SU1464014A1 - Solar power plant - Google Patents

Abstract

The invention relates to a hot and hot water solar system. The purpose of the invention is to simplify the design and reduce the weight of the solar system by eliminating the pump and making a number of elements from a lightweight elastic material. The tank accumulator 2 with the upper p the lower capacitances 3, 4 is installed below the level of the solar collector I, made in the form of two sheets of elastic material connected along the perimeter of the material with rigid gaskets installed between them. The solar receiver 1 is connected to the tank 3 by a supply pipe 9, and to the tank 4 by an outlet pipe 10 with an air-cooler 11 mounted on it. The bottom 7 of the tank 3 is movably mounted and spring-loaded relative to the bottom 8 of the tank 4, and the side walls 5 are made elastic and connected to the walls 6 of the container 4 along the perimeter of the upper edges 13. When the solar plant is in operation, in the absence of a mixture of hot and cold heat transfer fluids, the cylinder is carried out without the use of pumps. This is the same as the implementation of the walls 5 of the container 3 and the solar collector elastic, structurally simplifies and facilitates solar control. 2 or.f. -Q (L 2 Phage g

Description

The invention relates to solar technology, to heliosystems of warm and hot water supply.

The purpose of the invention is to simplify and reduce the mass of the structure.

Nfig. a solar power plant is depicted in a working state before the start of circulation; figure 2 - the same, before the complete emptying of the upper tank and filling the bottom.

The solar system contains a solar receiver I and a tank battery 2 torus 2 installed below its level with upper and lower tanks 3 and 4, with side walls 5 and 6 and bottoms. 7 and 8. The supply pipe 9 of the solar collector 1 is connected to the tank 3, to the tank

4 is its discharge pipe 10 with air duct mounted on it Lem 1I. The bottom 7 of the upper container 3 is movably mounted and spring-loaded by a spring 12 relative to the bottom 8 of the lower container 4. Side walls

The upper container 3 is filled with elastic and connected to the walls. 6 of the lower container 4 along the perimeter of the upper edges 13,

The solar receiver 1 is made in the form of two sheets connected along the perimeter (not shown) with rigid gaskets installed between them (not shown). The section 14 of the pipeline 9 is made flexible, the air separator 11 is elastic, and the pipe 15 is equipped with the edge 15. The water is discharged through the nozzle .10 with a valve 17 from the tank 6. The containers 3 and 4 have a cover 18, and the container 4, besides air outlets 19.

Solar power plant works as follows.

In the upper tank 3, a heat carrier is poured. In this case, the spring 12, the stiffness of which is determined by fork;

k - -

  .h

where P is the weight of water in the tank 3; ,

h is the height of the large container 4, is compressed, and the elastic walls 5 are expanded and the bottom 7 is set to the lower position. The tank-battery 2 is closed with a lid 18. Then, using an elastic resilient air separator 11 with a non-return valve (not shown), air is pumped out of the pipeline 9 and the E-receiver 1, the latter being compressed by atmospheric pressure and due to rigid gaskets into the solar receptacle Channel I forms channels (not shown) for the circulation of the coolant, and water from the tank 3 fills the helio receiver 1, the air separator 1 1 and the outlet pipe 10 through the dilution and starts to flow into the tank 4. The flow of the coolant for Ensuring its effective heating is controlled by a tap 15.

As the heat carrier in the solar collector 1 heats up, the dissolved air begins to be released, which is collected in the air separator 11, the level of the coolant in which decreases as air accumulates. When the volume of the heat carrier in the tank 3 decreases, the spring 12 expands, the bottom 7 rises and the water level in the tank 4 increases, and the excess air in the tank 4 is removed through the opening 19. At the end of the cycle, all the heat carrier from the tank 3 is heated in solar collectors 1 enters the tank 4 (Fig.2), and the bottom 7 of the tank 3 under the action of the spring 12 occupies the upper position, and the analysis of the heated coolant is carried out through the pipe 16,

When the proposed solar plant operates in the absence of a mix of hot and cold heat transfer fluids, circulation is carried out without the use of pumps. This, as well as the design of the walls 5 of the container 3 and the solar collector 1, structurally simplifies and facilitates the solar control.

Fore

Mule Invention

A solar tank containing a solar receiver and a battery tank installed below its level with upper and lower capacitances with side walls Mi and bottoms, one of which is connected to a supply line, and to another with an outlet pipe mounted on It is an air separator, characterized in that, in order to simplify and reduce the mass of the structure, the supply pipe is connected to the upper tank, the bottom of which is set movably to spring-loaded relative to

J464014. four

the bottom of the lower tank, and the side walls are made in the form of two joints made of elastic and connected along the perimeter of the elastic sheets with the walls of the upper container along the perimeter with the upper edges of the upper edges and between the gel-receiving rigid spacers.

13

nineteen

1

Claims (1)

Claim A solar installation containing a solar collector and a tank-accumulator installed below its level with upper and lower tanks with side walls and bottoms, one of which is connected to the solar collector by a supply pipe, and to the other a discharge one with an air separator installed on it, characterized in that, with In order to simplify and reduce the weight of the structure, the supply pipe is connected to the upper tank, the bottom of which is mounted movably and spring-loaded with 146401 of the bottom of the lower tank, and the side walls are made elastic and connected to the walls of the upper tank along the perimeter of the upper edges, and the solar collector is made in the form of two sheets of elastic material connected around the perimeter with rigid gaskets installed between them. Editor A. Motyl Compiled by K. Zagranichnaya Tehred L. Oliynyk Corrector v. Gnrnyak Order 812/44 Circulation 634 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhgorod, st. Gagarina, 101