CS259708B1 - Carrier of heating element shaped into helix,for industrial furnaces - Google Patents

Abstract

The heating element carrier is particularly suitable for fibrous linings. Appropriate optimization its dimension has reached its maximum load capacity with minimal weight and elimination the action of this tilting moment support member and thus a reliable anchorage in fibrous lining. Carrier Part of Carrier Has a semicircular recess and ends with a support the portion from which the storage portion protrudes is of rotary shape with an outer diameter of 10 to 30 mm, with a length of 30 to 60 mm, with a ratio of the length of the support portion to the length of the support portion 1.4 up to 1.7. The supporting surface of the supporting part is minimized 600 mm2.

Description

The invention provides a helical-shaped heating element carrier for industrial furnaces, in particular for fiber-lined furnaces.

Hitherto, the heating elements are inserted directly into the cavities formed in the inner wall of the lining, or are placed on carriers whose bearing portion, for example in the form of a plate, provided with a ridge is supported by a support formed on or in the form of a chip mounted in a special metal structure inside the furnace.

Other known carriers are woven into an opening in the lining wall preformed for the carrier portion of the carrier. Heating element carriers are also known, by means of which ceramic tubes are wrapped with a heating coil and set in their ends in recesses of opposite consoles formed on the bearing blocks.

The disadvantages of the prior art are, in particular, that the shape of the bearing space in the bearing block must be matched in size and shape either directly with the shape of the heating element for which it is intended or with the shape of the bearing part of the carrier. The prism-shaped support part makes it impossible to use the carriers separately in the case of lining solutions other than the classical way. Also, different lining shapes for the support portion of the carrier are not possible in the case of a fibrous lining.

Disadvantages of the known heater support solutions of the prior art are eliminated by a helical shaped heater support for resistance furnaces, in particular for fibrous lining furnaces, the support portion of which has a semi-circular recess for receiving the heating element and terminates in a support portion from which the support portion protrudes. characterized in that the bearing part is of a rotating shape with an outer diameter of 10 to 30 mm, a length of 30 to 60 mm, with a ratio of the length of the carrier to the length of the bearing part of 1.4 to 1.7, over the lining, in at least two directions it extends beyond the circumference of the bearing part and its supporting surface is at least 600 mm ² .

The main advantage of the heating element carrier according to the invention is that it can be inserted into a hole drilled directly into the lining, at any pitch and size as desired, so that there is no need for shaped support blocks in the lining. By optimizing the dimensions of the support, its maximum load capacity was ensured at its minimum weight and the effect of the tipping moment of the support itself and the associated part of the supported heating element was reduced to a minimum, thus avoiding breakout of the support even from fibrous linings. The assortment of the necessary supporting parts and the laboriousness of the furnace production were also significantly reduced.

An exemplary embodiment of a heater carrier according to the invention is shown in the accompanying drawing.

The heating element carrier comprises an integral body consisting of a support part 1 which is provided with a chamfer 5 on the front side and a semicircular recess 3 with a diameter D 28 mm inside. The support part 1 is terminated by a support part 4, from which the support part 2 protrudes.

The bearing part 2 is of a rotary conical shape with a 1: 40 conicity. Its surface can be provided with grooves for better sealing into the fixing holes in the lining. The outer diameter d of the housing part 2 is 18 mm, its length 1 is 40 mm. The abutment portion 4 that abuts the lining extends in at least two directions beyond the circumference of the receiving portion 2 and has a abutment surface of at least 600 mm ² . The ratio of the length ΐ of the support 1 to the length 1 of the support 2 is 1.45.

The described carrier example is designed for heating elements with a helix diameter of 25 mm. However, since the design of the carrier is universal, the carrier can also be used for heating elements of other dimensions. For example, for a heater with a helix diameter of 18 mm, the diameter D of the semicircular recess 32 will be 20 mm, the outer diameter d of the storage portion 2 will be 10 mm, the length 1 of the storage portion will be 30 mm, and the L: 1 ratio will be 1.4.

For a larger heating element with a helix diameter of 35 mm, the diameter D will be 40 mm, the length will be 60 mm and the L: 1 ratio will be 1.7. At the same time, the surface of the receiving part 2 can have a cone of at most 1:30 at any selected size of the heating element, or it can also be cylindrical.

The heating element carrier according to the invention is suitable for hanging the heating elements on the furnace lining, in particular a fiber lining furnace, where it is not possible to preform the cavities or supports for the heating elements or to create openings or recesses for the support portion of the supports.

Claims (3)

A helical-shaped heating element carrier for resistance furnaces, in particular for lining furnaces, the support part of which has a semicircular recess and is terminated by a support part from which the support part protrudes, characterized in that the support part (2) is rotatable having an outer diameter (d) of 10 to 30 mm, a length of 30 to 60 mm, with a ratio of the length (L) of the support (1) to the length (1) of the receptacle (2) of 1.4 to 1.7, VYNALEZU The part (4) of the support part (1) abutting the lining extends in at least two directions beyond the circumference of the bearing part (2J) and its supporting surface is at least 600 mm ² . Heating element carrier according to claim 1, characterized in that the bearing part (2) is conical, with a conicity up to 1:30. Heating element carrier according to Claim 1, characterized in that the receiving part (2) is provided with grooves.