SU1067620A1 - Resistive electric heater - Google Patents

Abstract

RESISTANT ELECTRONIC HEATING, containing an insulating holder, fixed in its own resistive element, made of a zigzag-shaped tape covered with an insulating compound, with slots for increasing electrical resistance, and a current lead, which in order to increase the mechanical strength of the electric heater, and a drawing element, in order to increase the mechanical strength the resistive element is made in the form of a package of adjacent surfaces of zigzags of the tape, one of the slots is made along the middle of the package from the side erzhatel and the other two - along the tops of the zigzags from STORON.Y working surface, and it is fixed in the holder 1-uncut GOVERNMENTAL T obraznshda portions zigzag belt. (L Phi1.1

Description

The invention relates to electrothermal, namely, resistive electric heaters and may be used for contact heating of the surface of the product in the installation of cutting and welding of nonmetallic materials. Known electric heaters for heating products with a surface contact with it, made in the form of a resistive tape 1.. However, the known resistive electric heaters, due to the small electrical resistance, require a large current to create the temperature and, therefore, the caMbCkt complicates the apparatus used for heating. The closest to the invention is an electric heater, made in the form of a tape with slits alternately on opposite sides, curved in a zigzag shape, set by an edge-Н. On a thermo-insulating holder with fixing tabs :. This solution provides an increase in the total electrical resistance of the heater and, by increasing heat recovery, reduces its size and mass 2. The disadvantage of this electric heater is its low mechanical strength in the heated state, which prevents it from being used for contact heating in cutting devices and The welding of non-metallic materials. The purpose of the invention is to increase the mechanical strength of the electron heater for contact heating of products. i The goal is achieved by the fact that in a resistive electric transducer containing an insulating holder, a resistive element fixed therein, made of a zigzag folded tape covered with an insulating compound, with slots to increase the resistivity, and current leads, the resistive element is made in the form of a package surfaces of zigzags adjacent to each other, one of the slits is made along the middle of the package from the side of the holder, and the other two are along the tops of the zigzags from the working surface, and in the des katele (in the form of a pin) it is fastened with uncut T-shaped sections of zigzags of the tape. Fig, 1 shows a resistive element, a general view; in FIG. 2 is a view A of FIG. one; in fig. 3 - electric heater in the holder. The resistive element is made in the form of a package of 1 resistive tape, for example, of a X20H80 tape, which has a zigzag shape and forms the heating plane 2 with one edge, and the other, a plane 3 for transferring thermal pressure from D1 ripper 4. Zigzagly complex sections 5 are tightly pressed together adjacent surfaces coated with high-temperature electrically insulating compound 6, for example, a casting compound AF5-1. Such a monolithic connection of the zigzag plots into the package, together with the end arrangement of the tape, in the direction of the pressure of the thermal contact, ensures the mechanical strength of the resistive electric heater in the heated state. . The package includes slots 7 | Along the middle of the packet, and slots 8 and 9 along the vertices of the zigzags, which increase the total electrical resistance of the electric heater, are t-shaped protrusions 10, designed to fasten a resistive element in an electrically insulating holder, in the form of a pin. The dimensions of the slot 7-9 determine the width of the current-carrying portions and, accordingly, the total electrical resistance of the resistive electric heater. In order to eliminate local overheating, the width of the tox-knowledgeable sites 11 over the entire heater is the same and is calculated from the conditions of heat exchange with the environment. However, taking into account that in places of bending of zigzags, with which resistive element 1 is fixed in holder 4, current lines are curved and the maximum amount of heat is released, it is advisable to increase the width of the sections in these places by 20-30% compared to the width of the remaining sections. The ends of the tape 1 have current leads 12 for connection to a source of electrical current. Resistive motor works as follows. When voltage is applied to the current leads 12, the current flows successively through all the sections of the zigzag-like folded and intersected by the tape slots and generates heat, which is transferred by the contact method through the heating plane 2 to the surface of the heated product. The resultant heater due to the high total electrical resistance, solidity and compactness of the package is economical, small in size, durable, does not require sophisticated equipment for heating, which determines the efficiency of its use, mainly in manual cutting and welding of non-metallic materials.

Zigeagovraennye areas in the package compensate for linear expansion with changes in temperature and exclude distortion of the resistive electric heater at high temperatures.

Simple fastening of a resistive electric heater for non-cut j-shaped areas creates, satisfies its operation and simplifies the design of the holder.

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Claims (1)

RESISTIVE ELECTRIC HEATER, containing an insulating holder, a resistive element fixed in it, made of a folded zigzag folded insulating compound tape with slots to increase electrical resistance, and current leads, characterized in that, in order to increase the mechanical strength of an electric heater for contact heating of products, a resistive element made in the form of a package of adjacent to each other the surfaces of the zigzags of the tape, one of the slots is made along the middle of the package from the side of the holder la, and the other two along the tops of the zigzags on the side of the working surface, and in the holder it is fixed uncut- | T-shaped sections of the zigzags of the tape.