting rod, and one end and the regulating connecting rod of reflective mirror adjusting rod are rotationally connected, and the other end of reflective mirror adjusting rod is connected with reflective mirror, and reflective mirror and reflective mirror array main support are rotationally connected.
The other end of reflective mirror adjusting rod is provided with reflective mirror installation shaft, reflective mirror installation shaft is fixedly connected with reflective mirror, reflective mirror installation shaft is provided with hole, reflective mirror array main support is fixedly connected with focusing fixed screw, focusing fixed screw is plugged in described hole, and reflective mirror adjusting rod and reflective mirror can rotate taking focusing fixed screw as axle.
The beneficial effects of the utility model are: the reflective mirror array solar heat collector of this vertical structure has expanded the receiving area of solar energy, thereby can improve the service efficiency of solar energy, be specially adapted to the warming phase that high latitude area sun low angle irradiates.In addition, this reflective mirror array is vertical type setting, can also save floor occupying area.
Brief description of the drawings
Below in conjunction with accompanying drawing, reflective mirror array solar heat collector described in the utility model is described in further detail.
Fig. 1 is the structural representation of the first reflective mirror array solar heat collector.
Fig. 2 is the enlarged diagram at A position in Fig. 1.
Fig. 3 is the structural representation of the second reflective mirror array solar heat collector.
Fig. 4 is the enlarged diagram at B position in Fig. 3.
Fig. 5 is the schematic perspective view of reflective mirror array.
Fig. 6 is the use schematic diagram of reflective mirror array solar heat collector.
Wherein 1. reflective mirror array main supports, 2. sliding bearing, 3. elevation angle fixed support, 4. focalizer, 5. reflective mirror angular adjustment bar, 6. regulating connecting rod, 7. motor, 8. motor fixed rack, 9. synchronous-focusing universal driving shaft, 10. universal driving shaft fixed support, 11. reflective mirror connecting axles, 12. reflective mirror fixed axis, 13. focusing slideways, 14. reflective mirror fixed mounts, 15. reflective mirrors, 16. sunshine automatic tracing devices, 17. automatic tracing device supports, 18. heat collectors, 19. collector brackets, 20. bases, 21. sunrays, 22. springs;
32. motors, 33. universal driving shaft focusing drive rods, 34. elevation angle fixed supports, 35. synchronous-focusing universal driving shafts, 36. adjusting rod connecting axles, 37. reflective mirror adjusting rods, 38. reflective mirror installation shaft, 39. focusing fixed screws;
51. accumulation of energy stations, 52. circulating pumps, 53. heat exchanging water storage tanks, 54. radiators, 55. users.
Detailed description of the invention
Below in conjunction with accompanying drawing, reflective mirror array solar heat collector described in the utility model is described in further detail.A kind of reflective mirror array solar heat collector, comprise reflective mirror array and heat collector 18, described reflective mirror array contains multiple reflective mirrors 15, the back side of reflective mirror 15 is provided with the guiding mechanism that can adjust the angle of reflective mirror 15 and make sunray 21 whole directive heat collectors 18 that reflective mirror 15 reflects, described guiding mechanism comprises reflective mirror array main support 1 for supporting reflective mirror 15, for adjusting multiple adjustment units of reflective mirror 15 angles and the regulating connecting rod 6 being connected with adjustment unit, as shown in figures 1 and 3.
As shown in Figure 1, when sun altitude is 31 °, sunray 21 converges at heat collector 18 after reflective mirror 15 reflections in described reflective mirror array, heat collector 18 is existing apparatus, due to the existence of reflective mirror array, expanded the receiving area of solar energy, thereby can improve widely the service efficiency of solar energy, had this reflective mirror array after this reflective mirror array solar heat collector be enhanced with respect to the efficiency of existing solar energy heat collection pipe.In the time that sun altitude changes, described guiding mechanism can be adjusted the angle of each reflective mirror 15 in described reflective mirror array, makes sunray 21 can converge at all the time heat collector 18, thereby further improves the service efficiency of solar energy.Be specially adapted to the warming phase that high latitude area sun low angle irradiates.
In order to reduce the floor space of this reflective mirror array, the reflective mirror 15 in this reflective mirror array, with the setting of neatly arranging of regular ranks, as shown in Figure 5, in the horizontal direction, contains multirow reflective mirror 15 in this reflective mirror array, and every row contains multiple reflective mirrors 15; In the vertical direction, contains multiple row reflective mirror 15 in this reflective mirror array, and every row contain multiple reflective mirrors 15.Multirow reflective mirror 15 is with direction setting from low to high, and reflective mirror 15 a line are higher than a line, thus reduce the floor space of this reflective mirror array.
Concrete, described guiding mechanism comprises reflective mirror array main support 1 for supporting reflective mirror 15 and for adjusting the adjustment unit of each reflective mirror 15 angles.This adjustment unit is corresponding one by one with reflective mirror 15, and adjustment unit can regulate the angle of reflective mirror 15 corresponding thereto and horizontal plane, thereby when after the Angulation changes of incident ray, reflection ray is directive heat collector 18 all the time, raising collecting efficiency.In order to reduce the floor space of this reflective mirror array, reflective mirror array main support 1 arranges in upright mode, and as shown in Figure 1, reflective mirror array main support 1 is 76 ° with the angle of horizontal plane, and reflective mirror 15 is all arranged on reflective mirror array main support 1.
Described adjustment unit can have at least two kinds of implementations: in the time that described adjustment unit is the first, reflective mirror array main support 1 is between regulating connecting rod 6 and reflective mirror 15, described adjustment unit comprises reflective mirror fixed mount 14, reflective mirror angular adjustment bar 5 and the projection that is arranged on regulating connecting rod 6 surfaces, projection is fixedly connected with regulating connecting rod 6, described projection is focusing slideway 13 towards the surface of reflective mirror 15, one end of reflective mirror fixed mount 14 is fixedly connected with reflective mirror array main support 1, the other end of reflective mirror fixed mount 14 and reflective mirror 15 are rotationally connected, one end and the reflective mirror 15 of reflective mirror angular adjustment bar 5 are rotationally connected, the other end of reflective mirror angular adjustment bar 5 contacts with the focusing slideway 13 of described lug surface, in the time that regulating connecting rod 6 moves along the length direction of regulating connecting rod 6, reflective mirror angular adjustment bar 5 also can be crossed along the length direction of reflective mirror angular adjustment bar 5 and move.As shown in Figure 2, reflective mirror angular adjustment bar 5 just can make reflective mirror 15 rotate after moving like this, thereby regulates the angle of reflective mirror 15 and horizontal plane, thereby the angle of change reflection ray makes the light that all reflective mirrors 15 reflect all the time can directive heat collector 18.
Concrete, as shown in Figure 2, the other end of reflective mirror fixed mount 14 is provided with reflective mirror fixed axis 12, and the back side of reflective mirror 15 is fixedly connected with the first axle sleeve, and reflective mirror fixed axis 12 is inserted in the first axle sleeve.One end of reflective mirror angular adjustment bar 5 is provided with reflective mirror connecting axle 11, the back side of reflective mirror 15 is fixedly connected with the second axle sleeve, reflective mirror connecting axle 11 is inserted in the second axle sleeve, and reflective mirror angular adjustment bar 5 just can make reflective mirror 15 rotate taking reflective mirror fixed axis 12 as axle after moving left and right like this.
Described projection is focusing slideway 13 towards the surface of reflective mirror 15, the other end of reflective mirror angular adjustment bar 5 can slide on focusing slideway 13, focusing slideway 13 can be inclined-plane, the concrete angle of inclination of each focusing slideway 13 need to specifically arrange with the parameter such as distance, the excursion of sun altitude of reflective mirror 15 according to the height of concrete heat collector 18, heat collector 18, in any case incident ray is changed, and its reflection ray all the time can directive heat collector 18 after the reflection of reflective mirror 15.Or focusing slideway 13 can be also cambered surface.In addition, for the ease of whole better directive heat collectors 18 of reflection ray, reflective mirror angular adjustment bar 5 is provided with the focalizer 4 for regulating reflective mirror angular adjustment bar 5 length.
Reflective mirror angular adjustment bar 5 is connected with reflective mirror array main support 1 by sliding bearing 2, and reflective mirror angular adjustment bar 5 can be along moving back and forth perpendicular to the direction of reflective mirror array main support 1.The length of reflective mirror angular adjustment bar 5 can regulate by focalizer 4, the two ends of focalizer 4 are provided with screwed hole, reflective mirror angular adjustment bar 5 is to be inserted in respectively two screw rods of screwed hole, thereby can change the length of reflective mirror angular adjustment bar 5 by rotary screw or focalizer 4.
Focusing slideway 13 butts of the other end of reflective mirror angular adjustment bar 5 and described lug surface, in order to improve the degree of regulation of reflective mirror angular adjustment bar 5, are provided with spring 22 between reflective mirror 15 and reflective mirror array main support 1.As shown in Figure 2, one end of spring 22 is connected with reflective mirror 15, and the other end of spring 22 is connected with reflective mirror array main support 1, thereby makes the reflective mirror angular adjustment bar 5 can be all the time and focusing slideway 13 butts.Or the focusing slideway 13 of described lug surface contains the chute that cross section is T shape, size and shape and the chute of the other end of reflective mirror angular adjustment bar 5 match, and the other end of reflective mirror angular adjustment bar 5 is plugged in described chute.Due to the cooperation of shape, the other end of reflective mirror angular adjustment bar 5 can be fixed in described chute and slide.
In addition, reflective mirror angular adjustment bar 5 is vertical with reflective mirror array main support 1, and reflective mirror array main support 1 is parallel with regulating connecting rod 6, and reflective mirror fixed mount 14 is vertical with reflective mirror array main support 1, as shown in Figure 2.
Described guiding mechanism also comprises drive unit, sunshine automatic tracing device 16 and control module, this drive unit can drive regulating connecting rod 6 to move along the length direction of regulating connecting rod 6, and sunshine automatic tracing device 16 is arranged between described reflective mirror array and heat collector 18.Sunshine automatic tracing device 16 can be for measuring the incidence angle of sunshine or the angle of reflection of the light that reflective mirror 15 reflects automatically, in the time of the Angulation changes of incident ray, the angle of reflection of the light that existing sunshine automatic tracing device 16 can reflect the reflective mirror measuring 15 is sent to described control module, this this drive unit of control module control makes the distance that drives regulating connecting rod 6 to move along the length direction of regulating connecting rod 6, as shown in Figure 2, when sunshine automatic tracing device 16 detects after the Angulation changes of the light that reflective mirror 15 reflects, this drive unit makes to drive regulating connecting rod 6 to move up or down certain distance, then reflective mirror angular adjustment bar 5 also will move along left or right, reflective mirror 15 rotates the sunshine directive heat collector 18 all the time that makes reflection thereupon.
Drive unit comprises motor 7 and the synchronous-focusing universal driving shaft 9 being connected with motor 7, motor 7 and the even existing apparatus of synchronous-focusing universal driving shaft 9.When sunshine automatic tracing device 16 detects after the Angulation changes of the light that reflective mirror 15 reflects, this control module can be controlled the rotational angle of motor 7, synchronous-focusing universal driving shaft 9 makes regulating connecting rod 6 move up or down the distance of setting, thereby completes the angular adjustment of reflective mirror 15.This drive unit also can adopt other devices such as hydraulic cylinder, as long as can drive regulating connecting rod 6 to move back and forth along its length, and this displacement is controlled, and this content is prior art, no longer repeats.Drive unit also comprises motor fixed rack 8 and universal driving shaft fixed support 10.
In addition, the device in the present embodiment also comprises: elevation angle fixed support 3, automatic tracing device support 17, collector bracket 19, base 20.The effect of elevation angle fixed support 3 is mainly the angle of inclination that regulates reflective mirror array main support 1, ensure high latitude area at all seasons the reflective mirror in (especially winter) reflective mirror array can both receive and utilize solar energy.
Described adjustment unit can have at least two kinds of implementations: in the time that described adjustment unit is the second, described adjustment unit comprises reflective mirror adjusting rod 37, one end of reflective mirror adjusting rod 37 and regulating connecting rod 6 are rotationally connected, the other end of reflective mirror adjusting rod 37 is connected with reflective mirror 15, reflective mirror 15 is rotationally connected with reflective mirror array main support 1, as shown in Figure 3 and Figure 4.Regulating connecting rod 6 will drive reflective mirror adjusting rod 37 to rotate after moving like this, then drive reflective mirror 15 to rotate to change the angle of reflective mirror 15 and horizontal plane, thereby change the angle of reflection ray, make it all the time can directive heat collector 18.
As shown in Figure 4, the other end of reflective mirror adjusting rod 37 is provided with reflective mirror installation shaft 38, reflective mirror installation shaft 38 is fixedly connected with reflective mirror 15, reflective mirror installation shaft 38 is provided with hole, reflective mirror array main support 1 is fixedly connected with focusing fixed screw 39, focusing fixed screw 39 is plugged in described hole, and reflective mirror adjusting rod 37 and reflective mirror 15 can rotate taking focusing fixed screw 39 as axle.Regulating connecting rod 6 is provided with adjusting rod connecting axle 36, and one end of reflective mirror adjusting rod 37 and adjusting rod connecting axle 36 are rotationally connected.Like this regulating connecting rod 6 up or down mobile after by drives reflective mirror adjusting rod 37 together with reflective mirror 15 clockwise or rotate counterclockwise, thereby the angle of change reflection ray makes it all the time can directive heat collector 18.For the ease of whole better directive heat collectors 18 of reflection ray, reflective mirror adjusting rod 37 is provided with the focalizer 4 for regulating reflective mirror adjusting rod 37 length.
Described guiding mechanism also comprises drive unit, sunshine automatic tracing device 16 and control module, this drive unit can drive regulating connecting rod 6 to move along the length direction of regulating connecting rod 6, and sunshine automatic tracing device 16 is arranged between described reflective mirror array and heat collector 18.Sunshine automatic tracing device 16 is connected with reflective mirror array main support 1, sunshine automatic tracing device 16 can be for measuring the incidence angle of sunshine or the angle of reflection of the light that reflective mirror 15 reflects automatically, in the time of the Angulation changes of incident ray, the angle of reflection of the light that existing sunshine automatic tracing device 16 can reflect the reflective mirror measuring 15 is sent to described control module, this this drive unit of control module control makes to drive regulating connecting rod 6 to move up or down certain distance, then reflective mirror adjusting rod 37 and reflective mirror 15 rotate the sunshine directive heat collector 18 all the time that makes reflection thereupon.
Drive unit comprises motor 32 and the universal driving shaft focusing drive rod 33 and the synchronous-focusing universal driving shaft 35 that are connected with motor 32, and universal driving shaft focusing drive rod 33 and synchronous-focusing universal driving shaft 35 are existing apparatus.When sunshine automatic tracing device 16 detects after the Angulation changes of the light that reflective mirror 15 reflects, this control module can be controlled the rotational angle of motor 32, universal driving shaft focusing drive rod 33 and synchronous-focusing universal driving shaft 35 make regulating connecting rod 6 move up or down the distance of setting, thereby complete the angular adjustment of reflective mirror 15.This drive unit also can adopt other devices such as hydraulic cylinder, as long as can drive regulating connecting rod 6 to move back and forth along its length, and this displacement is controlled, and this content is prior art, no longer repeats.
In addition, the device in the present embodiment also comprises: elevation angle fixed support 34, automatic tracing device support 17, collector bracket 19, base 20.
For the ease of the collection utilization of solar energy, the height of this heat collector 18 is half of middle reflective mirror 15 average heights of this reflective mirror array.In Fig. 1, if reflective mirror 15 average heights are 1.5 meters, the height of this heat collector 18 is 0.75 meter.This reflective mirror array equates with the height of reflective mirror array to the distance of this heat collector 18, if the height of reflective mirror array is 1.5 meters, this reflective mirror array is 1.5 meters to the distance of this heat collector 18.
When use, heat collector 18 is connected by circulation line with accumulation of energy station 51, and the heat that heat collector 18 produces is pumped in accumulation of energy station 51 and is stored by circulating pump 52.User 55 heat exchanging water storage tank 53 is connected with accumulation of energy station 51 with radiator 54, can take at any time, as shown in Figure 6 while needs.
This reflective mirror array solar heat collector has not only expanded the collection area of solar energy, improve the service efficiency of solar energy, can also be according to the variation of sun altitude throughout the year and accommodation reflex angle automatically, thus the service efficiency of solar energy further improved.
The above; be only specific embodiment of the utility model, can not limit the scope that utility model is implemented with it, so the displacement of its equivalent assemblies; or equivalent variations and the modification done according to the utility model scope of patent protection, all should still belong to the category that this patent is contained.Between technical scheme and technical scheme, all can use by independent assortment in addition, between the technical characterictic and technical characterictic in the utility model, between technical characterictic and technical scheme.

Claims (10)

1. a reflective mirror array solar heat collector, it is characterized in that, described reflective mirror array solar heat collector comprises reflective mirror array and heat collector (18), described reflective mirror array contains multiple reflective mirrors (15), the back side of reflective mirror (15) is provided with the guiding mechanism that can adjust the angle of reflective mirror (15) and make sunray (21) the directive heat collector (18) of reflective mirror (15) reflection, described guiding mechanism comprises the reflective mirror array main support (1) for supporting reflective mirror (15), be used for adjusting multiple adjustment units of reflective mirror (15) angle and the regulating connecting rod (6) being connected with adjustment unit.
2. reflective mirror array solar heat collector according to claim 1, is characterized in that: the reflective mirror (15) in this reflective mirror array is with the setting of arranging of regular ranks, and multirow reflective mirror (15) is with direction setting from low to high.
3. reflective mirror array solar heat collector according to claim 1, it is characterized in that: reflective mirror array main support (1) is positioned between regulating connecting rod (6) and reflective mirror (15), described adjustment unit comprises reflective mirror fixed mount (14), reflective mirror angular adjustment bar (5) and be arranged on the projection on regulating connecting rod (6) surface, described projection is focusing slideway (13) towards the surface of reflective mirror (15), one end of reflective mirror fixed mount (14) is fixedly connected with reflective mirror array main support (1), the other end of reflective mirror fixed mount (14) and reflective mirror (15) are rotationally connected, one end of reflective mirror angular adjustment bar (5) and reflective mirror (15) are rotationally connected, the other end of reflective mirror angular adjustment bar (5) contacts with the focusing slideway (13) of described lug surface, in the time that regulating connecting rod (6) moves along the length direction of regulating connecting rod (6), reflective mirror angular adjustment bar (5) also can be crossed along the length direction of reflective mirror angular adjustment bar (5) and move.
4. reflective mirror array solar heat collector according to claim 3, it is characterized in that: reflective mirror angular adjustment bar (5) is connected with reflective mirror array main support (1) by sliding bearing (2), and reflective mirror angular adjustment bar (5) can be along moving back and forth perpendicular to the direction of reflective mirror array main support (1).
5. reflective mirror array solar heat collector according to claim 3, it is characterized in that: focusing slideway (13) butt of the other end of reflective mirror angular adjustment bar (5) and described lug surface, between reflective mirror (15) and reflective mirror array main support (1), be provided with spring (22), one end of spring (22) is connected with reflective mirror (15), and the other end of spring (22) is connected with reflective mirror array main support (1).
6. reflective mirror array solar heat collector according to claim 3, it is characterized in that: the focusing slideway (13) of described lug surface contains the chute that cross section is T shape, size and shape and the chute of the other end of reflective mirror angular adjustment bar (5) match, and the other end of reflective mirror angular adjustment bar (5) is plugged in described chute.
7. reflective mirror array solar heat collector according to claim 3, it is characterized in that: reflective mirror angular adjustment bar (5) is vertical with reflective mirror array main support (1), reflective mirror array main support (1) is parallel with regulating connecting rod (6).
8. reflective mirror array solar heat collector according to claim 3, it is characterized in that: described guiding mechanism also comprises drive unit and sunshine automatic tracing device (16), this drive unit can drive regulating connecting rod (6) to move along the length direction of regulating connecting rod (6), and sunshine automatic tracing device (16) is arranged between described reflective mirror array and heat collector (18).
9. reflective mirror array solar heat collector according to claim 1, it is characterized in that: described adjustment unit comprises reflective mirror adjusting rod (37), one end of reflective mirror adjusting rod (37) and regulating connecting rod (6) are rotationally connected, the other end of reflective mirror adjusting rod (37) is connected with reflective mirror (15), and reflective mirror (15) is rotationally connected with reflective mirror array main support (1).
10. reflective mirror array solar heat collector according to claim 9, it is characterized in that: the other end of reflective mirror adjusting rod (37) is provided with reflective mirror installation shaft (38), reflective mirror installation shaft (38) is fixedly connected with reflective mirror (15), reflective mirror installation shaft (38) is provided with hole, reflective mirror array main support (1) is fixedly connected with focusing fixed screw (39), focusing fixed screw (39) is plugged in described hole, reflective mirror adjusting rod (37) and reflective mirror (15) can rotate taking focusing fixed screw (39) as axle.
CN201420268556.4U 2014-05-23 2014-05-23 Solar heat collection device with reflective mirror array Withdrawn - After Issue CN203837297U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420268556.4U CN203837297U (en) 2014-05-23 2014-05-23 Solar heat collection device with reflective mirror array

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420268556.4U CN203837297U (en) 2014-05-23 2014-05-23 Solar heat collection device with reflective mirror array

Publications (1)

Publication Number Publication Date
CN203837297U true CN203837297U (en) 2014-09-17

Family

ID=51515124

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420268556.4U Withdrawn - After Issue CN203837297U (en) 2014-05-23 2014-05-23 Solar heat collection device with reflective mirror array

Country Status (1)

Country Link
CN (1) CN203837297U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103994587A (en) * 2014-05-23 2014-08-20 杨发 Reflector array solar heat collection device
CN107231125A (en) * 2017-06-23 2017-10-03 中国葛洲坝集团电力有限责任公司 A kind of many bell-type free of sun tracking energy beam condensing units of single column

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103994587A (en) * 2014-05-23 2014-08-20 杨发 Reflector array solar heat collection device
CN103994587B (en) * 2014-05-23 2015-12-02 杨发 A kind of mirror array solar energy heat collector
CN107231125A (en) * 2017-06-23 2017-10-03 中国葛洲坝集团电力有限责任公司 A kind of many bell-type free of sun tracking energy beam condensing units of single column
CN107231125B (en) * 2017-06-23 2018-08-24 中国葛洲坝集团电力有限责任公司 A kind of more bell-type free of sun tracking energy beam condensing units of single column

Similar Documents

Publication Publication Date Title
CN101147032B (en) Energy collection system, collector thereof, and lens and method
CN204906253U (en) Track reflective album of solar electric system
CN109327183B (en) Solar power generation device
CN203837297U (en) Solar heat collection device with reflective mirror array
CN206207760U (en) A kind of solar water heater of angle adjustable
CN210624963U (en) Novel heat collector for solar water heating system
CN202792601U (en) Hot water and power generation system concentrating solar energy
CN103994587B (en) A kind of mirror array solar energy heat collector
KR101379445B1 (en) Solr lightand heat hybrid collecting System having a solar tracker
CN2451975Y (en) Automatic tracking solar water heater
CN210718147U (en) Vacuum tube solar water heater's reflection assembly convenient to thermal-arrest
CN201917099U (en) Split-body adjustable static-to-be groove-type solar heat-converging device
CN203928448U (en) A kind of gradient type linear fresnel solar utilizes system
CN202792604U (en) Solar energy water heating and electrical power generating system
CN203731715U (en) Flat plate solar water heater for gathering heat by using flat plate glass mirrors
CN104913525A (en) Two-dimensional automatic-sun-tracking trough type solar thermal collector
KR102081890B1 (en) Complex System for Photovoltaic Panel And Solar Collector
CN201383765Y (en) Automatic tracking control device of solar cell
CN208859917U (en) A kind of solar energy light gathering and heat collecting system
CN208238277U (en) A kind of efficiently warm oneself uses solar water heater
CN201909459U (en) Multi-plane reflective large-sized solar heat collecting device
CN201945045U (en) Automatic tracking continuous water supply solar energy cooking stove
CN201159790Y (en) Solar energy collector capable of bidirectional tracing
CN205827246U (en) A kind of raster pattern heliostat
CN205066193U (en) Speculum arrangement structure and tower helioplant in tower power station

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20140917

Effective date of abandoning: 20151202

C25 Abandonment of patent right or utility model to avoid double patenting