DE3330491A1 - THERMOCOUPLE - Google Patents

Description

The invention relates to a thermocouple according to the Preamble of claim 1.

With the usual thermocouples of this type, the wires are on the Measuring point usually welded or soldered together and there electrically insulated by means of a ceramic tube. In many cases, the measuring point is also used for electrical insulation within a metal one Sleeve, e.g. B. a brass sleeve embedded in ceramic putty, which the space between the inner surface of the sleeve and the thermocouple fills. Such an arrangement. sufficient despite compensation switching to eliminate sources of error not in all cases meet the requirements with regard to measuring accuracy, especially when it comes to sophisticated electronic controls for work machines, for example plastic injection molding machines to be supplied with measurement data.

The invention is based on the object of a thermocouple of the initially mentioned genus in such a way that it is all in practice with regard to measuring accuracy and reaction speed Occurring requirements are sufficient without the need for significant additional technical effort.

This object is achieved according to the invention by the features in the characterizing part of the claim 1 mentioned features solved.

To further increase the measurement accuracy, disruptive electrical Potentials are kept away from the measuring point without significant impairment of the heat conduction between the object and the measuring point, that between the end face of the heat conducting disk and the cup-shaped Heat conduction housing an electrically insulating

Disc, preferably a mica disc of high thermal permeability is insertable. Such a demand-oriented option can lower the costs of series production, by placing the mica disc only when required, i.e. only for customers

is inserted, with which the highest demands on the measurement accuracy are required.

A very high degree of rationalization of series production results in that the heat conducting disk with centering neck, the mixed metal body and the wires in the structural unit made of a heat-resistant, high-polymer material by injection molding Fonnstück is embedded (injected).

This is the prerequisite for a simple manufacturing process before, in which the heat-conducting disk enclosing the mixed metal body is injected into the molded piece and the latter by a cold one EinÖrdeiung of the heat conduction housing is accessed from behind.

The invention is illustrated below with the aid of exemplary embodiments explained.

Show it:

Figure 1 that in the plasticizing cylinder of a plastic

Injection molding machine inserted thermocouple, partially cut open,

Figure 2 shows a section of the longitudinally cut thermal

element in an enlarged view,

FIG. 3 the not yet deformed protective sleeve of the thermocouple

mentes,

Figures 4; 5; 6 the ceramic sleeve forming the shaped piece; the heat conducting disk and the mica disk of the thermocouple as well

Figure 7 the not yet deformed heat conducting housing of the Ther

moelementes.

In the exemplary embodiment shown in the drawing, the thermocouple of the thermocouple is formed by two wires 13a ¹ , 13b ¹ made of iron and constants and held in a protective sleeve 15 with strain relief. These

COPY.

. V ₁ .

Wires are fused together at one end (measuring point) and in. The area of the measuring point is enclosed by a molded piece 16 formed by a ceramic sleeve. ^{The voltage measuring} instrument is connected as a reference point to the other end of the wires 13a ¹ , 13b '. At the measuring point, a ^{mischmetal body 13m formed by fusing the wires 13a 1} , 13b ¹ with mixing of the metals is positively embedded in a metal heat-conducting disk 17 which is machined from aluminum or a beryllium-copper alloy. The wires are fused in a noble gas atmosphere with the aid of an electric arc, i.e. with the exclusion of oxygen. This reliably prevents any scaling. The result is a mixed metal body with a high degree of mixing, which has approximately the shape of an ellipsoid.

The heat-conducting disk 17 is axially supported on the ceramic sleeve 16 and projects beyond this on the front side. The face makes contact with the. Heat-conducting disk 17 * a heat-conducting housing 18, through which the heat-conducting disk 17 and the ceramic sleeve 16 are axially held together. The radially symmetrical heat-conducting disk 17 is arranged in a section of larger clear width aa and is centered on an inner annular shoulder 16a of the ceramic sleeve. The annular shoulder 16a, which is perpendicular to the axis of symmetry of the thermocouple, closes off an annular space 22a on the rear side, which is delimited on the outside by the inner jacket surface of the ceramic sleeve 16 and on the inside by the circumference of the heat-conducting disk 17. • The mixed metal body 13m is designed approximately as an ellipsoid. The mixed metal body 13m is pressed into a concentric, conical recess of the heat conducting disk 17, forming two annular contact surfaces y, ζ. It is caught in the recess 21 by a constriction 17a ^{1 of} a rear, hollow centering neck 17a of the heat-conducting disk 17. Another constriction 17a "of the centering neck 17a holds the sheathed wires 13a, 13b for the purpose of strain relief. In addition, the protective jacket 13 of the thermocouple is surrounded by a constriction 15b 'of the protective sleeve 15 to relieve strain. All constrictions 17a ¹ , 17a" and 15b ¹ are formed by cold deformation of the Centering

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sleeve 17a or the protective sleeve 15 brought about. That's why the one behind is Section 15b of the protective sleeve 15 is made relatively thin-walled.

The diameter of the heat conducting disk 17 is expediently at least three times as large as the maximum diameter of the mischmetal body 13m, but smaller than the maximum clear width a-a of the ceramic sleeve 16.. This creates intensive heat conduction between the object to be measured, So, for example, the plasticizing cylinder and the measuring point ensured.

Between the end face of the heat conducting disk 17 and the cup-shaped If necessary, the heat-conducting housing 18 is an electrically insulating pane 20, preferably a mica pane of high thermal permeability insertable, which protrudes radially beyond the flat end face of the heat conducting disk 17 on all sides. When inserting "the mica washer you can For the highest demands on measuring accuracy, electrical interference potentials from the object to be measured are shielded from the measuring point.

As can be seen from Figure 1, the flat end face S of the cup-shaped WärmeIeitgehäuses 18 under the load of a thermocouple enclosing Coil spring 12 touching the object 10, which coil spring 12 is at one end on the inner bead 18a of the heat conducting housing 18 and at the other end on the connector 14 is abutted. The preload of the spiral spring 12, by which the contact pressure of the end face S is determined, is adjustable with the help of a hollow threaded piece 11, its external thread 11a with the object 10 and its internal thread with the spiral spring 12 is in thread engagement. The threaded piece, which plunges into the receiving bore 19 of the object with engaging pin 11a, runs into a rear side Hexagon 11b.

A variant in the structure of the thermocouple, not shown in the drawing differs as follows from the exemplary embodiment shown in the drawing: The molded piece formed by a ceramic sleeve 16 and the protective sleeve 15 are made of a heat-resistant,

molded part made of high polymer material, which is in the section the measuring point has the same outer diameter as the ceramic sleeve and otherwise the outer shape of the protective sleeve 15 is equivalent to.

The unit formed from the heat-conducting disk 17 with centering neck 17a, from the mixed metal body 13m and the wires 13a ¹ , 13b ^{1 is} embedded in this molded piece. The embedding takes place in the mold cavity of an injection mold during the injection molding process. Thus, the radially symmetrical shaped piece at the rear end of the measuring point is provided with an outer annular shoulder, which corresponds to the outer flange 15a of the protective sleeve. This annular shoulder is engaged from behind by the inner flange 18a of the cold-deformed heat-conducting housing 18. The end section of the protective jacket 13 of the thermocouple is embedded in a rear section of the molded piece protruding from the heat conducting housing 18. In this variant just described, there is therefore no need for a separate assembly of a protective sleeve 15 and a ceramic sleeve .16.

The alternative, also possible, of inserting the glazing disc and applying it of the heat conducting housing 18 correspond to the manufacturing process in the drawing shown. Exemplary embodiment; because that in the fitting Embedded heat-conducting disk 17 protrudes with its end face over the shaped piece in the same way as in the case of the graphically illustrated Embodiment.

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Claims (9)

PATENT LAWYERS 333043 DR. FRIEDRICH E. MAYER DIPL-PHYS. G. FRANK ^
WESTERN 24 7530 PFORZHEIM Karl Hehl, Arthur-Hehl-Str. 32, D-7298 Loßburg 1 Thermocouple Claims CLJ thermocouple, consisting of two wires of different materials held in a protective sleeve with strain relief, such as iron and constants, which are conductively connected to one another as a thermocouple at one end and are enclosed at least in the area of the measuring point by a molded piece made of heat-resistant material and a Voltage measuring instrument connected to the other end (reference junction) of the wires, characterized in that at the measuring point a ^{mischmetal body (13m) formed by fusing the wires (13a 1} , 13b ¹ ) is positively embedded in a metal heat-conducting disk (17) axially supported on the shaped piece (16), which the shaped piece (16) has on the front side protrudes and thermally contacted with its end face a metal heat-conducting housing (18) which axially holds together the molded piece (16) and the heat-conducting disk (17). 2. Thermocouple according to claim 1 or 2, characterized in that the mischmetal body (13m) designed as an ellipsoid is in one concentric, conical recess (21) on an inner ORIGINAL INSPECTED COPY Ring shoulder (I6a) of the shaped piece (16) centered heat conducting disk (17) is pressed in to form two annular contact surfaces (y, z). 3. Thermocouple according to claim 1 or 2, characterized in that the diameter of the heat conducting disk (17) is at least three times as large like the maximum diameter of the mischmetal body (13m), but smaller than the clear width (a-a) of the shaped piece (16). 4. Thermocouple according to one of the preceding claims, characterized in that between the end face of the heat conducting disk. (17) and the cup-shaped heat conducting housing (18), if necessary, a electrically insulating disk (20), preferably a mica disk high thermal permeability can be inserted, which protrudes radially beyond the flat end face of the heat-conducting disk (17) on all sides. 5. Thermocouple according to one of the preceding claims, characterized in that the planar end face (S) of the heat conducting housing (18) under the load of a spiral spring (12) surrounding the thermocouple in contact with the object (10) to be measured, -which spiral spring (12) is countered at one end on an inner bead (18a) of the heat conducting housing (18) and at the other end on the plug (14) and that the axial preload of the spiral spring (12) is adjustable with the aid of a hollow threaded piece (11), the external thread (11a ¹ ) of which is in thread engagement with the object (10) and the internal thread with the spiral spring (12). 6. Thermocouple according to one of the preceding claims, characterized in that the mischmetal body (13m) ^{is caught in the recess (21) by a constriction (17a 1} ) of a rear, hollow centering neck (17a) of the heat-conducting disk (17), with a further Constriction (17a ") encompasses the sheathing wires (13a, 13b) in a strain-relieving manner. 7. Thermocouple according to one of the preceding claims, characterized in that the shaped piece (16) is a ceramic sleeve on which a coaxial protective sleeve (15) is supported on the rear, which is engaged from behind by an inner flange (18a) of the heat-conducting housing (I8) and the Protective jacket (13) of the thermocouple in the area of a constriction (15b ¹ ) includes strain relief. 8. Thermocouple according to one of the preceding claims 1-6, characterized in that the heat conducting disk (17) with centering neck (17a), the mixed metal body (13m) and the wires (13a ¹ , 13b ¹ ) existing structural unit in the one Heat-resistant, high-polymer material injection-molded molded part is embedded (injected). 9. Thermocouple according to claim 8, characterized in that the • radially symmetrical fitting at the rear end of the measuring point has an annular shoulder which is engaged from behind by the inner flange (18a) of the Wärmelei tgehäuses (28) and that the end portion of the Protective sheath (13) of the sheathed wires (13a, 13b) is embedded (injected) in a rear portion of the molded piece.