CN206619032U - A kind of tower heliostat hydraulic pressure tracking drive component - Google Patents

Abstract

The utility model is related to heliostat field, more particularly to a kind of tower heliostat hydraulic pressure tracking drive component.Including hydraulic station, the first hydraulic jack and the second hydraulic jack, the hydraulic station is fixedly installed on pedestal, the first hydraulic jack two ends, which are respectively articulated with, to be arranged on mirror support and transmission bracket, the second hydraulic jack two ends, which are respectively articulated with, to be arranged on pedestal and drive disk assembly, and the hydraulic station is connected with first hydraulic jack and the second hydraulic jack oil circuit respectively.First hydraulic jack of heliostat and second hydraulic jack can realize the two-dimensional tracking driving of heliostat, power is provided by hydraulic rotation, the spin of driving hydraulic cylinder control heliostat and the control at the elevation angle, hydraulic pressure tracking drive mechanism has push-pull effort big, it is adapted to the tracking driving of large area heliostat, high transmission accuracy, system run all right, maintenance period are longer, compact conformation, good airproof performance, are adapted to use under more severe work condition environment.

Description

A kind of tower heliostat hydraulic pressure tracking drive component

Technical field

The utility model is related to heliostat field, more particularly to a kind of tower heliostat hydraulic pressure tracking drive component.

Background technology

At present, conventional gear drive maintenance cycle is short, motor damage phenomenon often occurs, and system operation is unstable Fixed, annual line duration is short, and driving torque is less, and easily overload, is not suitable for the driving of big heliostat.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of tower heliostat hydraulic pressure tracking drive component, solves Gear drive maintenance cycle is short, motor damage phenomenon often occurs, and system operation is unstable, and annual line duration is short, and Driving torque less, is easily overloaded, the problem of being not suitable for the driving of big heliostat.

The technical scheme that the utility model solves above-mentioned technical problem is as follows：A kind of tower heliostat hydraulic pressure tracking driving group Part, including hydraulic station, the first hydraulic jack and the second hydraulic jack, the hydraulic station are fixedly installed on pedestal, and described first Hydraulic jack two ends, which are respectively articulated with, to be arranged on mirror support and transmission bracket, and the second hydraulic jack two ends are respectively articulated with Be arranged on pedestal and transmission bracket, the hydraulic station respectively with first hydraulic jack and the second hydraulic jack oil circuit Connection.

Further, it is provided with angle detection part on first hydraulic jack and second hydraulic jack.

Further, the angle detection part includes first angle sensor and second angle sensor, described first jiao Degree sensor is used for the elevation angles for detecting speculum, and the second angle sensor is used for the spin angle for detecting speculum.

Further, when first hydraulic jack is fully extended or withdraws completely, the elevation angle angle that the speculum is formed Spend for 0-90 °.

Further, when second hydraulic jack is fully extended or withdraws completely, the speculum spin forms angle For 0-120 °.

The utility model provides a kind of tower heliostat hydraulic pressure tracking drive component, including hydraulic station, the first hydraulic jack With the second hydraulic jack, the hydraulic station is fixedly installed on pedestal, and the first hydraulic jack two ends, which are respectively articulated with, to be arranged on On mirror support and transmission bracket, the second hydraulic jack two ends, which are respectively articulated with, to be arranged on pedestal and drive disk assembly, institute Hydraulic station is stated to be connected with first hydraulic jack and the second hydraulic jack oil circuit respectively.So, the rotating shaft of transmission bracket It is installed on the bearing block on pedestal, one end of the first hydraulic jack is connected on pedestal using bearing pin, and the other end uses bearing pin It is connected in transmission bracket；One end of second hydraulic jack is connected on the arm of force of transmission bracket using bearing pin, and the of heliostat One hydraulic jack and second hydraulic jack can realize the two-dimensional tracking driving of heliostat, the first hydraulic jack and described second Hydraulic jack is hydraulic driving mode, and power, the spin of driving hydraulic cylinder control heliostat and the elevation angle are provided by hydraulic rotation Control, hydraulic pressure tracking drive mechanism has push-pull effort big, is adapted to the tracking driving of large area heliostat, high transmission accuracy, is System is stable, and maintenance period is longer, compact conformation, good airproof performance, is adapted to use under more severe work condition environment.

Brief description of the drawings

Fig. 1 is the overall structure diagram that a kind of tower heliostat hydraulic pressure of the utility model tracks drive component；

Fig. 2 is the partial structural diagram that a kind of tower heliostat hydraulic pressure of the utility model tracks drive component.

In accompanying drawing, the list of parts representated by each label is as follows：

1st, pedestal, 2, hydraulic station, the 3, first hydraulic jack, the 4, second hydraulic jack, 5, transmission bracket.

Embodiment

Principle of the present utility model and feature are described below in conjunction with accompanying drawing, example is served only for explaining this practicality It is new, it is not intended to limit scope of the present utility model.

As shown in figure 1, the utility model provides a kind of tower heliostat hydraulic pressure tracking drive component, including hydraulic station 2, the One hydraulic jack 3 and the second hydraulic jack 4, the hydraulic station 2 are fixedly installed on pedestal 1, the two ends of the first hydraulic jack 3 It is respectively articulated with and is arranged on mirror support and transmission bracket 5, the two ends of the second hydraulic jack 4, which are respectively articulated with, is arranged on pedestal 1 and drive disk assembly on, the hydraulic station 2 is connected with first hydraulic jack 3 and the oil circuit of the second hydraulic jack 4 respectively. So, the rotating shaft of transmission bracket 5 is installed on the bearing block on pedestal 1, and one end of the first hydraulic jack 3 is connected to using bearing pin On pedestal 1, the other end is connected in transmission bracket 5 using bearing pin；One end of second hydraulic jack 4 is connected to transmission using bearing pin On the arm of force of support 5, the first hydraulic jack 3 and second hydraulic jack 4 of heliostat can realize the two-dimensional tracking of heliostat Driving, the first hydraulic jack 3 and second hydraulic jack 4 are hydraulic driving mode, and power is provided by hydraulic rotation, drive liquid The spin of cylinder pressure control heliostat and the control at the elevation angle, hydraulic pressure tracking drive mechanism have push-pull effort big, are adapted to large area and determine The tracking driving of solar eyepiece, high transmission accuracy, system run all right, maintenance period is longer, and compact conformation, good airproof performance are adapted to Compare and used under severe work condition environment.

Tower heliostat hydraulic pressure tracking drive component of the present utility model, as shown in figure 1, in previously described technical scheme On the basis of can also be：Angle detection part is provided with first hydraulic jack 3 and second hydraulic jack 4.This Sample, by setting angle detection part on the first hydraulic jack 3 and second hydraulic jack 4, operationally, angle detection Part is detected in real time to speculum, and the rotation of speculum is driven to measure the first hydraulic jack 3 and second hydraulic jack 4 Turn and the elevation angle angle so that speculum improves the absorption to luminous energy preferably towards sun direct projection.Further preferred technology Scheme is：The angle detection part includes first angle sensor and second angle sensor, the first angle sensor Elevation angles for detecting speculum, the second angle sensor is used for the spin angle for detecting speculum.

Tower heliostat hydraulic pressure tracking drive component of the present utility model, as shown in figure 1, in previously described technical scheme On the basis of can also be：When first hydraulic jack 3 is fully extended or withdraws completely, the elevation angle that the speculum is formed Angle is 0-90 °.So, the first hydraulic jack 3 can realize the tracking driving at the elevation angle of 0~90 ° of heliostat, accordingly at the elevation angle The direction of motion has an angular transducer, and whether the elevation location for detecting heliostat is position that program is calculated.

Tower heliostat hydraulic pressure tracking drive component of the present utility model, as shown in figure 1, in previously described technical scheme On the basis of can also be：When second hydraulic jack 4 is fully extended or withdraws completely, the speculum spin forms angle Spend for 0-120 °.So, the second hydraulic jack 4 can realize the tracking driving of the spin of 0~120 ° of heliostat, accordingly in spin The direction of motion has an angular transducer, detect heliostat spin position whether be program calculating position.

Preferred embodiment of the present utility model is the foregoing is only, it is all in this practicality not to limit the utility model Within new spirit and principle, any modification, equivalent substitution and improvements made etc. should be included in guarantor of the present utility model Within the scope of shield.

Claims (5)

1. a kind of tower heliostat hydraulic pressure tracking drive component, it is characterised in that：Including hydraulic station (2), the first hydraulic jack (3) With the second hydraulic jack (4), the hydraulic station (2) is fixedly installed on pedestal (1), the first hydraulic jack (3) two ends point It is not hinged and is arranged on mirror support and transmission bracket (5), the second hydraulic jack (4) two ends, which are respectively articulated with, is arranged on base Seat (1) and transmission bracket (5) on, the hydraulic station (2) respectively with first hydraulic jack (3) and second hydraulic jack (4) oil circuit is connected.

2. tower heliostat hydraulic pressure tracking drive component according to claim 1, it is characterised in that：First hydraulic oil Angle detection part is provided with cylinder (3) and second hydraulic jack (4).

3. tower heliostat hydraulic pressure tracking drive component according to claim 2, it is characterised in that：The angle detection Part includes first angle sensor and second angle sensor, and the first angle sensor is used for the elevation angle angle for detecting speculum Degree, the second angle sensor is used for the spin angle for detecting speculum.

4. the tower heliostat hydraulic pressure tracking drive component according to claim 1-3 any one, it is characterised in that：It is described When first hydraulic jack (3) is fully extended or withdraws completely, the elevation angles that the speculum is formed are 0-90 °.

5. the tower heliostat hydraulic pressure tracking drive component according to claim 1-3 any one, it is characterised in that：It is described When second hydraulic jack (4) is fully extended or withdraws completely, the speculum spin institute shape is angled 0-120 °.