WO2017198016A1

WO2017198016A1 - Mirror mechanism dedicated to solar concentrator

Info

Publication number: WO2017198016A1
Application number: PCT/CN2017/080346
Authority: WO
Inventors: 吴国栋
Original assignee: 吴国栋
Priority date: 2016-05-17
Filing date: 2017-04-13
Publication date: 2017-11-23
Also published as: CN105823237B; CN105823237A

Abstract

Disclosed is a mirror mechanism dedicated to a solar concentrator. A rotating frame (2) comprises a left-right rotating component (3), a front-rear rotating component (4), and a left-right rotation compensating component (5). A mirror (1) is hinged to the left-right rotating component (3). The front-rear rotating component (4) is hinged to the left-right rotating component (3). The left-right rotation compensating component (5) is mounted on the front-rear rotating component (4). The left-right rotation compensating component (5) is provided with a left-right rotation compensating component abutting edge (8). The left-right rotation compensating component abutting edge (8) is a curved edge. The left-right rotation compensating component abutting edge (8) abuts against and cooperates with the bottom of the mirror (1). When the left-right rotating component (3) rotates to the left and the right, the mirror (1) is moved along with the left-right rotating component (3), and when the left-right rotating component (3) rotates to the left and the right around a lower hinge point (7) so as to drive the mirror (1) to rotate to the left and the right, the mirror (1) rotates to the left and the right around an upper hinge point (6) along the left-right rotation compensating component abutting edge (8) under the action of the left-right rotation compensating component (5), such that focal points of multiple mirrors in the front and rear overlap.

Description

Mirror mechanism dedicated to solar concentrating devices

Technical field

The present invention relates to a mirror mechanism dedicated to a solar concentrating device.

Background technique

Solar energy is a pollution-free and clean energy source, and it is an inexhaustible source of energy. Today, when human beings face two major problems of energy crisis and environmental protection, they are greatly valued by people. Various devices that use solar energy are continuously introduced. Full development and utilization of solar energy can not only save the increasingly exhausted conventional energy, but also alleviate severe resources. The problem of shortage, but also can reduce pollution and protect the ecological environment on which humans depend. Among the many solar energy technologies, devices that use solar concentrating devices to heat are more common. They rely on various mirrors to directly reflect sunlight on the object to be heated. Among them, the most commonly used heat-conducting medium is heat-conducting medium, which can be heated first. The heat transfer medium reheats the water, the hot water can be used directly, or the high temperature steam can be generated by heat exchange, and the steam turbine is used to generate electricity to realize solar power generation. The existing solar concentrating device has a plurality of mirror mechanisms, and the plurality of mirrors have multiple rows. Arrangement, since the angles and distances of the mirrors before and after each row are different from the condensing point, the front and rear mirrors need to compensate the left and right angles of the mirror when rotating left and right, so that the concentrating points of the front and rear mirrors overlap. There is no deviation together, and the existing mirror mechanism structure is relatively complicated, and the concentrating precision is not high. It is necessary to install a plurality of driving mechanisms to drive the deviation of the left and right rotation angles between the mirror and the mirror, so that the manufacturing cost is greatly improved.

Summary of the invention

The technical problem to be solved by the present invention is to provide a mirror mechanism dedicated to a solar concentrating device with simple structure, convenient installation and high concentrating precision.

In order to solve the above technical problem, the present invention adopts the following technical solution: a mirror mechanism dedicated to a solar concentrating device, including a mirror and a turret, the mirror being mounted on a turret, the turret including left and right rotating parts, Front and rear rotating parts and left and right rotation compensating parts, the mirrors and left and right The rotating member is hinged, and the hinge point hinged by the mirror and the left and right rotating members is an upper hinge point, and the mirror is rotatable to the left and right rotating members about the upper hinge point, and the front and rear rotating members are hinged to the left and right rotating members a hinge point hinged by the front and rear rotating members and the left and right rotating members is a lower hinge point, and the left and right rotating members are rotatable about the lower hinge point relative to the front and rear rotating members, and the left and right rotation compensating members are mounted on the front and rear rotating members. The right and left rotation compensating member has a right and left rotation compensating member abutting side, the abutting side of the left and right rotation compensating member is an arc side, and the abutting side of the left and right rotation compensating member abuts against the bottom of the mirror, the left and right sides When the rotating member rotates left and right, the mirror and the left and right rotating members are linked, and the left and right rotating members rotate left and right around the lower hinge point to drive the mirror to rotate left and right while the mirror is rotated by the left and right rotation compensating members. The left and right rotation compensating members abut and rotate around the hinge point, and the front and rear rotating members rotate back and forth , The front rotary member is rotated about compensating member, and a mirror member about the rotation phase linkage such that rotation of the swingable member driven back and forth around the rotation compensation means around rotational member and the front mirror.

The invention provides a mirror mechanism dedicated to a solar concentrating device, which has the beneficial effects that the mirror is mounted on a turret by including a mirror and a turret, and the turret includes left and right rotating parts, front and rear rotating parts, and The compensation component is rotated left and right, the mirror is hinged to the left and right rotating components, and the hinge point hinged by the mirror and the left and right rotating components is an upper hinge point, and the mirror can rotate left and right relative to the left and right rotating components around the upper hinge point. The front and rear rotating members are hinged to the left and right rotating members, and the hinge points hinged by the front and rear rotating members and the left and right rotating members are lower hinge points, and the left and right rotating members are rotatable about the lower hinge point relative to the front and rear rotating members. The left and right rotation compensating members are mounted on the front and rear rotating members, wherein the right and left rotation compensating members have abutting edges of the right and left rotation compensating members, and the abutting sides of the right and left rotating compensating members are curved sides, and the right and left rotating compensating members abut the sides The bottom of the mirror abuts, and when the left and right rotating members rotate left and right, the mirror and the left and right In conjunction with the movable member, the right and left about the rotating member rotates around a hinge point driven to rotate the mirror about the same time, The mirror rotates left and right around the hinge point along the abutting side of the right and left rotation compensation members by the left and right rotation compensating members. When the front and rear rotating members rotate back and forth, the front and rear rotating members, the left and right rotation compensating members, and the left and right rotation The components and the mirror are linked together, so that the front and rear rotating members rotate forward and backward to drive the left and right rotation compensating members, the left and right rotating members and the mirror to rotate back and forth. Therefore, the mirror mechanism of the structure can realize the mirror by driving the left and right rotating members to rotate left and right. Rotating left and right to drive the front and rear rotating parts to rotate back and forth, the mirror can be rotated back and forth. When multiple mirror mechanisms are required to rotate together, only the left and right rotating parts need to be mounted on a rectangular frame, so that the rectangular frame can be rotated left and right. A plurality of mirrors are rotated left and right, and the front and rear rotating parts of the plurality of reflecting mechanisms are hinged on one of the front and rear moving links, and the front and rear moving links can be moved forward and backward to realize front and rear rotation of the plurality of mirrors, thereby reflecting The overall structure of the mirror mechanism is simpler and the manufacturing cost is more The plurality of mirrors can be easily rotated left and right and rotated forward and backward, and the left and right rotating members rotate left and right around the lower hinge point to rotate the mirror to the left and right, and the mirror rotates along the right and left rotation compensation members under the action of the left and right rotation compensation components. The connecting edge rotates left and right around the hinge point, so that the mirror has double left and right rotation, thereby compensating for the left and right angular deviations of the plurality of front and rear mirrors when rotating left and right, so that the condensing points of the plurality of mirrors overlap before and after, thereby achieving the concentrating precision. Higher effect.

Further, the left and right rotation compensating component is a left and right rotation compensating disc, and the left and right rotation compensating disc is mounted on the front and rear rotating parts by the wafer adjusting screw, and the circular left and right rotation compensating disc is convenient to process, the manufacturing cost is low, and the compensation is The precision is higher.

Further, the left and right rotation compensation disc has a wafer mounting groove, and the left and right rotation compensation wafer is mounted on the front and rear rotating parts through the wafer mounting groove through the wafer adjusting screw, so that the left and right rotation compensation wafers are adjustable in height. By setting the left and right rotation compensation discs to adjust the height of the upper and lower sides, the angle deviation can be adjusted to make the concentrating effect better.

Further comprising a first coupling shaft and a second coupling shaft, the left portion of the left and right rotating members is provided with a left mounting shaft, the right portion of the left and right rotating members is provided with a right mounting shaft, and the front and rear rotating members include front and rear rotating rods The mirror is hinged to the left and right rotating members through the first coupling shaft, the front and rear rotating rods are hinged to the left and right rotating members through the second coupling shaft, and the left and right rotation compensation members are mounted on the front and rear rotating rods. Simple, low manufacturing cost and easy to install.

Further, the left and right rotating parts are square left and right rotating frames, and the front part of the left and right rotating frame is provided with a front adjusting groove, a front adjusting screw and a front adjusting moving block, and the rear part of the left and right rotating frame is provided with a rear adjustment a slot, a rear adjustment screw and a rear adjustment moving block, the front adjustment moving block being movably mounted in the front adjustment slot by a front adjustment screw, the rear adjustment movement block being movably mounted in the rear adjustment slot by a rear adjustment screw One end of the second coupling shaft is connected to the front adjustment moving block, and the other end of the second coupling shaft is connected to the rear adjustment moving block. This structure realizes the second coupling shaft, the front and rear rotation components, and the left and right rotation compensation components. Relative to the left and right rotating frame and the mirror horizontal rotation adjustment, the deviation between the concentrating point and the condensing point can be finely adjusted, so that the concentrating effect is better.

Further, the left and right rotating members are left and right rotating plates, and the bottom of the left and right rotating plates has a mounting recess, and the mounting recess is provided with an adjusting block and an adjusting screw, and the adjusting block is mounted on the mounting recess by an adjusting screw. The second coupling shaft is mounted on the adjusting block, the front and rear rotating rods include a mounting fork, the mounting fork includes a mounting fork left rod and a mounting fork right rod, and one end of the second coupling shaft is connected with the mounting fork left rod The other end of the second coupling shaft is connected with the right fork of the mounting fork. The structure realizes that the front and rear rotating rods, the mounting fork and the left and right rotation compensating members can be horizontally adjusted relative to the left and right rotating plates and the mirror, and the same is made for the light collecting point. The deviation from the spotlight can be fine-tuned to make the spotlighting effect better.

The invention is further described below in conjunction with the drawings and specific embodiments.

DRAWINGS

1 is a knot of a first embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention. One of the schematic diagrams;

2 is a second structural schematic view of a first embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

3 is a third structural schematic view of a first embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

4 is a fourth structural schematic view of a first embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

5 is a fifth structural schematic view of a first embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

6 is a schematic structural diagram of Embodiment 2 of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

7 is a second structural schematic view of a second embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

8 is a third structural schematic view of a second embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention;

FIG. 9 is a fourth structural diagram of a second embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention.

detailed description

As shown in FIG. 1 to FIG. 5, an embodiment of a mirror mechanism dedicated to a solar concentrating device provided by the present invention includes a mirror 1 and a turret 2, and the mirror 1 is mounted on a turret 2, The turret 2 includes a left and right rotating member 3, a front and rear rotating member 4, and a right and left rotation compensating member 5, the mirror 1 is hinged to the left and right rotating members 3, and the hinge point of the mirror 1 and the left and right rotating members 3 is hinged Point 6, the mirror 1 is rotatable about the upper hinge point 6 relative to the left and right rotating members 3, The front and rear rotating members 4 are hinged to the left and right rotating members 3, and the hinge points at which the front and rear rotating members 4 are hinged to the left and right rotating members 3 are lower hinge points 7, and the left and right rotating members 3 are rotatable relative to the lower hinge points 7 relative to the front and rear. 4, the right and left rotation compensating member 5 is mounted on the front and rear rotating member 4, and the right and left rotation compensating member 5 has a right and left rotation compensating member abutting edge 8, and the right and left rotation compensating member abutting side 8 is a curved side The abutting edge 8 of the right and left rotation compensating member abuts against the bottom of the mirror 1. When the left and right rotating members 3 rotate left and right, the mirror 1 and the left and right rotating members 3 are interlocked, and the left and right rotating members 3 are wound. While the lower hinge point 7 rotates to rotate the mirror 1 to the left and right, the mirror 1 rotates left and right around the hinge point 6 along the left and right rotation compensation member abutting edge 8 by the left and right rotation compensation member 5, When the front and rear rotating members 4 are rotated back and forth, the front and rear rotating members 4, the right and left rotation compensating members 5, the left and right rotating members 3, and the mirror 1 are interlocked, so that the front and rear rotating members 4 are rotated forward and backward to drive the left The right rotation compensating member 5, the left and right rotating members 3, and the mirror 1 are rotated back and forth. The mirror is a concave mirror, which is simple in manufacturing and low in manufacturing cost. The left and right rotation compensating members 5 are left and right rotation compensating discs 9, The left and right rotation compensating discs 9 are mounted on the front and rear rotating members 4 by the wafer adjusting screws 10 having the wafer mounting grooves 11 on which the left and right rotation compensating discs 9 pass the wafer adjusting screws 10 is mounted on the front and rear rotating members 4 through the wafer mounting groove 11, so that the left and right rotation compensation discs 9 are vertically adjustable in height, including the first coupling shaft 12 and the second coupling shaft 13, and the left portion of the left and right rotating members 3 A left mounting shaft 14 is provided, and a right mounting shaft 15 is disposed on a right portion of the left and right rotating members 4, and the front and rear rotating members 4 include front and rear rotating levers 16, and the mirror 1 passes through the first coupling shaft 12 and the left and right rotating members. 3 phase hinges, the front and rear rotating rods 16 are hinged to the left and right rotating members 3 via the second coupling shaft 13, and the left and right rotation compensating members 5 are mounted on the front and rear rotating rods 16, and the left and right rotating members 3 are square and left Rotating frame 17, said The front portion of the right rotating frame 17 is provided with a front adjusting groove 18, a front adjusting screw 19 and a front adjusting moving block 20, and the rear portion of the left and right rotating frame 17 is provided with a rear adjusting groove 21, a rear adjusting screw 22, and a rear adjusting movement Block 23, the front adjustment moving block 20 passes before The adjusting screw 19 is movably mounted in the front adjusting groove 18, and the rear adjusting moving block 23 is movably mounted in the rear adjusting groove 21 by the rear adjusting screw 22, and one end of the second coupling 13 is adjusted with the front adjustment The block 20 is connected, and the other end of the second coupling shaft 13 is connected to the rear adjustment moving block 23.

As shown in FIG. 6 to FIG. 9 , the left and right rotating members 3 and the front and rear rotating rods 16 may be configured such that the left and right rotating members 3 are left and right rotating plates 24, and the bottom portions of the left and right rotating plates 24 have mounting recesses 25, The mounting recess 25 is provided with an angle adjusting block 26 and an angle adjusting screw 27 mounted on the mounting recess 25 by an angle adjusting screw 27 mounted on the angle adjusting block 26 The front and rear rotating 16-bar includes a mounting fork 27 including a mounting fork left lever 28 and a mounting fork right lever 29, one end of the second coupling shaft 13 being coupled to the mounting fork left lever 28, the first The other end of the coupling shaft 13 is connected to the mounting fork right lever 29.

The detailed embodiments of the present invention are disclosed herein as needed, but it is understood that the disclosed embodiments are only illustrative of the invention, and the invention may be embodied in various and alternative forms. The drawings are not necessarily to scale. Therefore, the specific structural and functional details disclosed herein are not to be construed as limiting. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

Claims

A mirror mechanism dedicated to a solar concentrating device, comprising a mirror (1) and a turret (2), the mirror (1) being mounted on a turret (2), characterized in that: the turret (2) ) comprising a left and right rotating member (3), a front and rear rotating member (4), and a left and right rotation compensating member (5), the mirror (1) being hinged to the left and right rotating member (3), the mirror (1) and left and right The hinge point hinged by the rotating member (3) is an upper hinge point (6), and the mirror (1) is rotatable left and right relative to the left and right rotating members (3) about the upper hinge point (6), the front and rear rotating member (4) ) hinged to the left and right rotating members (3), the hinge point hinged by the front and rear rotating members (4) and the left and right rotating members (3) is a lower hinge point (7), and the left and right rotating members (3) can be wound down The hinge point (7) is rotated left and right with respect to the front and rear rotating member (4), and the left and right rotation compensating member (5) is mounted on the front and rear rotating member (4), and the right and left rotation compensating member (5) has a right and left rotation compensating member abutting The side (8), the abutting edge (8) of the left and right rotation compensating member is an arc edge, and the abutting edge (8) of the right and left rotation compensating member abuts against the bottom of the mirror (1). When the left and right rotating members (3) are rotated left and right, the mirror (1) and the left and right rotating members (3) are linked, and the left and right rotating members (3) are rotated around the lower hinge point (7) to drive the mirror ( 1) while rotating left and right, the mirror (1) is rotated left and right around the hinge point (6) by the right and left rotation compensation member abutting edge (8) under the action of the left and right rotation compensation member (5). When the rotating member (4) rotates back and forth, the front and rear rotating members (4), the left and right rotation compensating members (5), the left and right rotating members (3) and the mirror (1) are linked to rotate the front and rear rotating members (4) forward and backward. The left and right rotation compensating members (5), the left and right rotating members (3), and the mirror (1) are rotated forward and backward.
A mirror mechanism dedicated to a solar concentrating device according to claim 1, wherein said right and left rotation compensating member (5) is a left and right rotation compensating disc (9), said left and right rotation compensating disc (9) ) Mounted on the front and rear rotating parts (4) by the wafer adjusting screw (10).
A mirror mechanism dedicated to a solar concentrating device according to claim 2, wherein said left and right rotation compensating wafer (9) has a wafer mounting groove (11), said left and right rotation compensation The wafer (9) is mounted on the front and rear rotating members (4) through the wafer mounting groove (11) through the wafer adjusting screw (10), so that the height of the left and right rotation compensation discs (9) can be adjusted.
A mirror mechanism dedicated to a solar concentrating device according to claim 1 or 2 or 3, comprising a first coupling shaft (12) and a second coupling shaft (13), said left and right rotating members (3) The left portion is provided with a left mounting shaft (14), and the right portion of the left and right rotating members (4) is provided with a right mounting shaft (15), and the front and rear rotating members (4) include front and rear rotating rods (16). The mirror (1) is hinged to the left and right rotating members (3) through a first coupling shaft (12), and the front and rear rotating rods (16) are hinged to the left and right rotating members (3) through the second coupling shaft (13). The left and right rotation compensating members (5) are mounted on the front and rear rotating levers (16).
A mirror mechanism dedicated to a solar concentrating device according to claim 4, wherein said left and right rotating members (3) are square left and right rotating frames (17), and said left and right rotating frames (17) The front part is provided with a front adjusting groove (18), a front adjusting screw (19) and a front adjusting moving block (20), and the rear part of the left and right rotating frame (17) is provided with a rear adjusting groove (21) and a rear adjusting screw ( 22) and a rear adjustment moving block (23), the front adjustment moving block (20) is movably mounted in the front adjustment groove (18) by a front adjustment screw (19), and the rear adjustment moving block (23) passes The rear adjustment screw (22) is movably mounted in the rear adjustment groove (21), and one end of the second coupling shaft (13) is coupled to the front adjustment movement block (20), and the second coupling shaft (13) The other end is connected to the rear adjustment moving block (23).
A mirror mechanism dedicated to a solar concentrating device according to claim 4, wherein said left and right rotating members (3) are left and right rotating plates (24), and the bottom portions of said left and right rotating plates (24) are mounted a recess (25), the mounting recess (25) is provided with an angle adjusting block (26) and an angle adjusting screw (27), and the angle adjusting block (26) is mounted on the mounting recess by an angle adjusting screw (27) (25) The second coupling (13) is mounted on an angle adjustment block (26), the front and rear rotation lever (16) including a mounting fork (28) including a mounting fork left lever ( 29) and Ann A fork right rod (30) is attached, one end of the second coupling shaft (13) is connected to the mounting fork left rod (29), and the other end of the second coupling shaft (13) is connected to the mounting fork right rod (30) .
A mirror mechanism dedicated to a solar concentrating device according to claim 1 or 2 or 3, characterized in that the mirror (1) is a concave mirror.
A mirror mechanism dedicated to a solar concentrating device according to claim 4, characterized in that the mirror (1) is a concave mirror.
A mirror mechanism dedicated to a solar concentrating device according to claim 5, characterized in that the mirror (1) is a concave mirror.
A mirror mechanism dedicated to a solar concentrating device according to claim 6, characterized in that the mirror (1) is a concave mirror.