DD262719A1 - TEMPERATURE PROBE FOR SEVERAL MEASUREMENT POINTS - Google Patents

Abstract

The invention relates to a temperature probe for a plurality of measuring points for measuring the temperature Gefaelles in particular thick-walled parts of the components of thermal machines during the starting process and also in the steady state. According to the invention, each measuring contact is movably connected to one thermocouple each and to the measuring contact carrier, and the measuring contact has a tilting edge opposite the contact surface, whereby the tilting capability of the measuring contact ensures surface contact between the measuring contact and the bore wall.

Description

For this 1 page drawings

Field of application of the invention

The invention relates to a temperature probe for a plurality of measuring points for the measurement of the temperature gradient in particular thick-walled parts of the components of thermal machines during the starting process and also in the steady state.

Characteristic of the known state of the art

Temperature probes which simultaneously supply several measured values of a measuring plane are known. The disadvantage of the known temperature probes is that they require a positive connection between the bore wall and probe shell due to their construction or hardly guarantee a permanent contact with all measuring points due to their rigidity. In this type of probe must be present between the bore wall and probe shell a game, which has a negative effect on the heat transfer between the measuring point of the bore and contact point of the probe and thus can not be an exact temperature. Most often, the positive engagement between the probe shell and the bore wall is limited to only one ring portion of the probe for each measurement point in the bore. Thus, it is unlikely that at several measuring points in a bore all measuring contacts of the probe have sufficient positive contact with the bore wall. Due to this lack of or only inadequate positive engagement between the measuring contact of the probe and the measuring point of the bore wall, not all measuring contacts will deliver the measured value which exactly corresponds to the temperature of the associated measuring point.

The design of the known probes themselves allows an intense heat flow within the probe, which affects the measuring contacts and their thermocouples, so that the indicated temperatures can only be mixed values.

Object of the invention

The aim of the invention is to develop a temperature probe, with which it is possible to detect exact values of all measuring points simultaneously.

Explanation of the essence of the invention

The object of the invention is to ensure a constant positive engagement between the measuring contact of the probe and measuring point of the bore wall at this temperature probe.

According to the invention the object is achieved in that each measuring contact, each provided with a thermocouple, with its, the contact surface of the measuring contact opposite tilting edge sitting on the Meßkontaktträger, is clamped on this tiltable. Due to the tilting ability of the measuring contact a surface contact between measuring contact and bore wall is guaranteed.

The successive measuring contacts are clamped on the Meßkontaktträger that they produce this opposite bending, establish a secure contact between the measuring point (measuring point) and measuring contact. It is expedient that the resilient Meßkontaktträger is formed for example as a leaf spring.

Since each measuring contact only has a linear contact via its tilting edge to Meßkontaktträger, mutual thermal influence on the heat conduction of the Meßkontaktträgers is approximately zero.

embodiment

The invention will be explained in more detail using an exemplary embodiment. In the accompanying drawing show

-2- ZbU / IS

1: the axial section of a temperature probe in the measuring plane,

2 shows the section A-A according to FIG. 1,

3 shows the axial section B-B according to FIG.

On a heat-resistant Meßkontaktträger 1 in the form of a leaf spring, the measuring contacts 2; 2 '; 2 "with a tilting edge 3 extending transversely to the Meßkontaktträgerlänge and with the associated thermocouple 4, 4 ', 4" arranged at a selectable distance from each other. The measure of the tilting edge 3 to the contact surface 5 of the measuring contact 2; 2 '; 2 "is greater than the bore radius, so that the successive, sitting on the Meßkontaktträgerflächen 6; 7 sitting measuring contacts 2, 2 ', 2" of the Meßkontaktträger 1 opposite bend and thereby the safe adhesion between measuring point and measuring contact 2; 2 '; The transversely extending to the tilting edge 3, laterally arranged webs 8, which extend over the thickness of the Meßkontaktträgers and are received in the corresponding recesses 9, ensure both the axial, and the transverse axial position of the measuring contacts 2, 2 '; "; the bent terminal strips 10 of the webs 8 secure the seat of the measuring contacts 2; 2 '; 2 "on the Meßkontaktträger 1. With the degree of bending of the terminal strips 10, the mobility of the measuring contact 2, 2 ', 2" can be made arbitrarily variable.

The Meßkontaktträger 1 is detachable with the Meßkontaktträgerhalter 11, the thermocouples 4; 4 '; The probe holder 12 and the connection Meßkontaktträgerhalter 11 with probe holder 12 by means of union nut 13 are - according to the local installation conditions -variable gestallbar.

Claims (4)

1. Temperature probe for a plurality of measuring points, characterized in that each measuring contact (2, 2 ', 2 "), each with a thermocouple (4, 4', 4"), is movably connected to the Meßkontaktträger (1) and one of Contact surface (5) has opposite tilting edge (3). 2. Temperature probe according to claim !, characterized in that the measuring contacts (2, 2 ', 2 "k) successively and the tilting edges (3) in each case opposite the contact surfaces (5) on the Meßkontaktträgerfläche (6) sitting, the Meßkontaktträger (1) bending, fitting to the measuring point, are arranged. 3. Temperature probe according to claims 1 and 2, characterized in that the Meßkontaktträger (1) is resilient, for example, as a leaf spring is formed. 4. Temperature probe according to claim 1, characterized in that the Meßkontaktträger (1) with the Meßkontaktträgerhalter (11) releasably, the thermocouples (4; 4 ', 4 ") are gas-tight, for example by brazing, are connected.