RU13129U1 - COMPRESSED GAS FLOW ELECTRIC HEATER - Google Patents

Abstract

1. An electric heater of a stream of compressed gas containing a sealed housing with inlet and outlet openings, a heat insulator installed in it and a heating element in the form of a spiral, characterized in that the heating element is placed in a spiral groove made on the surface of a cylindrical rod made of heat-insulating material insulated coaxially in the heat insulator with a gap, while the outer surface of the insulator, which is made in the form of a hollow cylinder, is tightly pressed attack to the inner surface of the sealed enclosure, in which the inlet and outlet openings are located on opposite sides and inside it, behind the inlet there is a divider with holes opposite the gap between the thermoelectric insulator and the insulating rod. 2. An electric heater of a stream of compressed gas according to claim 1, characterized in that the thickness of the gap between the thermoelectric insulator and the insulating rod does not exceed the diameter of the spiral coil of the heating element.

Description

COMPRESSED GAS FLOW ELECTRIC HEATER

The inventive device relates to electric heaters of a fluid, and more specifically to electric heaters of gas flows and can be used in mechanical engineering.

Known electric gas heater (ed. Certificate. No. 291381, class MKI6 H05 B, 1969), containing a sealed enclosure in which a casing with external and internal spiral fins and placed in it, mounted in insulators, heating elements, and an inlet on a side wall, near the end of the sealed housing on which the outlet is made.

The design of this heater is complex and voluminous, which limits its use for heating compressed gas in small installations, such as, for example, installations for gas-dynamic coating of powder materials.

Known electric heater application for the issuance of a certificate for a utility model No. 98123260/20 (025653); the issuance decision of April 26, 1999, containing a sealed enclosure with a casing installed inside it, the cavity of which is filled with a thermoelectric insulator with cylindrical channels in which the heating element is placed.

This device is convenient to use and provides efficient heat removal, but it is rather difficult to manufacture and bulky, which does not allow it to be used in portable devices.

The objective of this solution is to simplify the design and reduce the size without reducing the efficiency of heat removal.

The problem is solved in that in the known electric heater of the compressed gas stream containing a sealed enclosure with inlet and outlet openings, a heat insulator and a heating element in the form of a spiral installed in it, the latter is placed in a spiral groove, made MKI6 N05 V 3/20

on the surface of a cylindrical rod of heat-insulating material insulated coaxially in the insulator with a gap, while the outer surface of the insulator, which is made in the form of a hollow cylinder, is tightly pressed to the inner surface of the sealed housing, in which the inlet and outlet openings are located on opposite sides and inside him, behind the inlet there is a divider with holes opposite the gap between the heat insulator and the electrical insulating erzhnem.

For more reliable retention of the spiral in the groove and increase the efficiency of heat removal, the gap between the heat insulator and the insulating rod is proposed to be made not exceeding the diameter of the spiral of the heating element.

It differs from the known inventive device in that the heating element in the form of a spiral is placed in a spiral groove made on the surface of a cylindrical rod from an insulating heat-resistant material mounted coaxially in a heat insulator with a gap; inside the case, behind the inlet of which there is a divider with holes opposite the gap between the heat insulator and the insulating rod ..

The utility model is illustrated by drawings, where in FIG. 1 is a diagram of the device, figure 2 is a section of the gap with a spiral coil located in it.

The device contains an external sealed enclosure 1 with an inlet 2 and an outlet 3. Inside the enclosure 1, a heat-insulator 4 made in the form of a hollow cylinder is installed coaxially, inside of which, with a gap 5, a cylindrical rod 6 made of heat-insulating material is insulated, on which a spiral groove 7 is made , in which the heating element is located 8. Inside the housing behind the inlet 2 there is a divider 9 with holes 10 opposite the gap 5.

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goes to the outlet 3. Moreover, since the gas flow passes through a rather narrow gap between the heat insulator 4 and the insulating rod 6, it has a high speed and intensively blows around the spiral heating element 8, which leads to an increase in the heat removal efficiency.

At high temperatures, the mechanical properties of the electric coil change, and if it overheats, when compressed air moves along the gap in which it is located, it can be pulled by a gas stream from the groove. To prevent this, the gap between the heat insulator and the insulating rod is proposed to be made not exceeding the diameter of the spiral of the heating element (Fig. 2.). In addition, a decrease in the width of the gap leads to an increase in the velocity of the gas flow and, therefore, to an increase in the efficiency of heat removal.

Such an electric heater is small in size, it has no complicated configuration parts, it is easily installed in industrial plants where heated compressed gas is used, for example, installations for gas-dynamic coating of powder materials.

Claims (2)

1. An electric heater of a stream of compressed gas, comprising a sealed housing with inlet and outlet openings, a heat insulator installed in it and a heating element in the form of a spiral, characterized in that the heating element is placed in a spiral groove made on the surface of a cylindrical rod made of heat-insulating material insulated coaxially in the heat insulator with a gap, while the outer surface of the insulator, which is made in the form of a hollow cylinder, is tightly pressed attack to the inner surface of the sealed enclosure, in which the inlet and outlet are located on opposite sides and inside it, behind the inlet there is a divider with holes opposite the gap between the thermoelectric insulator and the insulating rod. 2. The electric heater of the compressed gas stream according to claim 1, characterized in that the thickness of the gap between the thermoelectric insulator and the insulating rod does not exceed the diameter of the spiral coil of the heating element.