SU1633241A1 - Transparent vacuum enclosure for solar radiation collector - Google Patents

Abstract

The invention relates to solar technology and allows to simplify the operation of a transparent evacuated fence of a helium collector. The enclosure contains frame 1 and layers 3 of transparent material fixed on it with spacers 4 installed in an evacuated cavity (P) 2 between them. The deformation of the layers 3 under the action of atmospheric pressure and temperature fluctuations compensates for the elastic gaskets 7. In the frame 1 a conical opening 6 is made, into which the conical nozzle (KP) 5 is inserted. During the evacuation of P 2, air is sucked through KP 5, which is then sealed. If re-evacuation is required, P 2 is replaced by gearbox 5. This simplifies operation by facilitating the sealing operation of P 2, for example, when replacing glasses. 1 hp f-ly, 3 ill.

Description

The invention relates to solar engineering, to the structural elements of solar collectors.

The aim of the invention is to simplify the operation by providing the possibility of repeated evacuation of the enclosure cavity during installation or replacement of its elements.

In FIG. 1 shows a guard, cross section; in FIG. 2 - the same, top view; in FIG. 3 - spacer.

The fence contains a frame 1 of t-bars, secured to it with the formation of a vacuum cavity 2 layers 3 of transparent material with spacers 4 installed between them and a device for evacuating the cavity in the form of a plugged removable conical pipe 5. In frame 1 there is a through hole 6 corresponding to it oriented smaller base towards the cavity 2, and the pipe 5 is placed in the hole 6, and the frame 1 in the area of contact with the pipe 5 and the layers 3 of the transparent material is equipped with elastic gaskets 7. rostavki 4 arranged in a staggered manner, provided with elastic gaskets 8 and have a support 9.

Assembly fencing is as follows.

A thin layer of sealant is applied to the gaskets 7, then layers of glass 3 and spacers 4 are installed. The cavity 2 is evacuated through the pipe 5, after which it is sealed by melting the pipe 5. In this case, the layers 3 are pressed against the frame 1, and the pipe 5 is drawn into the hole 6 The load on the layers 3, associated with the pressure difference between the outside and the fabric 2, is evenly distributed on the spacers 4.

When replacing the glass or depressurization of the cavity 2, it is enough to replace the nozzle 5 and pump out the air from the cavity 2 until a vacuum is reached, after which the fence is again ready for operation.

Simplicity of design, lack of parts of complex configuration and manufacturability of assembly and replacement of damaged parts of the fence simplifies its operation. In addition, the uniform distribution of the load, the absence of clamps that create local stresses, the compensation of the displacement of the layers 3 under the influence of temperature or pressure fluctuations by elastic gaskets protect the fencing parts made of brittle materials (for example, glass) from destruction.

Claims (2)

Claim 1. A transparent evacuated fence of the solar collector containing a frame of t-bars, sections of transparent material fixed on it with the formation of a vacuum cavity with spacers installed between them and a device for evacuating the cavity, characterized in that, in order to simplify operation, the device is made in the form of a damped removable conical pa1-cabin, and in the frame there is a through hole reciprocal to it, oriented by a smaller base towards the cavity, and the pipe size ene in the hole, and the frame in the zone of contact with the pipe and layers of transparent material provided with resilient pads. 2. The fence according to π. 1, on the basis of the fact that the spacers are staggered and equipped with elastic gaskets. Fig.Z