CN106247638B - A kind of solar heat power generation system with slot-type optical collector - Google Patents

Abstract

The invention discloses a kind of solar heat power generation systems with slot-type optical collector, including reflecting mechanism, supporting mechanism and heat collection mechanism, the reflecting mechanism includes speculum group, the supporting mechanism includes reflector support, the heat collection mechanism includes heat accumulating pipe, speculum group is installed on reflector support, and heat accumulating pipe is set on the focal line of speculum group；The supporting mechanism further includes truss, and the supporting mechanism is equipped with multiple reflector supports, and the reflector support is fixed on the both sides of the truss, and the truss and reflector support support the speculum group jointly.The reflector support stabilized structure of the solar heat power generation system with slot-type optical collector but lighter weight, the center of the center of gravity and rotary shaft that make the slot-type optical collector that reflecting mechanism and supporting mechanism be combined into overlaps, it realizes and the solar heat power generation system uniform rotation with slot-type optical collector is driven with simulation power, to reach energy-saving and environment-friendly purpose.

Description

A kind of solar heat power generation system with slot-type optical collector

Technical field

The present invention relates to solar light-heat power-generation apparatus field more particularly to a kind of solar heats with slot-type optical collector Electricity generation system.

Background technology

In new and renewable energy family, solar energy is most noticeable, and solar energy is a kind of clean energy resource, this is right It is particularly important in environmental protection.Current solar energy thermal-power-generating can be divided into according to solar energy acquisition mode：Solar groove type power generation, Solar energy dish-style generates electricity and solar energy tower type power generation.

Wherein, slot type power generation is to realize commercialized solar heat power generation system earliest.It uses large area single shaft slot type Solar-tracking plane skylight gathers sunlight in parabola shaped reflective mirror foci by the focusing to sunlight Linear receiver on, and heat and flow through the heat transfer oil of receiver, so that heat transfer oil is vaporized, while being set in energy range hot-cast socket Standby middle generation high pressure, superheated steam, are then fed into conventional steam turbine generator and generate electricity.But the existing slot type sun The hot electrification condenser of energy leads to not realize dynamic balancing due to its structure asymmetry, so that driving moment increases, energy loss Greatly.

Invention content

It is an object of the invention to propose a kind of symmetrical configuration, it can be achieved that dynamic balancing, driving force it is small there is slot light collection The solar heat power generation system of device.

For this purpose, the present invention uses following technical scheme：

A kind of solar heat power generation system with slot-type optical collector, including reflecting mechanism, supporting mechanism and heat collection mechanism, The reflecting mechanism includes speculum group, and the supporting mechanism includes reflector support, and the heat collection mechanism includes heat accumulating pipe, Speculum group is installed on reflector support, and heat accumulating pipe is set on the focal line of speculum group；

The supporting mechanism further includes truss, and the supporting mechanism is equipped with multiple reflector supports, the speculum branch Support is fixed on the both sides of the truss, and the truss and reflector support support the speculum group jointly；

The supporting mechanism further includes at least two heat build-up pipe holders, and heat build-up pipe holder is installed on the top of the truss simultaneously And the heat build-up pipe holder is set on the focal line of speculum group, the heat build-up pipe holder fixes the heat accumulating pipe；

The reflector support includes speculum main support rod, speculum time knighthead, the first fixed cross beam, second Fixed cross beam, head rod and the second connecting rod, one end of the speculum time knighthead and the main support of the speculum The close end of one end of bar connects, and one end of the head rod is perpendicularly fixed at the close of the other end of speculum main support rod End, the other end of the speculum time knighthead and the other end of head rod connect, and the one of second connecting rod End is perpendicularly fixed at the midpoint of speculum time knighthead, and the other end and the speculum main support rod of second connecting rod connect It connects, one end level of first fixed cross beam is fixed on one end of the second connecting rod, the other end of first fixed cross beam It is connect with speculum main support rod, one end level of second fixed cross beam is fixed on the other end of the second connecting rod, described The close end of the other end of second fixed cross beam is fixed on the intersection point of speculum time knighthead and head rod.

Preferably, the speculum group includes multiple speculums, and the speculum is symmetrically installed on respect to truss On reflector support, and multiple speculums constitute a linear parabolic；

The reflector support further includes multiple mirror surface load-bearing parts, the speculum main support rod, speculum time Knighthead and the second fixed cross beam are mounted on the mirror surface load-bearing part, and multiple mirror surface load-bearing parts are set It sets in curvature and the Linear Parabolic line of speculum group matching, speculum described in the mirror surface load-bearing part support.

Preferably, the supporting mechanism further includes at least two rotary connection plates, and the rotary connection plate is installed on truss Both ends；

The rotary connection plate includes heat accumulating pipe bearing attachment, rotary connector and multiple truss interconnecting pieces, described poly- Heat pipe bearing attachment is set to the top of rotary connector, and the truss interconnecting piece is set to the both sides of rotary connector；

The heat build-up pipe holder is installed on the heat accumulating pipe bearing attachment, and the rotary connection plate is connected by the truss Socket part is fixed on the both ends of the truss.

Preferably, further include rotating mechanism, the rotating mechanism includes circulator, and the circulator includes circulator main body And rotary shaft, the rotary shaft are connected with circulator main body, the circulator main body drives the rotary shaft rotation；

The rotary connection plate further includes rotary shaft installation through-hole, and the rotary shaft installation through-hole is set to rotary connector Middle part；

The rotary connection plate passes through rotary connection plate by rotary shaft installation through-hole and rotation axis connection, the circulator Driving truss rotates.

Preferably, the reflector support further includes truss connecting element, and the truss connecting element is vertically installed in second The close end of the other end of fixed cross beam；

The reflector support is fixed on the both sides of the truss by the truss connecting element.

Preferably, the heat build-up pipe holder includes heat accumulating pipe rack body and multiple heat build-up support beams；The heat build-up branch Support crossbeam is horizontally installed on the middle part of the heat accumulating pipe rack body.

Preferably, the heat build-up pipe holder further includes heat accumulating pipe support curved rod and installation upright bar；

The heat accumulating pipe support curved rod is installed on the top of the heat accumulating pipe rack body；

The installation upright bar is installed on the bottom of heat accumulating pipe rack body, and the heat accumulating pipe rack body passes through the installation Upright bar is installed on the top of the truss.

Preferably, the rotating mechanism further includes mounting seat, and the circulator is installed in the mounting seat.

The solar heat power generation system reflector support stabilized structure with slot-type optical collector but lighter weight, makes The center of gravity for the slot-type optical collector that reflecting mechanism and supporting mechanism are combined into and the center of rotary shaft overlap, and realize with simulation power The solar heat power generation system uniform rotation with slot-type optical collector is driven, to reach energy-saving and environment-friendly purpose.The reflection Mirror supporting rack has been horizontally disposed with the first fixed cross beam and the second fixed cross beam, and one is strong to increase the structure of reflector support Degree, and the first fixed cross beam and the second fixed cross beam are connected by the second connecting rod, and future, the gravity of self-reflection microscope group was effective Ground disperses, and enhances the supporting role of reflector support；Two, the triangular construction of reflector support is increased, reflection is made The structure of mirror supporting rack is more stable.

Description of the drawings

The present invention will be further described for attached drawing, but the content in attached drawing does not constitute any limitation of the invention.

Fig. 1 is the slot-type optical collector structural schematic diagram of the one of embodiment of the present invention；

Fig. 2 is the slot-type optical collector side view of the one of embodiment of the present invention；

Fig. 3 is the reflector support structural schematic diagram of the one of embodiment of the present invention；

Fig. 4 is the solar heat power generation system structural schematic diagram of the one of embodiment of the present invention；

Fig. 5 is the heat accumulating pipe structural schematic diagram of the one of embodiment of the present invention.

Wherein：Speculum group 1；Reflector support 3；Heat accumulating pipe 5；Truss 2；Heat build-up pipe holder 4；Speculum main support rod 31；Speculum time knighthead 32；First fixed cross beam 33；Second fixed cross beam 34；Head rod 35；Second connecting rod 36；Speculum 11；Mirror surface load-bearing part 37；Rotary connection plate 6；Heat accumulating pipe bearing attachment 61；Rotary connector 62；Truss Interconnecting piece 63；Circulator 8；Circulator main body 81；Rotary shaft 82；Rotary shaft installation through-hole 64；Truss connecting element 38；Heat accumulating pipe branch Frame body 44；Heat build-up support beam 41；Heat accumulating pipe support curved rod 42；Upright bar 43 is installed；Mounting seat 7.

Specific implementation mode

Technical solution to further illustrate the present invention below with reference to the accompanying drawings and specific embodiments.

The solar heat power generation system with slot-type optical collector of the present embodiment, as shown in Figure 1, including reflecting mechanism, branch Support mechanism and heat collection mechanism, the reflecting mechanism include speculum group 1, and the supporting mechanism includes reflector support 3, described Heat collection mechanism includes heat accumulating pipe 5, and speculum group 1 is installed on reflector support 3, and heat accumulating pipe 5 is set to the coke of speculum group 1 On line；

The supporting mechanism further includes truss 2, and the supporting mechanism is equipped with multiple reflector supports 3, the speculum Supporting rack 3 is fixed on the both sides of the truss 2, and the truss 2 and reflector support 3 support the speculum group 1 jointly；

The supporting mechanism further includes at least two heat build-up pipe holders 4, and as shown in Figure 1 and Figure 2, heat build-up pipe holder 4 is installed on The top of the truss 2 and heat build-up pipe holder 4 is set on the focal line of speculum group 1, the heat build-up pipe holder 4 are fixed The heat accumulating pipe 5；

The reflector support 3 includes speculum main support rod 31, speculum time knighthead 32, the first fixed cross beam 33, the second fixed cross beam 34, head rod 35 and the second connecting rod 36, as shown in figure 3, the speculum time knighthead 32 One end connect with the close end of one end of the speculum main support rod 31, one end of the head rod 35 is vertically fixed In the close end of the other end of speculum main support rod 31, the other end and head rod of the speculum time knighthead 32 35 other end connection, one end of second connecting rod 36 is perpendicularly fixed at the midpoint of speculum time knighthead 32, described The other end of second connecting rod 36 is connect with speculum main support rod 31, and one end level of first fixed cross beam 33 is fixed on The other end of one end of the second connecting rod 36, first fixed cross beam 33 is connect with speculum main support rod 31, and described second One end level of fixed cross beam 34 is fixed on the other end of the second connecting rod 36, the other end of second fixed cross beam 34 it is close The intersection point of speculum time knighthead 32 and head rod 35 is fixed in end.

The solar heat power generation system with slot-type optical collector constitutes one only to a side by speculum group 1 To the paraboloid groove type condenser of bending, by solar light focusing to the heat accumulating pipe 5 on 1 focal line of speculum group so that heat build-up Heat transfer medium inside pipe 5 is heated to 350-390 DEG C (such as oil or water), and the heat transfer medium then heated is through external heat exchange Device generates superheated steam, and superheated steam pushes steam turbine generator power generation, and here it is the entire solar heats with slot-type optical collector The electricity generating principle of electricity generation system.

The speculum group 1 is supported jointly by the reflector support 3 and truss 2.In the reflector support 3 Angle between one connecting rod 35 and speculum main support rod 31 is 90 °, and second connecting rod 36 and speculum time support are oblique Angle between bar 32 is 90 °, to expand right angled triangle supporting role, makes speculum time knighthead 32 and speculum group 1 is tangent, improves the support load-bearing capacity of reflector support 3.Consolidate moreover, the reflector support 3 has been horizontally disposed with first Determine crossbeam 33 and the second fixed cross beam 34, one increases the structural strength of reflector support 3, and the first fixed cross beam 33 It is connected by the second connecting rod 36 with the second fixed cross beam 34, future, the gravity of self-reflection microscope group 1 effectively disperseed, enhancing reflection The supporting role of mirror supporting rack 3；Two, the triangular construction of reflector support 3 is increased, the knot of reflector support 3 is made Structure is more stable.

3 stabilized structure of reflector support of the solar heat power generation system with slot-type optical collector but quality compared with Gently, the center of the center of gravity and rotary shaft 82 that make the slot-type optical collector that reflecting mechanism and supporting mechanism be combined into overlaps, and realizes with most Small driving force drives the solar heat power generation system uniform rotation with slot-type optical collector, to reach energy-saving and environment-friendly purpose.

Preferably, the speculum group 1 includes multiple speculums 11, as shown in Figure 1, the speculum 11 is with respect to truss 2 It is symmetrically installed on reflector support 3, and multiple speculums 11 constitute a linear parabolic；

The reflector support 3 further includes multiple mirror surface load-bearing parts 37, as shown in figure 3, the main branch of the speculum Strut 31, speculum time 32 and second fixed cross beam 34 of knighthead are mounted on the mirror surface load-bearing part 37, and more A mirror surface load-bearing part 37 is arranged in curvature and the Linear Parabolic line of the matching of speculum group 1, and the mirror surface is held Speculum 11 described in 37 support of holder.

Multiple speculums 11 are symmetrically installed on respect to truss 2 on reflector support 3, constitute one linearly The spatial position of paraboloid, these speculums 11 fits on one group of confocal point but the parabola of different focal length, to ensure the sun In light reflection to the heat accumulating pipe 5.And be in due to speculum 11 on the paraboloid of different focal length, it is in different parabolics There are certain intervals between speculum 11 on line so that can be unloaded from the gap of speculum 11 under state windward centainly Wind pressure.The reflector support 3 be arranged multiple mirror surface load-bearing parts 37 match in curvature and speculum group 1 it is linear On parabola, support fixed function is played to speculum 11, the reflector support 3 is made more to be bonded with speculum 11, protected Demonstrate,prove the position accuracy of speculum 11.

Preferably, the supporting mechanism further includes at least two rotary connection plates 6, as shown in Figure 1, the rotary connection plate 6 are installed on the both ends of truss 2；

The rotary connection plate 6 includes heat accumulating pipe bearing attachment 61, rotary connector 62 and multiple truss interconnecting pieces 63, As shown in Fig. 2, the heat accumulating pipe bearing attachment 61 is set to the top of rotary connector 62, the truss interconnecting piece 63 is arranged In the both sides of rotary connector 62；

The heat build-up pipe holder 4 is installed on the heat accumulating pipe bearing attachment 61, and the rotary connection plate 6 passes through the purlin Frame interconnecting piece 63 is fixed on the both ends of the truss 2.

The purlin is arranged for the connection between truss 2 and circulator 8, the rotary connection plate 6 in the rotary connection plate 6 Frame interconnecting piece 63 is connect with truss 2；The rotary connection plate 6 also sets up heat accumulating pipe bearing attachment 61, is set to 2 liang of truss The heat build-up pipe holder 4 at end is installed on the heat accumulating pipe bearing attachment 61, to make circulator 8 that heat build-up pipe holder 4 be driven to rotate, The heat accumulating pipe being installed on heat build-up pipe holder 45 is set to remain on the focal line of speculum group 1.

Preferably, further include rotating mechanism, as shown in figure 4, the rotating mechanism includes circulator 8, the circulator 8 wraps Circulator main body 81 and rotary shaft 82 are included, the rotary shaft 82 and circulator main body 81 connect, and the circulator main body 81 drives The rotary shaft 82 rotates；

The rotary connection plate 6 further includes rotary shaft installation through-hole 64, as shown in Fig. 2, the rotary shaft installation through-hole 64 It is set to the middle part of rotary connector 62；

The rotary connection plate 6 is connected by rotary shaft installation through-hole 64 and rotary shaft 82, and the circulator 8 passes through rotation 6 driving truss 2 of connecting plate rotates.

The circulator 8 is rotated by 6 driving truss 2 of rotary connection plate, to make the speculum group 1 that the sun be followed to transport It moves and rotates, to reach maximum heat build-up effect.The rotary connection plate 6 is equipped with rotary shaft installation through-hole 64, and the rotation connects Fishplate bar 6 is connected by rotary shaft installation through-hole 64 and rotary shaft 82, and the rotary shaft 82 plays support to truss 2 and rotation is made With.The rotary shaft installation through-hole 64 is set to the middle part of rotary connector 62, to ensure that rotary shaft 82 is arranged in truss 2 On central axes.

The heat build-up pipe holder 4 includes heat accumulating pipe rack body 44 and multiple heat build-up support beams 41, as shown in Figure 5；Institute State the middle part that heat build-up support beam 41 is horizontally installed on the heat accumulating pipe rack body 44.Multiple heat build-up support beams 41 are spaced It is equably horizontally installed to the middle part of the heat accumulating pipe rack body 44, support load-bearing energy is played to heat accumulating pipe rack body 44 Power.

Preferably, the heat build-up pipe holder 4 further includes heat accumulating pipe support curved rod 42 and installs upright bar 43, as shown in Figure 5；

The heat accumulating pipe support curved rod 42 is installed on the top of the heat accumulating pipe rack body 44；

The installation upright bar 43 is installed on the bottom of heat accumulating pipe rack body 44, and the heat accumulating pipe rack body 44 passes through institute State the top that installation upright bar 43 is installed on the truss 2.

The heat accumulating pipe support curved rod 42 is installed on the top of the heat accumulating pipe rack body 44, is used for support heat accumulating pipe 5, the heat accumulating pipe support curved rod 42 of arc-shaped shape can be preferably bonded with heat accumulating pipe 5, prevent heat accumulating pipe 5 shake displacement and with it is anti- The focal line for penetrating microscope group 1 deviates, and influences heat build-up effect.

Preferably, the rotating mechanism further includes mounting seat 7, as shown in figure 4, the circulator 8 is installed on the peace It fills on pedestal 7.The mounting seat 7 plays support load-bearing effect for fixing the circulator 8 to whole system.

The technical principle of the present invention is described above in association with specific embodiment.These descriptions are intended merely to explain the present invention's Principle, and it cannot be construed to limiting the scope of the invention in any way.Based on the explanation herein, the technology of this field Personnel would not require any inventive effort the other specific implementation modes that can associate the present invention, these modes are fallen within Within protection scope of the present invention.

Claims (1)

1. a kind of solar heat power generation system with slot-type optical collector, including reflecting mechanism, supporting mechanism and heat collection mechanism, institute It includes speculum group to state reflecting mechanism, and the supporting mechanism includes reflector support, and the heat collection mechanism includes heat accumulating pipe, instead It penetrates microscope group to be installed on reflector support, heat accumulating pipe is set on the focal line of speculum group, it is characterised in that：

The supporting mechanism further includes truss, and the supporting mechanism is equipped with multiple reflector supports, the reflector support The both sides of the truss are fixed on, the truss and reflector support support the speculum group jointly；

The supporting mechanism further includes at least two heat build-up pipe holders, and heat build-up pipe holder is installed on the top of the truss and institute It states heat build-up pipe holder to be set on the focal line of speculum group, the heat build-up pipe holder fixes the heat accumulating pipe；

The reflector support includes speculum main support rod, speculum time knighthead, the first fixed cross beam, the second fixation Crossbeam, head rod and the second connecting rod, one end and the speculum main support rod of the speculum time knighthead The close end of one end connects, and one end of the head rod is perpendicularly fixed at the proximal end of the other end of speculum main support rod Portion, the other end of the speculum time knighthead and the other end of head rod connect, one end of second connecting rod It is perpendicularly fixed at the midpoint of speculum time knighthead, the other end of second connecting rod is connect with speculum main support rod, One end level of first fixed cross beam is fixed on one end of the second connecting rod, the other end of first fixed cross beam with it is anti- Penetrate the connection of mirror main support rod, one end level of second fixed cross beam is fixed on the other end of the second connecting rod, and described second The close end of the other end of fixed cross beam is fixed on the intersection point of speculum time knighthead and head rod；

Angle in the reflector support between head rod and speculum main support rod is 90 °, second connection Angle between bar and speculum time knighthead is 90 °, keeps speculum time knighthead and speculum group tangent；

The speculum group includes multiple speculums, and the speculum is symmetrically installed on reflector support with respect to truss On, and multiple speculums constitute a linear parabolic；

The reflector support further includes multiple mirror surface load-bearing parts, time support of the speculum main support rod, speculum Brace and the second fixed cross beam are mounted on the mirror surface load-bearing part, and multiple mirror surface load-bearing part settings exist On the Linear Parabolic line that curvature and speculum group match, speculum described in the mirror surface load-bearing part support；

The supporting mechanism further includes at least two rotary connection plates, and the rotary connection plate is installed on the both ends of truss；

The rotary connection plate includes heat accumulating pipe bearing attachment, rotary connector and multiple truss interconnecting pieces, the heat accumulating pipe Bearing attachment is set to the top of rotary connector, and the truss interconnecting piece is set to the both sides of rotary connector；

The heat build-up pipe holder is installed on the heat accumulating pipe bearing attachment, and the rotary connection plate passes through the truss interconnecting piece It is fixed on the both ends of the truss；

Further include rotating mechanism, the rotating mechanism includes circulator, and the circulator includes circulator main body and rotary shaft, institute It states rotary shaft to connect with circulator main body, the circulator main body drives the rotary shaft rotation；

The rotary connection plate further includes rotary shaft installation through-hole, and the rotary shaft installation through-hole is set in rotary connector Portion；

The rotary connection plate is driven by rotary shaft installation through-hole and rotation axis connection, the circulator by rotary connection plate Truss rotates；

The reflector support further includes truss connecting element, and the truss connecting element is vertically installed in the another of the second fixed cross beam The close end of one end；

The reflector support is fixed on the both sides of the truss by the truss connecting element；

The heat build-up pipe holder includes heat accumulating pipe rack body and multiple heat build-up support beams；The heat build-up support beam is flatly It is installed on the middle part of the heat accumulating pipe rack body；

The heat build-up pipe holder further includes heat accumulating pipe support curved rod and installation upright bar；

The heat accumulating pipe support curved rod is installed on the top of the heat accumulating pipe rack body；

The installation upright bar is installed on the bottom of heat accumulating pipe rack body, and the heat accumulating pipe rack body passes through the installation upright bar It is installed on the top of the truss；

The rotating mechanism further includes mounting seat, and the circulator is installed in the mounting seat.