SU1309332A1 - Electric heater - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase the service life of the electric heater. The heater contains a radiation pipe 1. Inside the pipe 1 is placed in. insulation discs 4 are a set of U-shaped heating elements 3. The branches of the heating elements 3 of the same length are installed parallel and symmetrically to the axis of the heater with a bending radius of almost two times larger than that of the prototype. The ends of the branches 5 are connected to two current leads 2 with an offset relative to the ends of the adjacent heating elements 3 along the axis of the heater by an amount not less than the diameter of the heating elements 3. 1 sludge. with (L oo o with 00

Description

t1309332

The invention relates to the field of high-temperature heating and can be used for heating during heat treatment of metals.

C (1 of the invention is an increase in the life of the electric heater.

The drawing shows the heater, axonometrics.

The heater contains radiation

2

the external network is 10 V, and its electrical power is 10 kW.

The proposed design of the heater has in comparison with the known significant advantages. With the same geometrical sections of the heating elements for the sake of bending and-shaped elements 3, the heater is almost twice as large, h

pipe 1, current leads 2, rigid U-about-O in the known. This makes it possible

different heating elements 3 and insulating spacing discs 4. Elements are made of equal length and are attached. The ends 5 to the current leads 2 are displaced from the distance of the longitudinal axis, the minimum value of which can be no less than the diameter of the element 3.

The maximum value of q is recommended that their contact does not exceed the distance. Electron does not occur in the straight-line sections of the AB of the neighboring sample and burnout to reduce internal mechanical stresses and use a conductor with a more massive cross section, which increases the heater's service life. In addition, there is no potential difference between adjacent branches of elements 3 connected to the same current lead and, therefore, even with direct elements 3. The branches of each element 3 are located symmetrically relative to the axis of the OO, i.e. elements 3 have a common axis with a heater.

The heater works as follows.

When voltage is applied from the external electric circuit to the current leads 2 through the I-shaped elements 3, an electric current flows, which, due to Joule heat, causes their heating. The radiation tube 1 is heated by radiation and heat conduction. The heat flux from the outer walls of the radiation tube 1 is used to heat the working space of the furnace.

Example. In the radiation tube 1 with a diameter of 121, a length of 1700, and a wall thickness of 6 mm, made of steel ОХ23Н18, were placed five U-shaped conductors 3 of the XH7010 nichrome alloy 9.0 in diameter and 1330 mm in length. The conductors are threaded into holes with a diameter of 9.5 mm of five insulating disks 4 of 110 mm in size, made of cordierite, and displaced along the axis by 9 mm. The current leads 2 are made of steel sheet brand OH23N18 14 mm thick. The ends of the current lead 2 are chamfered and curved around a circle with a diameter of 90 mm. The contacts of current-conducting conductors are welded. Welding is made by NII-48 electrodes. For thermal insulation, cutting discs with a diameter of 110 mm made of fireclay bricks are put on the CURRENTS. The heating element is rated for 2

the external network is 10 V, and its electrical power is 10 kW.

The proposed heater design has compared with the known number of significant advantages. With the same geometrical dimensions of the heating elements, the bending radius of the i-shaped elements 3 into the heater is almost twice as large as

in the famous. This makes it possible

Their electrical contact does not cause electrical breakdown and burnout to reduce internal mechanical stresses and use a conductor of a more massive cross section, which contributes to an increase in the service life of the heater. In addition, between adjacent branches of the elements 3 connected to the same current lead, there is no potential difference and, therefore, even with

0

warmer The branches of the elements 3 are located in the same U1 and are in the same temperature conditions during operation. Since there is no rigid mechanical connection between the current leads in the direction perpendicular to the pipe axis, there is no mechanical stress due to thermal expansion of the material of the heating elements and the current leads. In addition, the burnout of one U-shaped

failure of not only partial partial elements leads to a heater, but only

35 to the life of his power.

Claims (1)

Invention Formula An electric heater containing a radiant tube inside which a set of rigid and-shaped heating elements of equal length, installed at equal pitch along the perimeter, threaded through the holes of the insulating discs and connected to the electrical leads, is installed coaxially with it; electric heater service, branches of each heating the element is placed symmetrically about the axis of the electric heater, and the points of attachment of their ends to each current lead are offset along the axis of the heater relative to the points of attachment of the branches of adjacent heating elements by an amount not less than the diameter of the wire of the heating element.