UA13969U - Tubular electric heater - Google Patents

Abstract

The proposed tubular electric heater contains a tube with filler and a spiral heating element. The heating element is installed in the helical grooves of a shackle insulator that is installed in the tube.

Description

Description of the invention

The useful model refers to electrical engineering, namely to tubular electric heaters, and can be used to heat various media (gases, liquids, solids).

A tubular electric heater is known, which contains a tubular metallic cylindrical shell and a heating cylindrical spiral coaxially located in its cavity with heat-resistant insulation, as well as layers of materials with different thermal conductivity placed between the inner wall of the shell and the spiral (see, for example, A. village of the USSR Mo930754, НОБ5В3/48, 19821.

The disadvantage of this TEN is the complexity of manufacturing due to the layer-by-layer filling of the shell cavity with various materials, which increases the cost of manufacturing.

Also known is the TEN, which contains a heating spiral located in a tubular shell with a support insulator, which is made in the form of two ceramic tubes located on one side in the gap between the spiral and the shell | see, for example, A.s. USSR Mo1820487, HO5VZ3/48, 19931.

The disadvantage of the indicated TEN is relatively low reliability, since the location of the insulator on one side of the spiral does not ensure its fixation from displacements in the opposite direction, which in the case of an arbitrary position

TENaAa in space increases the probability of spiral burnout.

The closest to a useful model in terms of technical essence and the effect it achieves is a prototype

TEN, which contains a heating spiral located in a tubular shell with a filler and a support insulator made in the form of a rod with helical grooves (recesses), which has a rectangular cross-section | see, for example, A.s. USSR Mo561308, HO5VZ/48, 1977).

The disadvantage of the known TEN consists in the small filling of the space inside the shell with the wire of the heating spiral, which reduces the power.

The useful model is based on the task of improving the TEN, in which, by changing the shape of the support insulator 29, an increase in the filling of the spiral wire in the inner volume of the shell is ensured, which leads to an increase in power.

The task is solved by the fact that in TENI, which contains a heating spiral located in a tubular shell with filler and a rod-shaped support insulator with helical grooves for placing the spiral, according to a useful model, the new thing is that the insulator in the cross-section has the shape of a multi-beam stars Gee)

Giving the cross-section of the insulator the shape of a multi-ray star, in comparison with the prototype, increases the number of helical grooves for the arrangement of the spiral, which increases the filling of the volume of the shell with a spiral wire and leads to an increase in power. co

Fig. 1 shows the claimed TEN, general view; in Fig. 2 - section AA in Fig. 1. 3o TEN contains a heating coil З and a supporting insulator 4 located in a cylindrical tubular metal shell 7 with a filler 2. The insulator 4 in cross-section (Fig. 2) has the shape of a multi-ray (multi-petal), for example, a four-ray star 5, the rays of which form helical grooves 7 on its surface for the location of the spiral. When assembling, the spiral Z is sequentially inserted into the grooves «7 of the insulator 4, as a result of which it forms rows of 8 turns, the number of which is determined by the number of rays bZ 50 of the sprocket 5, and the ends of the spiral are connected to the current-conducting rods 9. The rods 9 are fixed in the shell 7 with a hermetic an insert 10, which can be made in one piece, as shown in Fig. 1, with an electrical insulator 4,

With" or have the appearance of a separate part attached to it (not shown).

The heater works as follows.

When an electric current passes through the spiral C, it heats up, causing a heat flow through the filler 2 and the shell 7 to the external environment, which leads to its heating. - Since the multi-beam shape of the cross-section of the insulator 4 increases the number of rows 8, and therefore the length of the spiral 3, compared to the prototype of filling with a spiral, the volume of the shell 7 increases significantly, which leads to an increase in power. o With the same power as the prototype, the length of the working part of the heating element is reduced by 1.5-2 times, which

Gee! 20 allows you to use it to reduce the dimensions of products manufactured on the basis of heating elements and to reduce the consumption of materials. 3e)

Claims (1)

The formula of the invention is a tubular electric heater containing a heating spiral located in a tubular shell with a filler and a support insulator made in the form of a rod with helical grooves, which is distinguished by the fact that the insulator in the cross section has the shape of a multi-beam star. 60 b5