CN209842417U - Shell type double-shaft tracking system - Google Patents

Abstract

The utility model discloses beige style biax tracker relates to a tracker with function day by day. The Belleville type double-shaft tracking system can realize accurate control, is simple in structure and has a self-protection function. The utility model discloses shell formula biax tracking system includes the looped track, annular level rotation rack is installed in the looped track outside, horizontal rotation rack and the cooperation of rotating gear motor, rotating gear motor installs on slewing frame, the slewing frame bottom is provided with a plurality of guide pulley, the guide pulley can rotate on looped track's upper surface, the slewing frame top is provided with the fin axle, the epaxial fixed fin bracing piece of fin, be fixed with arc braced frame and heat collecting pipe bracing piece on the fin bracing piece, arc braced frame is used for installing the speculum, the heat collecting pipe bracing piece is used for installing spotlight thermal-collecting pipe, the one end of fin axle is fixed with the pendulum rod subassembly, the pendulum rod subassembly is including the pendulum rod and the pendulum rod gear that are connected, pendulum rod gear and swing motor gear cooperation.

Description

Shell type double-shaft tracking system

Technical Field

The utility model relates to a mechanical structure technical field especially relates to a shell formula biax tracker with function of following spot.

Background

The solar heat collection technology is an effective utilization mode for solar energy, and the basic principle is that sunlight is focused and then irradiates a light-gathering chip battery to enable the light-gathering chip battery to generate electricity. In the solar heat collection process, sunlight needs to be continuously focused on the light-gathering heat collecting tube, so that the light-gathering heat collecting tube needs to be matched with a whole set of equipment, and the sunlight irradiation angle can be met by continuously changing the position of the light-gathering heat collecting tube.

The existing driving device of the heat collecting device is driven by hydraulic pressure, the hydraulic driving device drives a suspension rod connected with the heat collecting device to rotate through the extension and contraction of a hydraulic cylinder, but the hydraulic driving device can only drive a single-row heat collecting device, the equipment cost is high, and the maintenance cost is high. In addition, the hydraulic drive is inconvenient for controlling the rotating angle, and the accurate light following process cannot be realized.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a shell formula biax tracker that can realize accurate control, simple structure, have self-protection function.

The utility model discloses shellfish formula biax tracker, including the looped track, the annular track outside is installed annular level and is rotated the rack, and horizontal rotation rack and rotating gear motor cooperation, rotating gear motor install on revolving frame, and the revolving frame bottom is provided with a plurality of guide pulley, and the guide pulley can rotate on the orbital upper surface of annular, and the revolving frame top is provided with the fin axle, and the epaxial fixed fin bracing piece of fin is fixed with arc braced frame and heat collecting tube bracing piece on the fin bracing piece, arc braced frame is used for installing the speculum, and the heat collecting tube bracing piece is used for installing spotlight thermal-collecting tube, and the one end of fin axle is fixed with the pendulum rod subassembly, and the pendulum rod subassembly is including the pendulum rod and the pendulum rod gear that are connected, pendulum rod gear and swing motor gear.

The utility model discloses shellfish formula biax tracker, wherein support piece is installed to the revolving frame top, installs two sets of gyration bearing structures on the support piece, and the fin axle is installed between two sets of gyration bearing structures.

The utility model discloses beige style biax tracker, wherein circular orbit installs on horizontal base, and horizontal pedestal mounting is on the ground of horizontal plane.

The utility model discloses shell formula biax tracker, wherein a plurality of rack layer boards are evenly installed in the orbital outside of annular, and the top at the rack layer board is installed to the level rotation rack.

The utility model discloses shellfish formula biax tracker, wherein the inside strengthening rib that is provided with of circular orbit.

The utility model discloses beige formula biax tracker, wherein orbital material of annular is corrosion-resistant track steel.

The utility model discloses beige formula biax tracker, wherein arc braced frame includes the fin cross bracing, the fin cross bracing be used for with the back cooperation installation of speculum.

The utility model discloses shell formula biax tracker, wherein be connected with the riveting support on the fin cross bracing, the bottom of riveting support is fixed on the fin bracing piece.

The utility model discloses shell formula biax tracker, wherein be provided with multiunit fin lateral bracing and riveting support on the arc braced frame for improve the stability of speculum installation.

The utility model discloses shell formula biax tracker, wherein the ferrule is installed to the tip of thermal-collecting tube bracing piece, and the ferrule is used for fixed mounting spotlight thermal-collecting tube.

The utility model discloses shell formula biax tracker is different with prior art in that, the utility model discloses shell formula biax tracker passes through arc braced frame and heat collecting pipe bracing piece installation speculum and spotlight thermal-collecting tube, adjustment installation angle makes the speculum focus the light band of formation with the sunlight, can just be to the condensing surface of spotlight thermal-collecting tube, along with the work of rotating motor and swing motor, constantly adjustment system position, make speculum and spotlight thermal-collecting tube rotate and vertical face luffing motion at the horizontal plane in step, the degree of freedom is high, can trail sunlight irradiation's direction in real time, realize accurate control, effectively improve the solar energy utilization ratio.

When the shell-type double-shaft tracking system works, the swing motor drives the swing rod assembly to rotate, the reflector is opened, and the pitch angle is adjusted to track the position of the altitude angle of the sun to perform light condensation work; when the system equipment is not required to be protected in work or extreme weather, the swing motor drives the swing rod assembly to enable the reflecting mirror to be buckled, so that the equipment body is protected. When the system comprises a plurality of supporting pieces for installing a plurality of groups of reflectors and light-gathering heat collecting pipes, the reflectors and the light-gathering heat collecting pipes can synchronously rotate through the connecting rods.

The following describes the inventive shell-type dual-axis tracking system with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of a shell-type dual-axis tracking system of the present invention;

fig. 2 is a front view of the shell-type dual-axis tracking system of the present invention;

fig. 3 is a schematic structural diagram of the shell-type biaxial tracking system after the reflector and the light-gathering heat collecting tube are assembled;

fig. 4 is a schematic structural diagram of an arc-shaped support frame in the shell-type dual-axis tracking system of the present invention;

the notation in the figures means: 1-a connecting rod; 2-a support; 3-oscillating bar gear; 4-oscillating bar; 5-an arc-shaped support frame; 6-a reflector; 7-a fin shaft; 8-a light-gathering heat-collecting tube; 9-a revolving frame; 10-a collector tube support bar; 11-horizontally rotating the rack; 12-a pipe clamp; 13-fin support rods; 14-riveting a support; 15-fin lateral support.

Detailed Description

The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1-3, the present invention discloses a shell-type biaxial tracking system, which comprises an annular rail made of corrosion-resistant rail steel. The inside strengthening rib that is provided with of circular orbit guarantees the stability of system architecture, prevents that equipment from appearing rocking when rotatory and swing, and then influences the accuracy of spotlight angle. The circular orbit is installed on horizontal base, and horizontal base installs on the ground, and the ground can be by concrete slab and steelframe constitution, guarantees to be in on the horizontal plane after the equipment fixing.

A plurality of rack supporting plates are uniformly arranged on the outer side of the annular track and are fixed on the outer side of the annular track through bolts. Threaded holes are processed in the side face and the top face of the rack supporting plate, the threaded holes in the side face are used for installing an annular track, and the threaded holes in the top face are used for installing an annular horizontal rotating rack 11. Horizontal rotation rack 11 is installed above the rack layer board, and horizontal rotation rack 11 cooperates with a rotating gear (not shown), and the rotating gear is installed on revolving frame 9, and revolving frame 9 bottom is provided with a plurality of guide pulley, and the guide pulley can rotate on circular orbit's upper surface. When the rotating motor works, the rotating motor provides power for the rotating gear, and the rotating gear is meshed with the horizontal rotating rack 11 to drive the rotating gear and the rotating frame 9 to rotate.

Above the revolving frame 9 is mounted a support 2. Two groups of rotary supporting structures are arranged on the supporting piece 2, and a fin shaft 7 is arranged between the two groups of rotary supporting structures. A fin support rod 13 is fixed on the fin shaft 7, and an arc support frame 5 and a heat collecting tube support rod 10 are fixed on the fin support rod 13, wherein the arc support frame 5 is used for installing the reflector 6, and the heat collecting tube support rod 10 is used for installing the light-gathering heat collecting tube 8.

As shown in fig. 4, the arc support frame 5 includes a fin cross support 15, and the fin cross support 15 is adapted to fit with the rear surface of the reflector 6. The fin transverse support 15 is connected with a riveting support 14, and the bottom of the riveting support 14 is fixed on the fin support rod 13. The fin cross supports 15 and the riveting brackets 14 are provided in plurality for improving the stability of the installation of the reflector 6.

The end of the collector tube support rod 10 is provided with a pipe hoop 12, and the pipe hoop 12 is used for fixedly mounting the light-gathering collector tube 8.

One end of the fin shaft 7 is fixed with a swing rod component, the swing rod component comprises a swing rod 4 and a swing rod gear 3 which are connected, and the swing rod gear 3 is matched with a swing motor gear (not shown). When the swing motor works, the swing motor provides power for the swing motor gear to drive the swing rod gear 3 and the fin shaft 7 to rotate.

Example 2

The difference between this embodiment and embodiment 1 is that a plurality of sets of supporting members 2, two sets in this embodiment, are installed above the revolving frame 9. The swing rod assembly is provided with a connecting rod 1, and the other end of the connecting rod 1 is connected with one end of a fin shaft 7 on the other group of supporting pieces 2, so that the two fin shafts 7 synchronously rotate.

The utility model discloses shell formula biax tracker at the during operation, at first installs speculum 6 and spotlight thermal-collecting tube 8 on arc braced frame 5 and spotlight thermal-collecting tube bracing piece 10, then starts rotation motor and swing motor. The angles of the horizontal direction and the vertical direction of the equipment are adjusted, so that the reflector 6 and the light-gathering heat-collecting tube 8 can gather sunlight to the maximum degree and are used for power generation and heat collection. Along with the change of the sunlight irradiation angle, the rotating motor and the swinging motor continuously work, the positions of the reflector 6 and the light-gathering heat collecting tube 8 are adjusted, and the real-time tracking function is realized.

The utility model discloses shellfish formula biax tracker passes through arc braced frame 5 and heat collecting pipe bracing piece 10 installation speculum 6 and spotlight thermal-collecting tube 8, adjustment installation angle makes the speculum focus the light band of formation with the sunlight, can just be to the condensing surface of spotlight thermal-collecting tube 8, along with the work of rotating motor and swing motor, constantly adjustment system position, make speculum 6 and spotlight thermal-collecting tube 8 rotate and vertical face luffing motion at the horizontal plane in step, the degree of freedom is high, can trail the direction of sunlight irradiation in real time, effectively improve the solar energy utilization ratio. When the system comprises a plurality of supporting pieces for installing a plurality of groups of reflectors 6 and light-gathering heat collecting pipes 8, the plurality of groups of reflectors 6 and light-gathering heat collecting pipes 8 can synchronously rotate through the connecting rod 1.

The utility model discloses shell formula biax tracker adopts the shell formula structure, and shell formula structure is different from general solar energy biax tracker, and its key feature is exactly can be under special environment such as wind snow hail sand and dust, with the speculum closure, collects the spotlight thermal-collecting tube. The damage to the core component light-gathering heat-collecting tube is avoided, the front surface of the reflector and the surface of the heat-collecting tube are prevented from being polluted and falling dust, so that the maintenance cost is low, and the inherent efficiency of the system is improved.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A shell-like dual-axis tracking system, characterized by: including the looped rail, the looped rail outside is installed annular level and is rotated the rack, and the horizontal rotation rack rotates rack and rotating gear motor cooperation, and rotating gear motor installs on revolving frame, and the revolving frame bottom is provided with a plurality of guide pulley, and the guide pulley can rotate on the upper surface of looped rail, and the revolving frame top is provided with the fin axle, and the epaxial fixed fin bracing piece of fin is fixed with arc braced frame and heat collecting tube bracing piece on the fin bracing piece, arc braced frame is used for installing the speculum, and the heat collecting tube bracing piece is used for installing spotlight thermal-collecting tube, and the one end of fin axle is fixed with the pendulum rod subassembly, and the pendulum rod subassembly is including the pendulum rod and the pendulum rod gear that are connected, pendulum rod gear and.

2. The Bessen-style dual-axis tracking system according to claim 1, wherein: support pieces are installed above the revolving frame, two groups of revolving support structures are installed on the support pieces, and the fin shaft is installed between the two groups of revolving support structures.

3. The Bessen-style dual-axis tracking system according to claim 1, wherein: the annular rail is installed on a horizontal base, and the horizontal base is installed on the foundation of a horizontal plane.

4. The Bessen-style dual-axis tracking system according to claim 1, wherein: a plurality of rack supporting plates are uniformly arranged on the outer side of the annular track, and the horizontal rotating rack is arranged above the rack supporting plates.

5. The Bessen-style dual-axis tracking system according to claim 1, wherein: and reinforcing ribs are arranged inside the annular track.

6. The Bessen-style dual-axis tracking system according to claim 1, wherein: the material of the annular track is corrosion-resistant track steel.

7. The Bessen-style dual-axis tracking system according to claim 1, wherein: the arc-shaped supporting frame comprises a fin transverse support, and the fin transverse support is used for being installed with the back of the reflector in a matched mode.

8. The Bessen-style dual-axis tracking system according to claim 7, wherein: the fin transverse support is connected with a riveting support, and the bottom of the riveting support is fixed on the fin supporting rod.

9. The Bessen-style dual-axis tracking system according to claim 8, wherein: the arc-shaped supporting frame is provided with a plurality of groups of fin transverse supports and riveting supports, and the fin transverse supports and the riveting supports are used for improving the mounting stability of the reflector.

10. The Bessen-style dual-axis tracking system according to claim 1, wherein: the end of the heat collecting pipe supporting rod is provided with a pipe hoop, and the pipe hoop is used for fixedly mounting the light-gathering heat collecting pipe.