RU2693968C1 - Holder of solar collector working surface adapted to position of natural source of infrared radiation (sun) - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to solar-engineering devices, specifically to a position of a natural source of infrared radiation (Sun) adapted to a holder of the working surface of a solar collector. Holder comprises a frame of four supports, combined in the centre using a base in the form of a hemisphere, a rectangular reflector, hollow inside, with electrodes connected to angles of inner side of lower face by electrodes configured to generate electric pulse, four pneumatic actuators arranged at corners of outer side of lower face of reflector, made with possibility of application of forces for movement of reflector along trajectory specified by base in form of hemisphere integrated with it and frame by hinged connecting elements. Hollow inside reflector is made of material capable of being deformed under effect of heating and having possibility of surface treatment prior to acquisition of mirror reflecting surface, and comprises inside four electrodes attached to lower face and coupled with four pneumatic actuators of forward stroke, connected to outer side of lower face of reflector by means of hinged connecting elements.

EFFECT: technical result consists in improvement of orientation accuracy, increase of number of possible directions of working surface, possibility to change power of actuators, as well as to ensure universality.

1 cl, 6 dwg

Description

The invention relates to solar devices designed to improve the efficiency of solar systems, by improving the insolation of the engine of the solar collector system, by providing an autonomous orientation of its working surface relative to the natural source of infrared radiation.

Technical installations designed to convert the infrared radiation of the Sun into heat for heating objects - heliosystems. The effectiveness of such systems is directly dependent on the level of insolation of the surface of the solar collector, so the automatic orientation of these surfaces (tracking the position of the Sun) is necessary when solving the problem of maximum efficiency of such systems.

Auto-tracking technologies for the Sun are classified according to the types of actuators that move and, accordingly, control them. One class includes designs with electric actuators, a control system, which includes a number of measuring and signaling devices, where control actions are generated in digital form. Such tracking systems have high accuracy and great potential to increase power for heliosystems with heavy working surfaces, but the presence of various sensors in such systems reduces its reliability when operating in harsh climatic conditions, and electric actuators consume a significant amount of non-renewable energy. The second class of devices uses analog actuators and control systems aimed at minimizing the costs of non-renewable energy, regulated by analogue control actions: mechanical or natural. The disadvantages of the second class include low potential for optimization of control and insufficient power of actuators for moving heavy structures of working surfaces of collectors.

Known devices of this kind include the invention (see AS USSR 1460552, IPC ⁴ F24J 2/38, 2/40; Appl. 10.04.87; Publ. 23.02.89), the design of which consists of a support post, combined with oriented base, a hinge, where the actuators are elastic thrust, the control actions which are served by heat-sensitive elements. The control system is built on the interaction of structural elements with a natural driving force in the form of ambient temperature. When exposed to infrared radiation from the sun, a certain zone of the base of the device heats up and there is a temperature drop, which is a natural control effect on the conjugate thrust, which causes a torque, as a result, the base turns in the direction of the heating source. The disadvantages of this solution include a limited area of movement of the structure, which reduces the overall efficiency of development at certain positions of the Sun.

Another device of similar purpose (US Pat. RF 2043583, IPC ⁶ F24J 2/38; Appl. 15.08.92; Publ. 10.09.95), consisting of two blocks of bimetallic elements, for zenith and azimuth rotation, an adaptable frame. Spiral blocks, under the influence of the heat generated by the infrared radiation of the sun, are folded or unfolded, thereby creating a torque transmitted to the corresponding axis of rotation, which changes the position of the working surface relative to the sun. The main drawback of the device is the lack of effort created by the spirals to change the position of the heavy working surface of the solar collector.

The closest technical solution is an autonomous tracking system for the movement of the Sun across the sky (US Pat. RU 2313046 C2, IPC ⁶ F24J 2/38; application 02.03.06; publ. 20.12.07). The device design includes: a frame, an orientable panel mounted on the axis of rotation, one pair of thermal actuators and a reflective screen. The solution, especially in that it provides an autonomous orientation of the carrier panel in the zenith and azimuth direction, has a relatively higher useful load and area load in the class of devices with minimal non-renewable energy costs. What is achieved by a certain placement of thermal actuators, namely, that on the one hand, they are almost completely unloaded in relation to load-bearing loads, on the other hand, being in a tense state due to the mutual influence on each other through a rigid axial connection, thereby eliminating parasitic backlash, which together helps to increase the efficiency of the thermal actuator as a working element and increase the accuracy of orientation of the carrier panel to the sun. The disadvantages of the device include the lack of integration with already installed solar systems, without their complete reconstruction, in addition, the solution has no potential for modernization if necessary, in the case of adding sections (and increasing weight) to the solar collector surface. In addition, the device limits the direction of the working surface in two axes, and therefore the solution cannot be considered universal for all solar systems.

The task, which the invention is directed to, is to create a universal adaptable autonomous installation for orientation of the position of a natural source of infrared radiation (the Sun), operating at minimal cost of non-renewable energy (electricity), by converting an electrical impulse into a signal for a compressor creating pressure operation of the pneumatic actuator of the forward stroke, which changes the angle of inclination of the working surface of the solar colle torus in any direction.

The technical result is an increase in the orientation accuracy, an increase in the number of possible directions of the working surface, the possibility of changing the power density of the actuators due to the modularity of the design, the versatility of the holder.

The technical result is achieved due to the design containing the base in the form of a hemisphere, on which a rectangular reflector (orientable area) is installed with a notch to the size of the base, as well as 4 direct-stroke actuators fixed at the corners of the rectangle, combining the reflector and the frame of the structure.

In the present invention, a rectangular reflector (to which any elements of the working surface of the solar collector are subsequently attached) is a heating sensor that generates control actions to change the angle of inclination and / or rotation of the working surface. A reflector of a concave shape, no more than 15 mm thick, having an air gap between the upper and lower faces, where 4 electrodes are located at the corners of a rectangular reflector from the inner side to the lower edge. At the same time, the upper edge has a thickness of no more than 2 mm and when a certain zone of the reflector surface is heated, it deforms, as a result of which it comes in contact with an electrode mounted on the lower edge. As a result of the connection of the top face with the electrode, an electrical impulse is created, which is a signal to the beginning of the operation of the actuator.

Thus, the zones of the reflector with the highest temperature create electrical impulses and the actuator belonging to this zone is compressed, lowering the heated zone. Each actuator receives discrete signals independent of each other, which ensures precise following of the working surface behind the heating source, and the base in the form of a hemisphere provides unlimited freedom for the position of the working surface.

FIG. 1 is a sketch adapted to the position of the natural source of infrared radiation (Sun), the holder of the working surface of the solar collector with a base in the form of a hemisphere and pneumatic actuators, which contains: 1 - a reflector; 2 - base in the form of a hemisphere; 3 - frame; 4 - working surface of the solar collector; 5 - pneumatic actuator forward stroke; 6 - hinged mount.

In figures 2, 3 shows a model of the reflector in section, which contains: the upper edge of the reflector 7; the lower face of the reflector 8; electrode 9;

In figures 4, 5, 6 shows a computer model of the device in different positions in the process.

The invention contains a reflector 1, hollow inside with four electrodes attached to the bottom face (a model of the reflector in a section in Figs. 2, 3, where 7 is the top face, 8 is the bottom face, 9 is the electrode), the base in the form of a hemisphere 2 on which is installed a reflector, the frame 3 to which all the elements of the installation are attached, the working surface of the solar collector 4 (in this case, a set of vacuum tubes), four pneumatic actuators for forward stroke 5, hinged connecting elements 6 for joining moving parts.

The principle of operation is adapted to the position of the natural source of infrared radiation (Sun), the holder of the working surface of the solar collector with a base in the form of a hemisphere and pneumatic actuators:

When a specific area of the reflector 1 is heated, its upper face is deformed and comes into contact with the electrode located on the lower edge, as a result of which an electrical impulse is generated that is transmitted by the conductive elements of the structure to the compressor installed in the heliosystem, which creates the necessary pressure and sends it through the internal system hose to executive mechanism 5 corresponding to the heated area. The actuator performs work to move the rod to the open state, and the oppositely located actuator performs the reverse operation. The surface of the reflector moves along the trajectory given by the support (the base in the form of a hemisphere), which takes the main load, so the actuators only set the direction, and do not hold the entire weight of the working surface.

The proposed system has a modular design with a reliable base and frame, to which actuators of various capacities can be attached. In addition, the frame and the base are of sufficient thickness in order to locate inside the network of tubes and conductive elements that provide precise control of the system with minimal non-irreplaceable energy.

The reflector can be made of an aluminum pipe with an uneven wall thickness, subjected to press processing and polishing of the upper face, as well as from another composite material with similar reflective physical characteristics.

The computer model shown in FIG. 4, 5, 6 showed that the proposed design allows you to set any angle of inclination of the working surface in any direction in an autonomous mode, and the design itself has an area for installing any equipment related to various types of solar collectors (set of vacuum tubes, individual reflectors, solar panels and etc.) and the possibility of replacing the actuators more powerful if necessary, without violating the basic principles of the invention.

When comparing the invention with the closest analogue (Pat. EN 2313046 C2, IPC ⁶ F24J 2/38; Appl. 02.03.06; Publ. 12.20.07), having a specific design without the possibility of integration with other parts of different types of solar systems, directing the working surface only along certain axes and without the possibility of increasing the power of the moving mechanisms, the following advantages of the new solution were revealed:

1) the installation is universal and can be applied in all modern heliosystems, by replacing standard fastenings of working surfaces with the specified invention, which will significantly increase its efficiency, since the efficiency of collector insolation will increase;

2) the installation will work equally effectively in any latitude, due to the absence of restrictions in the direction of the working surface, thanks to the base in the form of a hemisphere, which guarantees the adaptability of the system in any operating conditions;

3) the installation includes pneumatic actuators, which are analogous to electric drives, inheriting their main advantage - maximum accuracy when setting the angle of inclination and leveling their disadvantage in the form of a large flow of non-renewable energy due to the use of compressed air as the driving force compressor, which is present in each heliosystem;

4) the installation is able to function effectively with different load bearing, with a significant superiority over analogues, since it includes upgraded elements without changing the basic principle of operation. In other words, with an increase in the mass of the working surface, the current pneumatic actuators are replaced by more powerful ones, and the system continues to work in normal mode with increased efficiency.

The new device is designed to ensure automatic following of the working surface of the collector for the position of the Sun.

Claims (1)

Adapted to the position of the natural source of infrared radiation (Sun), the working surface of the solar collector, containing a frame of four supports, combined in the center with a hemisphere-shaped base, a rectangular reflector, hollow inside, with electrodes attached to the corners of the inner side of the lower face the ability to generate an electric pulse, four pneumatic actuators located at the corners of the outer side of the bottom face of the reflector, made with The possibility of applying force to move the reflector along the path defined by the base in the form of a hemisphere, combined with it and the frame with hinged connecting elements, while the reflector is hollow inside and made of a material that can be deformed under the influence of heat and has the ability to process the surface before acquiring a mirror reflective surface , and contains inside four electrodes attached to the bottom edge and interfaced with four pneumatic actuators direct stroke Connected to the outer side of the lower edge of the reflector by means of hinging elements.

Images