CS218843B1 - Multi-zone test furnace with longitudinal opening - Google Patents

Abstract

The invention relates to a multi-zone test furnace with a bottom opening and consisting of two parts. The essence of the invention lies in the fact that in both parts of this furnace, rotatably mounted around a pin, there is a heating winding of the heating zones located in a system of supporting ceramic capillaries, mounted in guide grooves of semicircular segments, attached to a supporting frame, connected with a protective cover while maintaining a mutual gap, and this gap is filled with thermal insulation material. The multi-zone test furnace according to the invention optionally has additional heating zones assembled from ceramic capillaries mounted in the outer track of the two-groove supporting semicircular segments.

Description

The invention relates to a multi-zone " half opening " trial care consisting of two parts.

The essence of the invention is that in both parts of the furnace, rotatably mounted around the pin, the heating winding of the heating zones located in the ceramic support system takes place. capillaries, embedded in guide grooves of semicircular segments, attached to a support frame associated with maintaining a gap with the protective cap, and this gap is filled with thermal insulation material.

The multi-zone test furnace according to the invention optionally has additional heating zones composed of ceramic capillaries embedded in the outer path of the two-groove carrier semicircular segments.

The invention relates to a longitudinal opening test furnace consisting of two parts which can be longitudinally opened into two independent halves, allowing the furnace to be moved away from the heated object.

Until now, these furnaces have been manufactured from two semi-cylindrical parts lined with ceramic material in which heating elements are embedded. The main disadvantage of this embodiment is an impossible or very difficult repair in case of damage or burning of the heating coil.

These disadvantages are overcome by the multi-zone test furnace according to the invention, which is based on the fact that in both parts rotatably mounted around the pin, the heating windings of the heating zones located in the ceramic capillary system are mounted in guide grooves of semicircular segments fastened to the support frame. a gap with a protective cover, and this gap is filled with a thermal insulation material.

This method of construction makes it possible to easily manufacture the entire test furnace by simple means, and in the case of burning a part of the heating coil, the damaged part of the coil can easily be found in the respective ceramic capillary and replaced easily.

The individual figures in the drawing show an example of the arrangement of such a drop test furnace. Fig. 1 is a view of one half of the furnace; Fig. 2 shows a plan view of the partially opened furnace; Fig. 3 shows an alternative three-zone arrangement of ceramic capillaries in a two-slot support segment; Fig. 4 is a plan view of Fig. 3; 3-wire heating wire in ceramic capillaries.

The opening test furnace according to FIG. 1 consists of ceramic capillaries 1 in whose openings the heating coil 2 runs. The ceramic capillaries 1 are held in their upper and lower parts in the guide groove of the supporting semicircular segment 3. These segments 3 are at several points, e.g. the bolts through the spacing tubes 11, attached to the semi-cylindrically shaped support frame 4, to which a protective cover 6 with fronts 7 is fastened by means of spacers 5 and the gap 8 between the support frame 4 and the protective cover 8 thus filled with thermal insulation, preferably fiber . The second half-hearth of the drop test furnace is formed in a similar manner. The two halves of the test furnace are connected by a rotary hinge mechanism 9 and a locking bolt 10. All internal parts of the furnace, such as the support frame 4, the semicircular segment 3 and the spacers 5, are made of heat-resistant steel. The ceramic capillaries 1 are secured at the point of passage through the carrier semicircular segment 3 against displacement by the refractory sealant 12. The individual hairpins of the heating coil 2, which run in the ceramic capillaries 1 and in the short ceramic capillaries 16 are twisted or welded The terminal blocks of the left and right half of the opening test furnace are connected in parallel or in series outside the furnace by a short flexible cable 14 with silicone insulation. Handles are designed to handle both halves of the test furnace

In the embodiment of Figures 1 and 2, the short ceramic capillaries 16 of the auxiliary heating zones are disposed in the gaps between the ceramic capillaries 1 of the main heating zone. In the embodiment of FIGS. 3 and 4, the carrier semicircular segment 3 is designed as a two-groove and additional heating zones are formed from the short ceramic capillaries 16 embedded in the outer path of the two-groove carrier half, the circular segment 3. The heating coil 2 corresponding to this embodiment is shown in FIG. Fig. 5.

By dividing the heating system into several sections with the course of the heating coil, for example according to Fig. 5, and connecting each individual heating zone to a separate supply or control unit, either a very uniform temperature distribution is achieved over almost the entire length of the test furnace, or vice versa bands with different temperatures as needed. Due to the low thermal inertia, the test furnace is rapidly heated to an operating temperature of up to 1200 ° C.

A multi-zone longitudinal opening test furnace may be used where the heated object or test specimen cannot be or desirably removed from the furnace after heating and must remain in the initial position during further processing. It concerns, for example, when studying the properties of a material in strength, fatigue or plastometry tests, and wherever the heater must be removed in order to be subjected to various mechanical or physical influences in the unaltered position.

Claims (2)

Multi-zone longitudinal opening test furnace, consisting of two parts, characterized in that in both parts rotatably mounted around the pin there is a heating winding (2) of the heating zones located in a system of supporting ceramic capillaries (1, 16) supported in the guide grooves of the semicircular segments (3) attached to the support frame (4) associated with the retention of the invention the mutual gap (8) with the protective cover (6) and this gap (8) is filled with thermal insulation material. Multi-zone test furnace according to claim 1, characterized in that it has additional heating zones composed of ceramic capillaries (16) mounted in the outer path of the two-groove carrier semicircular segments (3).