UA134292U - BURNING VORTIC HEATING AND COOLING DEVICE - Google Patents

Abstract

Dual vortex heating and cooling device includes a pump with actuator, pipes for connection to the inlet and outlet of the pump, routes, radiators, device for converting the energy of the fluid flow into thermal energy. A vortex tube is installed as the energy conversion device at the pump outlet, the hot outlet of which is connected to the heat supply system and the cold outlet to the refrigeration chamber.

Description

The proposed useful model belongs to thermal power engineering, namely to the constructions of modern non-traditional energy technologies.

The closest analogue of the proposed useful model is the well-known method of heat generation and the heat generator (Patent VO Mo 2241919, P24) 3/00. Publ. 10.12.2004), which contains a pump with a drive, pipes for connecting to the inlet and outlet of the pump, lines, heating radiators, a device for converting the energy of the flow of liquid into thermal energy, which ensures the conversion of the energy of pressure movement of the liquid into thermal energy in the operating temperature range .

The disadvantage of this well-known device is a large thermal inertia, periodicity in the operation of the device, which does not allow to increase the efficiency.

The useful model is based on the task of improving the device by introducing new structural elements into the system, which will allow to increase the coefficient of energy use, reduce the consumption of electrical energy due to the use of two circuits, and increase the coefficient of useful action.

The task is solved by the fact that in a dual vortex heating and cooling device, which contains a pump with a drive, pipes for connecting to the pump inlet and outlet, tracks, heating radiators, a device for converting the energy of the liquid flow into thermal energy, according to the proposed useful model , as an energy conversion device, a vortex tube is installed at the output of the pump, the hot output of which is connected to the heat supply system, and the cold output is connected to the refrigerating chamber. The introduction of a circuit with a refrigerating chamber into the system makes it possible to use energy more rationally, not only for heating, but also for cooling in the summer, which makes it possible to increase the energy utilization ratio and increase the efficiency ratio.

The essence of the proposed dual vortex heating and cooling device is explained by the drawing, which presents its schematic image.

The dual vortex heating and cooling device includes pump 1, pressure pipe 2 of pump 1, vortex pipe 3, pipes 4 of the heating circuit, heating batteries 5, suction pipes 6 of pump 1, refrigerating chamber 7, pipes 8 of the cooling circuit.

The principle of operation of the proposed device is as follows.

When the drive of pump 1 is turned on, water is supplied through pressure pipe 2 of pump 1 to the vortex

From pipe 3, where the transformation of the kinetic energy of fluid movement into thermal energy begins. The thermal energy produced by the vortex tube 3, the hot outlet of which is connected to the heat supply system, is supplied by the movement of water to the pipes 4 of the heating circuit and then to the heating battery 5. After the battery 5 is heated, the water through the suction pipes 6 of the pump 1 returns to the pump 1. The cold outlet of the vortex tube C is connected to the refrigerating chamber 7 by the pipes 8 of the refrigerating circuit. After passing through the refrigerating chamber 7, the water through the suction pipes 6 of pump 1 returns to pump 1. Then the cycle is repeated.

Claims (1)

USEFUL MODEL FORMULA 40 A dual vortex heating and cooling device containing a pump with a drive, pipes for connecting to the pump inlet and outlet, tracks, heating radiators, a device for converting the energy of the fluid flow into thermal energy, which is distinguished by the fact that as a device for converting energy at the output the pump is equipped with a vortex tube, the hot outlet of which is connected to the heat supply system, and the cold outlet is connected to the refrigerating chamber.