SU1653889A1 - Gas pulsing head - Google Patents

Abstract

This invention relates to the design of gas pulse molding machine assemblies. The purpose of the invention is to increase the power of the gas pulse head. The head contains a spherical body 1, in which a flat deflector 2 is placed. Between the deflector 2 and the upper body of the sphere 1, a fan 3 is located. The rotation axis of the fan 3 coincides with the axis of symmetry of the body 1. A fuel supply pipe 4 is supplied to the internal cavity of the body 1 gas. In the center of the case there is a source 5 for igniting the gas-air mixture. 2 Il.

Description

R1

This invention relates to the field of dark manufacturing, in particular, to the design of gas pulse molding machine assemblies.

The aim of the invention is to increase the power of the gas-pulse head by reducing heat losses.

Figure 1 shows a gas pulse head, a vertical section; in Fig.2 a section a And in Fig.1.

The gas pulse head (GIG) contains a spherical body 1. Inside the body 1 there is a flat horizontal deflector 2, which has the form of a ring. Between the deflector 1 and the upper dome of the sphere of the housing 1 there is a fan 3 of radial type. The rotation axis of the fan 3 coincides with the axis of symmetry of the housing 1. The pipeline 4 for supplying the combustible gas is supplied to the internal cavity of the housing 1. In the center of the case there is a source 5 for igniting the gas-air mixture (HWS).

The braces indicate the direction of the DHW movement.

GIG works as follows.

Pipeline 4 supplies a portion of combustible gas to the inner strip of housing 1, which is necessary and sufficient for obtaining a stoichiometric composition inside hot water tank 1. DHW. located at the level of the suction inlet of the fan 3, is captured by the flow created by the fan 3 and is transferred upwards. It then enters the air flow created by the impellers 7 of the fan 3, rotates 90 ° and rushes to the periphery of the GGG in the discharge cavity 8 housing 1. When turning the hot water supply on 90P, it does not lose speed, but on the contrary, it accelerates, since it is additionally accelerated by the impellers 7, which is a natural property of radial-type fans.

In the transition from the cavity 8 in the suction strip 9 through the annular gap 10

The DHW also does not undergo a significant change in speed, since the housing 1 has a smooth spherical shape, and the DHW does not suffer as a result of significant aerodynamic drag. In the DHW cavity 9, it is additionally accelerated due to the pressure difference that occurs between the gap 10 and the orifice 0.

When the DHW turns out of the belt and 9 in the direction of the aperture 6, it also does not suffer aerodynamic resistance, as it gets and the flow created by the vertical component of the draft force of the fan 3.

Thus, the proposed device allows creating a circulating flow of hot water without stagnant zones, which therefore has a practically constant speed throughout the entire volume of the IG. Moreover, during the combustion of hot water, the spherical shape of the IHG prevents the development of the combustion reaction without heat losses associated with interference reflected pressure waves

Claims (1)

Claims of the invention: A gas pulse head containing the case in which the deflector, the fan and the ignition source of the gas-air mixture are located, communicated with a gas supply source, characterized in that, in order to increase the power of the gas-impulse head by reducing heat losses, the housing is spherical in shape, the deflector is in the form of a flat horizontal the ring is located, and the fan is installed of the radial type and is placed between the upper body roof and the deflector. 2