CN205643823U - A support arm for heliostat - Google Patents

Abstract

The utility model discloses a support arm for heliostat, including supporting the horizontal pole, be provided with a plurality of support piece on the support horizontal pole, a plurality of support piece follows support the length direction interval arrangement of horizontal pole, support the member perpendicular to support the horizontal pole, just support piece with support horizontal pole integrated into one piece. The utility model provides a support arm for heliostat will support horizontal pole and support piece integrated into one piece, reduce the installation part, and the cost is reduced has improved the packaging efficiency.

Description

A kind of support arm for heliostat

Technical field

This utility model relates to solar energy thermal-power-generating technical field, is specifically related to a kind of support arm for heliostat.

Background technology

At energy field, solar energy is more and more applied as the regenerative resource of a kind of cleaning, and in field of solar thermal power generation, solar electrical energy generation mode has photovoltaic generation and photo-thermal power generation two kinds.Along with the development of science and technology, the particularly rise of Computer Control Technology, solar energy thermal-power-generating technology is the emerging solar utilization technique after photovoltaic power generation technology.Solar energy thermal-power-generating is by the energy accumulating of direct sunlight, heating working medium by the way of a large amount of reflecting mirrors are with focusing, produces the steam of High Temperature High Pressure, with steam drive steam turbine power generation.

Tower type solar energy thermal power generation is to use substantial amounts of directional mirror (heliostat) to be gathered by sunlight on a central heat exchanger (heat extractor) being contained in tower top, produces steam by the fluid inside heating and then promotes turbine rotation to generate electricity.The most a lot of heliostat minute surfaces are arranged to a plane, after reflection, light easily dissipates, it is not easy to focus on, the most also part heliostat is had to be configured to the curved surface with radian, to achieve these goals, prior art is by arranging multiple installing hole on support arm, then each installing hole is utilized to be respectively provided with the strong point, minute surface radian is regulated by each strong point, but in practical operation, owing to installing hole is more, it is difficult to ensure that installation accuracy during installation, each strong point is caused to influence each other, affect the regulation of minute surface radian on the contrary, and, the part that this mode uses is more, multiple spot is needed to regulate during adjustment, therefore, regulation and installation effectiveness are low, be not suitable for high-volume to install and use.

Utility model content

For technical problem present in background technology, this utility model provides a kind of support arm for heliostat, and its simple in construction is easy for installation, and need not individually regulate each strong point, and applicable high-volume is installed and used.

A kind of support arm for heliostat, including support rail, several support members it are provided with on described support rail, several support members described are spaced layout along the length direction of described support rail, described support member is perpendicular to described support rail, and described support member is one-body molded with described support rail.

It is preferred that be provided with some first installing holes on described support rail, some first installing holes are arranged along the length direction of described support bar, and the line of centres of some described first installing holes is a camber line.

It is preferred that the camber line that the centrage of some described first installing holes is linked to be is a parabola, and this parabolical opening is towards described support member direction.

It is preferred that described support member is a flexible member.

It is preferred that described support member is platy structure, described support member includes connecting portion and bending part, one end of described connecting portion connects described support rail, the other end connects bending part, and described bending part connects reflecting surface directly or indirectly to a lateral buckling of described connecting portion, described bending part.

It is preferred that described bending part is perpendicular to described connecting portion.

It is preferred that be provided with the second installing hole on described bending part, described second installing hole is used for assembling bonding sheet, and described reflecting surface is connected by described bonding sheet and described bending part are fixing.

It is preferred that described support rail is platy structure, described support rail includes king plank and bends the secondary lath extended on the long limit of described king plank, and described support member is arranged on described king plank.

It is preferred that the width of described lath is less than the width of described king plank.

It is preferred that the cross section of described support rail is L-shaped or " [" shape.

It is preferred that the thickness of described king plank is 2.5-5mm, width is 25-40mm.

It is preferred that the thickness of described support member is 2.5-5mm, width is 25-40mm.

This utility model, owing to using above technical scheme, is allowed to compared with prior art, has the following advantages that and good effect:

(1) support arm for heliostat that this utility model provides, one-body molded with support member by support rail, decreases installation part, reduces cost, improves packaging efficiency；

(2) in the support arm for heliostat that this utility model provides, owing to being provided with the installing hole of arc on support rail king plank, when support arm is applied on heliostat, this support arm can be made to present certain radian, and then make reflecting surface present certain radian, there is good light-gathering, it is not necessary to regulated by the later stage and adjust minute surface radian.

Accompanying drawing explanation

In conjunction with accompanying drawing, by hereafter state detailed description, above-mentioned and other feature and advantage of the present utility model can be more clearly understood that, wherein:

The structural representation of the support arm for heliostat that Fig. 1 provides for this utility model；

The support arm for heliostat that Fig. 2 provides for this utility model and the scheme of installation of reflecting surface.

Symbol description:

1-lath 2-king plank 201-the first installing hole

3-connecting portion 4-bending part 5-support rail

6-support member 7-reflecting surface 8-bonding sheet

Detailed description of the invention

See the accompanying drawing illustrating this utility model embodiment, this utility model is described in more detail.But, this utility model can realize in many different forms, and should not be construed as the embodiment by herein proposing and limited.On the contrary, proposing these embodiments is to reach fully and complete disclosure, and makes those skilled in the art understand scope of the present utility model completely.In these accompanying drawings, for clarity sake, may be exaggerated layer and the size in region and relative size.

With reference to Fig. 1-2, this utility model provides a kind of support arm for heliostat, if including support rail 5 and the dry support arm 6 being vertically set on support rail 5, if reflecting surface 7 is directly or indirectly mounted in dry support arm 6；If dry support arm 6 is spaced apart along the length direction of support rail 5, and support member 6 is one-body molded with support rail 5；This utility model, by one-body molded with support rail 5 for support member 6, eliminates the installation procedure assembling support member on support rail relative to support arm of the prior art, and simple in construction is easy for installation.

In the present embodiment, support member 6 is made up of connecting portion 3 and bending part 4, and connecting portion 3 and bending part 4 are platy structure；Concrete, one end of connecting portion 3 is connected perpendicularly on support rail 5, and the other end connects bending part 4, and bending part 4 is perpendicular to connecting portion 3, and bending part 4 relative to connecting portion 3 to one lateral buckling, as shown in fig. 1.Wherein, preferred connecting portion 3, bending part 4 are one-body molded with support rail 5.

Further, bending part 4 is used for supporting reflecting surface 7, and bending part 4 is provided with the second installing hole, and the second installing hole is used for assembling bonding sheet 8, and reflecting surface 7 is connected, as shown in Figure 2 with bending part 4 by bonding sheet 8.If reflecting surface 7 directly contacts with the bending part 4 of support member 6, needing to ensure that bending part 4 has preferable flatness and suitable angle, higher to the processing request of support arm, production cost increases；In the present embodiment, bending part 4 is provided for assemble the second installing hole of adhesive sheet 8, by arranging bonding sheet 8, bending part 4 can be avoided directly to contact with reflecting surface 7, thus reduce the processing request to support arm, cost-effective.

In the present embodiment, support member 6 is flexible member, i.e. support member 6 possesses certain flexibility, i.e. connecting portion 3 and bending part 4 and has certain flexibility；Support member 6 is designed as flexible member by this utility model, so that it can adapt to support the deformation needed for reflecting surface.

In the present embodiment, support rail 5 is platy structure, and support rail 5 includes king plank 2 and the secondary lath 1 extended by king plank 2 longer side limit, as shown in fig. 1；Secondary lath 1 is perpendicular to king plank 2, and the width of secondary lath 1 is less than the width of king plank 2, and support member 6 is arranged on king plank 2.King plank 2 and time lath 1 one-body molded composition support rail 5, the cross section of support rail 5 is L-shaped or " [" shape.Certainly, the concrete structure of support rail 5 is not limited to the above, can be adjusted as the case may be.This utility model is by arranging time lath 1 at the side of king plank 2, and it primarily serves the purpose of the intensity increasing support rail 5, increases the integral rigidity of support arm.

In the present embodiment, support rail 5 being provided with some first installing holes, support rail 5 is installed to a support up by the first installing hole；Some first installing holes are arranged along the length direction of support bar 5, and the line of centres of some first installing holes is a camber line；In the present embodiment, the camber line that the centrage of some first installing holes is linked to be is a parabola, and this parabolical opening is towards support member direction, i.e. orienting reflex face 7.

In the present embodiment, as shown in fig. 1, some first installing holes are arranged on king plank 2, and king plank 2 is provided with three the first installing holes, are respectively arranged on the mounting hole in the middle of support rail 5 and are arranged on the general installing hole at support rail 5 two ends.Certainly, number, version being set and position being set of the first installing hole, it is not limited to the above, all can be designed as the case may be, not be restricted.

This utility model is set by the first installing hole is arranged position, after support arm is installed on support by the first installing hole, its entirety is certain radian, after reflecting surface 7 is installed on support arm, reflecting surface 7 is made also to present certain radian, there is good spotlight effect, it is not necessary to adjusted the radian of reflecting surface by the later stage.

In the present embodiment, the thickness of support member 6 is 2.5-5mm, and width is 25-40m；When the thickness of support member 6 is too small, rigidity is more weak, and reflecting surface cannot be played good supporting role by support arm, when support member 6 thickness is excessive, owing to rigidity is too strong, it is impossible to adapt to support the deformation needed for reflecting surface.The logical setting to support member 6 size of this utility model so that support member 6 can either meet the intensity supporting reflecting surface, disclosure satisfy that again the deformation supported needed for reflecting surface.

In the present embodiment, the thickness of king plank 2 is 2.5-5mm, and width is 25-40mm.When king plank 2 thickness is too small, rigidity is more weak, and reflecting surface cannot be played good supporting role by support arm, when king plank thickness is excessive, owing to rigidity is too strong, it is impossible to adapt to support the deformation needed for reflecting surface.The logical setting to king plank 2 size of this utility model so that king plank 2 can either meet the intensity supporting reflecting surface, disclosure satisfy that again the deformation supported needed for reflecting surface.

Those skilled in the art should be understood that this utility model can be implemented without departing from the spirit or scope of itself with other concrete forms many.Although having been described for case study on implementation of the present utility model, it should be understood that this utility model should not be limited to these embodiments, those skilled in the art can change and modifications as made within spirit and scope of the present utility model that appended claims defines.

Claims (10)

1. the support arm for heliostat, it is characterized in that, including support rail, several support members it are provided with on described support rail, several support members described are spaced layout along the length direction of described support rail, described support member is perpendicular to described support rail, and described support member is one-body molded with described support rail.

Support arm for heliostat the most according to claim 1, it is characterized in that, being provided with some first installing holes on described support rail, some first installing holes are arranged along the length direction of described support bar, and the line of centres of some described first installing holes is a camber line.

Support arm for heliostat the most according to claim 2, it is characterised in that the camber line that the centrage of some described first installing holes is linked to be is a parabola, and this parabolical opening is towards described support member direction.

Support arm for heliostat the most according to claim 1 and 2, it is characterized in that, described support member is platy structure, described support member includes connecting portion and bending part, one end of described connecting portion connects described support rail, the other end connects bending part, and described bending part connects reflecting surface directly or indirectly to a lateral buckling of described connecting portion, described bending part.

Support arm for heliostat the most according to claim 4, it is characterised in that described bending part is perpendicular to described connecting portion.

Support arm for heliostat the most according to claim 4, it is characterised in that be provided with the second installing hole on described bending part, described second installing hole is used for assembling bonding sheet, and described reflecting surface is connected by described bonding sheet and described bending part are fixing.

Support arm for heliostat the most according to claim 1, it is characterised in that described support rail is platy structure, described support rail includes king plank and bends the secondary lath extended on the long limit of described king plank.

Support arm for heliostat the most according to claim 7, it is characterised in that the width of described lath is less than the width of described king plank.

A kind of support arm for heliostat the most according to claim 7, it is characterised in that the thickness of described king plank is 2.5-5mm, width is 25-40mm.

A kind of support arm for heliostat the most according to claim 1, it is characterised in that the thickness of described support member is 2.5-5mm, width is 25-40mm.