CH650861A5 - Method for producing a resistance temperature detector, and a resistance temperature detector produced according to the method - Google Patents

Description

The invention relates to a method for producing the connecting lines in the direction of the sheathed lines len of a resistance temperature sensor using 60 showed. A tube made of a corrosion-resistant sheathed cable was pushed over the measuring resistor and its connecting line - a measuring resistor with two connecting lines and lines . The resulting cavity around the insulating material against each other and against the sheath isolated measuring resistor was then made with mineral wires, whereby insulating material from the sheath 65 is filled with insulating powder. The pipe end was then removed and the measuring resistor was closed by a floor in the direction of the opening.

connecting lines parallel to the wires This known manufacturing process also requires a high

uses, the connections of the measuring resistor with the ends hen labor. By the butt welding of the

3,650,861

Pipe on the sheathed cable is after the welding process, the insulating powder is solidified to such an extent that a high earth electrode is associated with a high risk of rejects, vibration resistance and high insulation resistance reworking are required. Nevertheless, the well-known stand suffers is guaranteed. At the same time, the compact design also increases the thermal conductivity of the insulating powder, making it more sensitive to vibrations. Due to mechanical shocks, the known resistance temperature sensor, which is required for the rapid response of such a sensor, can quickly become unusable. This measure also stands in contrast to being. State of the art, in which an axial compression of the filling

The invention is therefore based on the object that a one-material material is not possible because the cement has already set at this time and reliable manufacturing process for the mantle counterpoint and because the existing temperature sensor there has to be specified and also a Wi-10 sealing cap is blunt on the end to create a temperature sensor on the jacket tube that sets to a high degree and, as a result, cannot be inserted. is vibration-proof. The invention also relates to a resistance temperature

The task is solved with the single sensor according to the preamble of claim 2. The method described above according to the invention thereby accomplishing the task takes place with such a

a) that from the end, starting from the end of the sheath temperature sensor by the exposure of the wires in the identification of the father, the entire insulation material specified in claim 2.

ner length, which is at least equal to the length of the measurement- An embodiment of the subject of the invention

Resistance plus the length of the connecting lines is explained in more detail below with reference to the single figure,

b) that the measurement is inserted into the cavity thus created, a partial section through a resistance temperature resistor and the connecting leads with the 20 door sensors are shown.

Wires connects, In the figure, a resistance temperature sensor 1 is shown

c) that the remaining volume of the cavity is also provided, the starting product of which is a conventional sheathed egg insulation powder, Tung 2. The sheathed line has a metallic sheath 3

d) that a body is inserted into the opening of the sheath, in which two wires 4 and 5 are arranged axially parallel, and this with compression of the insulating powder. The wires are pressed against one another and against the sheath 3 by verse into the sheath , a ceramic insulating material insulated.

e) and that one closes the body and the casing against each other. The resistance temperature sensor 1 has a sealing for measuring. solution serving end 7 and one serving for connection

As a result of the measures according to the invention, neither end 8, from which the wires 4 and 5 protrude, has to be. When the part of the jacket was cut in and then by placing the sensor, welding was started again, starting from end 7, and a cavity must still be created in the inside of the jacket 3 by producing the insulating holes in the jacket. The material 6 has been removed over a certain length, so that rejects are avoided which either result from welding work exposed in the upper ends of the wires 4 and 5 or because the wire ends became. A measurement was then separated between these ends because of their position, which is not exactly known. 35 stood 9 inserted, which is provided with two connecting lines 10 and 11 The removal of the insulating material from the casing. The temporarily existing cavity, sandblasting or another method, has an opening 12 at the end 7 through which the insulating material, in which the length of the cavity formed in this way, has been removed from the casing 3 in such a way. The length of the hollow measures that the measuring resistor is preferably inserted between the spaces and is at least equal to the length of the measuring resistor-two exposed wires of the sheathed cable to stand 9 plus the length of the two connecting lines. A 10 and 11, as seen in the axial direction, is preferably used as the measuring resistor. Made from safe, platelet-shaped thin-film resistance. For reasons of safety, the length of the cavity is of course small - the exposure of the wires, the course of which can be adapted to be correspondingly greater than the dimensioning rule given above, and the electrical connection to the connecting leads of the measuring resistor is also simple Way in the hollow

Way possible. The connection can be used by welding or soldering space so that its two connecting lines 10 and 10 or a clamped or crimped connection. 11 towards the opening 12. Through the opening

The remaining cavity is then filled with a 12, then the connecting line 10 is filled up again with the wire 4 and mineral insulating powder, which in the opposite direction connects the connecting line 11 with the wire 5 of the sheathed line 2

is dry and free-flowing. The insulation is connected so that connection points 13 and 14 are formed.

powder is able due to its almost dusty shape. The cavity that is still present will then become

Character also penetrate into the finest cavities and replenished with a ceramic insulating powder 15,

to fill them out, the originally existing there, whereupon a closure body 16 is inserted into the casing 3,

Air can escape freely. A paste cement that has the shape of a short cylinder. Since the shell 3

According to the state of the art, because of the fact that it was first filled completely with insulating powder 15, this avoidable viscosity is difficult to penetrate into fine cavities by pressing in the closure body 16 because air bubbles are pre-compacted by a pasty cement compound. It was not possible to climb the table due to the length of the locking body. Above all, however, it is in the hand 16 to influence the degree of compaction accordingly.

flow any drying process according to the invention. Finally, the closure body 16 and

superfluous. so the shell 3 sealed against each other, for example

By subsequently pressing in a closure body by brazing. The resistance temperature pers, which forms the bottom of the resistance temperature sensor, sensor 1 is now ready for operation.

C.

1 sheet of drawings

Claims (5)

650 861 2 PATENT CLAIMS connecting the wires and the cavity with insulating compound 1. Method for producing a resistance temperature. sensor using a measuring resistor The subject of the invention is based on the use of two connecting lines and a sheathed cable, which consists of a sheathed cable belonging to the state of the art, a metallic sheath with two axes parallel to it, which consists of a metallic sheath in the form a raw material through a compressed insulating material against each other res with, for example, two axially housed therein and insulated from the sheath, with conductor wires. The wires are removed from the sheath on all sides by a well-insulated insulating material, the measuring resistors and heat-resistant mineral insulating powder were surrounded by terminals pointing in the direction of the opening and thus used both against one another and lines parallel to the wires, the connectors of the 10 isolated from the metallic shell. The sheath or the Man measuring resistor connects to the ends of the wires and consists of an oxidation and corrosion-resistant fill the cavity with insulating material, thereby known metal. The described flat arrangement is mechanically deformed to the intended final dimensions. a) that one is brought out of the shell, starting from its end. Here the mineral insulating powder, in the exposure of the wires, the entire insulating material is largely compressed on a gel-like oxide. ner length that is at least equal to the length of the measurement. DE-OS 27 22 975 is a method of one resistance plus the length of the connecting lines is known, the type described above, in which in a b) that the entire process step, the entire inner cross section of the raw resistor, and the connecting lines with the res were drilled out, i.e. densified insulation wires were connected, 20 material and the wires removed. Then, in a second c) that the remaining volume of the cavity is made with a process step, a narrower bore, which replenishes the large insulating powder, must be enough to hold the resistance sensor and a cement d) that it is possible to include a sealing layer in the opening of the sheath, which, however, in turn inserts a body and the insulation layer must not be so large that the ends of the wires are milled and pressed into the sheath 25. These conditions are difficult to meet because the e) and that the closure body and sheath are sealed against one another due to unavoidable manufacturing tolerances. Different distances from the longitudinal axis and from the interior 2. Have a resistance temperature sensor manufactured according to the inner wall of the outer jacket. The illustrated closing method according to claim 1, consisting of a measuring resistor in which the wire ends are cut laterally, the connection with two connecting lines and a sheath 30 is difficult to achieve in practice because of the passage, which is a metallic one Sheath and two axially parallel in it the diameter of the wires is only a few tenths of a millimeter. It is accommodated, by means of a compressed insulating material, in the described manner it is impossible to expose the ends of the wires insulated from one another and from the sheath, on which wires are exposed, so that only the connecting leads of the measuring resistor are connected to produce the electrical ends the extremely small end faces of the wires are closed, whereby the connection cables of the measuring wi-35 are available. In addition, only cylindrical resistance temperature sensors can be aligned on the end of the counter-circular cross section of the bore, which is used for the measurement, and the measuring resistance sensor can be used. It is not possible to manufacture drilling resistors, the connecting lines and the ends of the wires to larger diameters, as are required for measuring platelet-shaped embedded in an insulating compound and metal encapsulated, measuring resistors, because as-and whereby the original sheath of the sheathed cable up to over 40 then the wires would be cut off at a point that is inaccessible to the connection points of the measuring resistor and wires - an electrical connection. is consistently obtained, characterized in that also the filling of the hole by cement is for which the insulating compound is an insulating powder (15) and that in the casing functional reliability and service life of the known solution (3) with compression of the insulating powder (15) a closure - disadvantageous because the setting of cement is a chemical body (16) sealed axially pressed. 45 This is a process that is only possible in the presence of water. 3. Resistance temperature sensor according to claim 2, because the hardened cement must have the opportunity that the closure body (16) has a hard time drying out completely before the end of the temperature cylinder. temperature sensor can be hermetically sealed. The man 4. Resistance temperature sensor according to claims 2 position process must therefore by a binding and drying and 3, characterized in that the closure body 50 kenvor interrupted, so that the known (16) is hard soldered into the shell (3). Process not for continuous mass production 5. Resistance temperature sensor according to claims 2 is suitable. to 4, characterized in that the measuring resistor (9) It is also known that a thin-film resistor in the form of a platelet is used in the manufacture of contr. temperature sensors using the known 55 Sheathed cables to be moved so that the ends of the wires were first exposed by removing the sheath or the sheath. The connecting leads of the cylindrical measuring resistor were connected to these ends in such a way that