DE967507C - Holder for resistance thermometer - Google Patents

Description

The invention relates to a holder for resistance thermometers, which is particularly important is placed that in addition to a simple production and the heat transfer from the medium to be measured after the measuring winding, eliminating all harmful and temperature transmission harmful gaps, air cushions or other insulating layers between Bracket or cladding tube and measuring insert takes place.

So far, a special steel has been used to hold the resistance thermometer Cladding tube used, into which the resistance thermometer was inserted loosely and If necessary, a particularly resilient holder, but also loosely filled quartz sand or metal shavings, fills the space between the cladding tube and the thermometer. These precautions do not contribute to a noticeable improvement in the transfer of the temperature of the medium enters the measuring winding. In any case, the display delay is very significant and Brief temperature fluctuations are not displayed or registered at all.

It is also known to use top layers of highly fritted aluminum oxide alone as a protective layer to use. Such layers only have a certain strength when they are very burned in at high temperatures. This temperature treatment is as soon as it has a certain degree Limit, necessarily a disadvantage for the constancy of the measuring winding.

709 791738

The further proposed galvanic coatings are due to the low achievable here Strength is no substitute for a protective tube. Accordingly, they will only improve the Heat transfer between a metallic protective tube and the measuring winding used.

According to the invention, this drawback is eliminated in that a connection between Resistance thermometer and cladding tube in one

ίο whole by spraying on a metal layer, preferably hard metal layer on the resistance thermometer forming a continuation of the cladding tube is produced in such a way that first a short end of the resistance thermometer of the connection side is pushed into the duct and the freely protruding measuring winding is surrounded in a known manner by the metal spray coating, which at the same time also a mechanical one with the cladding tube

ao connection.

It proves to support the connection between the cladding tube and resistance thermometer is also useful in the part of the cladding tube which is from the resistance thermometer is filled, to provide some holes, distributed over the circumference, so that the sprayed Metal layer has the opportunity to hold an additional type of support between these holes Manufacture cladding tube and resistance thermometer.

When using ceramic resistance thermometers, it turns out to be an advantage that these are wound on a hollow support body, which makes it possible to also control the temperature from the inside of the carrier body to bring it up to the measuring winding. The Carrier body near its upper connection end by means of a glazed plug of the cavity filled so that the cavity after the

Connection side is too hermetically sealed. The metal spray coating is applied so that the opening of the carrier body at the front end remains free. This guarantees that over the length of the measuring winding also from the inside of the carrier body to be measured Medium is brought to the measuring winding.

In the drawing is an embodiment of the

Invention shown. The carrier body ι is provided in the usual way with the measuring winding, which is connected to the two connection wires i _e . A plug 2 with longitudinal grooves is used to receive the support wires 3, which are glazed together with the plug 2 in the support body 1. The lead wires i _a are also passed to the outside through longitudinal grooves in the plug 2 and are wound around the support wires 3. An insulating body 4 provided with two holes is pushed loosely onto the support wires and prevents them from breaking off when the resistance thermometer, as a loose part with the supply wires, is exposed to mechanical effects.

In this case, the kink point of the support wires or the supply wires is somewhat outside, it exists so there is no risk that the support wires or supply wires are directly at the exit point cancel from the resistance thermometer. A plug 5 is in the upper part of the resistance thermometer near the plug 2 in the inner one Glazed cavity of the support body 1. It thus closes the cavity of the carrier body towards the connection side.

The sprayed-on metal layer 6 extends over the length of the resistance thermometer, which is inserted into the cladding tube 7 with a short upper end. Introduced in this cladding tube 7 Boreholes allow the metal spray coating from the outside to the resistance thermometer pass through, so that another holder is created here, which fixes the resistance thermometer connects to the cladding tube 7. Another insulating piece 8 with two holes takes the lead wires, which through this insulating piece up lead to the connection button.

Claims (3)

PATENT CLAIMS: I. A method for producing a holder for resistance thermometers, characterized in that that a connection between resistance thermometer and cladding tube by spraying a metal layer, preferably hard metal layer, on which a continuation of the Sheath tube forming resistance thermometer is produced in such a way that initially a short The end of the resistance thermometer is pushed into the jacket tube from the connection side and the freely protruding measuring winding from the sprayed metal layer in a manner known per se is surrounded, which at the same time also has a mechanical connection with the cladding tube manufactures. 2. The method according to claim 1, characterized in that that in the part of the cladding tube which is indicated by the resistance thermometer . is filled, some holes are provided so that the sprayed metal layer is an opportunity has, through these holes a connection of additional type between the cladding tube and Manufacture resistance thermometers. 3. Execution according to claim 1, preferably with a ceramic carrier body, characterized characterized in that the cavity of the carrier body is open to the medium to be measured remains while it is completed after the connection side. Considered publications:
German Patent No. 202 409;
German patent application ρ 13405 1X7421 D;
Swiss Patent No. 284 473; F. Lieneweg, "Temperature Measurement", 1950,
Pp. 54, 57 1 sheet of drawings © 609 657 / 224,10.56 (709 791/38 11. 57)