NL8101759A - METHOD FOR PRODUCING SUBMERSIBLE THERMOCOUPLES USED IN THE PURIFYING AND ALLOYING OF METALS, AND A THERMOCOUPLE MADE ACCORDING TO THE METHOD - Google Patents

Description

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A method of manufacturing immersible thermocouples used in the refining and alloying of metals, as well as a thermocouple manufactured by the method.

The invention relates to the manufacture of submersible thermocouples used in the refining and alloying of metals.

Thermocouples for the above "purpose" have a hot transition from bimetal supported in a U-shaped quartz glass tube over refractory molded into a self-supporting member or supported in a plastic material housing. This refractory material serves as a heat shield to protect the intermediate and cold junctions of the thermocouple during use.

It has proved difficult to manufacture these thermocouples inexpensively and consistently, and the desired consistency of accuracy in measuring temperatures in molten metal is not always achieved.

A method of manufacturing this type of thermo couple is described in South African Patent 78/0165, which describes the use of a mold made of resilient material. The preferred form of the material used is expanded polystyrene, and the process has many advantages which have been noted in the above-referenced patent and need not be repeated here.

The invention relates to a modification of that method.

According to the invention a method for manufacturing thermocouples is provided, comprising: i. arranging the non-refractory components between the two halves of a resilient shape; ii. evacuating the mold with the air outlet arranged at the height to which the refractory material in the thermocouple is desired; iii. introducing the refractory material by suction into the mold, and iv. setting and curing the material in the closed mold.

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According to an embodiment of the invention, the mold is provided with an excellent vacuum connection and inlet for the refractory material and the complete mold with the components arranged therein is enclosed in a bag of thin plastic material 5 before the vacuum is connected and the refractory material the shape is introduced.

The invention will be explained in more detail below with reference to the drawing, in which:

Fig. 1 shows one half of the mold, and 10 Figo * 2 shows the mold upon filling.

The mold 1 is made of expanded polystyrene, which is itself molded to obtain a number of cavities 2. The shape 1 consists of two halves that mirror each other.

Each cavity 2 is shaped to hold the non-refractory components of the thermocouple in a fixed position and at spaced intervals, while the resilience of the material ensures that these components are sealing against the walls of the mold .

The mold can be filled in the state illustrated in the drawing. There is an inlet connection 3 for introducing refractory material into the mold and each cavity is connected to the following through a connecting opening 4. Openings 4 are arranged at the exact height to which refractory material is required in the finished thermocouple.

An outlet connection 5 to a suction pump is also arranged at this level.

Both joints 5 and 5 are preferably made as tapered spigots and the entire shape is sealed in a bag 6 of thin polyethylene material.

50 When the mold is in the indicated condition, all it takes to fill it is piercing the bag 6 at the joints 3 and 5 and the bag 6 airtight to hold these joints by connecting pieces 7 and 8 connected to refractory feed and suction pump When vacuum 35 is connected to the mold, refractory material is drawn into the mold free of gaps and accurate to the required level. The bag 6 is evacuated and atmospheric pressure presses the mold halves together.

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When all cavities are filled, the vacuum is turned off and the refractory feed is interrupted while the material is allowed to set and harden. The mold can be used as packaging for storage and transport of the thermocouple units.

It will be understood that if the vacuum is removed before the refractory material introduced into the mold has initially set, the two halves of the mold must be held together mechanically.

Other forms of thermocouples can be manufactured by the method described which is essentially used to achieve an accurate and void-free introduction of refractory material.

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Claims (5)

A method of manufacturing thermocouples characterized by: 1. arranging non-refractory components between the two halves of a resilient shape; 5 ii. evacuating the mold with the air outlet fitted ". ---. · i at - the-height> -to where it is desired: refractory material in the thermocouple · · ·" - iii. introducer of the refractory material by suction in the mold, and iv) allowing the material to set and harden in the closed mold. 2. Method according to claim 1, characterized in that the entire mold with the components incorporated therein is enclosed in a bag of thin plastic material, before the vacuum is connected and the refractory material is introduced into the mold. Method according to claim 2, characterized in that the bag for evacuation is pierced by an inlet connection for the refractory material and by an air outlet connection, which bag is kept airtight around the connections. connected by means of coupling pieces to a refractory feeder and to a suction pump. 4. A method according to any one of claims 1 to 5, characterized in that the two halves of the mold are held together mechanically after the introduction of the refractory material. Thermocouple manufactured according to the method of any of the preceding claims. 81017 5 9