DE4019392A1 - Electrical temp. measurement sensor for liquids or gases in pipes - has carrier body secured against axial or radial displacement - Google Patents

Abstract

The sensor arrangement contains an electrical measurement sensor (2) mounted on the tip of a liquid and/or gas-tight encapsulated sensor housing (1) with electrical connecting lines (5) to a cable (6) leading out of the housing. A sensor carrier (8) of non-conducting, temp. resistant material secured centrally in the housing against axial and radial displacement contains guide channels for the electrical connecting lines and attachment devices for the carrier body. The cable passes through a bush (12) centrally mounted at the cable end of the housing which has a strain relief arrangement (13,14). ADVANTAGE - Is secured against intentional or unintentional displacement from its desired position in housing.

Description

The invention relates to a sensor for the electrical Temperature measurement of liquids flowing in pipes or Gases with a temperature sensor in the top of a liquid and / or gastight encapsulated sensor sleeve elec is trically isolated, according to the preamble of the patent claim 1.

Sensors of this type are components of heat meters that for example to determine the heat consumption at the Hot water extraction can be used. Such sensors exist from an interchangeable into the tube in which the liquid or the gas flows, insertable sleeve that the temperature measurement sensor in the form of a temperature-dependent measuring resistor ceramic material and its feed line liquid and / or encloses gastight. So that the measurement is not falsified is, the temperature sensor must be in the narrowest possible thermi contact with the medium to be measured, d. H. in the top the sleeve and ver with a thermal paste with the wall bound, be arranged. It also comes for accuracy the measurement to indicate that the temperature measuring sensor is in posi tion is retained exactly and not, for example due to unintentional tes or intended to exert an axial pull on the electrical connection line, from its calibrated target position tion shifts in the axial direction or can move. But also a decentering of the temperature measuring sensor in the sense of a Relocation to the inner surface of the encapsulated and earthed guide ler sleeves could lead to problems. This is the case with too strong an Approach the temperature measurement sensor to the sleeve an electrical Breakdown and thus a failure of the measuring arrangement possible.

The invention is therefore based on the object, the tempera  tower measuring sensor against unintentional or intentional offset secure zen from its target position in the sensor sleeve.

This is achieved by the invention specified in claim 1 reached. This ensures that the temperature measuring sensor remains fixed in its target position even in rough operation. Position-dependent measurement errors are therefore excluded. Except this is achieved that the sheath of the connecting cable is not can come into contact with the hot sensor sleeve with the Consequence that for the insulating jacket of the connecting lines inexpensive material with low temperature resistance selected or completely dispensed with electrical insulation can be.

In a further development of the invention according to claim 3 not only the temperature measuring sensor itself, but also the on end cable with strain relief by means not accessible from outside, so that damage to the temperature measuring resistor or Support body even with greater force on the connection cable is avoided. If the tensile force exceeds the load limit of the cable sheath, the cable tears off what of the Measuring arrangement registered as measuring circuit interruption and signa is lized.

Further details of the invention are based on an embodiment Rungsbeispieles explained in more detail below. In it show:

Fig. 1 is a sectional longitudinal view in plan view, and

Fig. 2 is a sectional longitudinal view in Seitenan view of the sensor.

The sensor shown in longitudinal section in FIG. 1 consists of a sensor sleeve 1 closed at the tip, the other end of which is open for the insertion of a temperature sensor in the form of a temperature-dependent electrical measuring resistor 2 . The sensor is of such a length that it can be inserted into a liquid or gas pipe (not shown), approximately up to the cross-sectional center thereof, and fastened to the pipe in this position. For this purpose, the sensor sleeve has a screw bush 3 pushed onto its outer casing with a thread. This can be screwed into a threaded bore of the water or gas pipe, not shown, in a liquid-tight and / or gas-tight manner. The sensor sleeve 1 has an annular impact 4 , at the closed end of the sleeve abge facing end face, the stop edge of the screw bush 3 is on, so that the sensor sleeve protrudes with a defined length into the tube. The one guided through the open end of the sleeve and as close as possible to the tip of the guide sleeve at ordered measuring resistor 2 is connected via electrical connecting lines 5 , which are connected to the wires of a connecting cable 6 , to an electrical measuring circuit (not shown). In order to achieve the best possible heat conduction, the space between the measuring resistor 2 and the inner surface of the sensor sleeve 1 is filled with heat conducting paste 7 .

In order to fix the measuring resistor 2 even in rough operation in its axial and radial desired position to the inner jacket of the sensor sleeve 1 , this is held in a measuring resistor support body by 8 . This support body lies with its outer surface close to the inner surface of the layer provided with an electrical insulating sensor sleeve 1 and is held against axial displacement by means of locking lugs 9 in a corresponding inner groove of the sensor sleeve. In addition, the measuring resistor stand supporting body is equipped with a stop lug 10 , the edge of which rests on a tab 11 of the measuring resistor 2 in such a way that it is secured against axial displacement. This prevents the measuring resistor 2 from being axially displaced, for example, by a pulling force accidentally or intentionally exerted on the connecting cable 6 . Such a shift of only a few millimeters would falsify the measurement result considerably.

The measuring resistor support body 8 consists of a heat-resistant plastic, which prior to insertion into the sensor sleeve as a soldering aid for connecting the connecting cable 6 to the measuring resistor was 2 . In addition, it is avoided that the jacket of the connecting lines 5 between the electrical connections of the measuring resistor 2 and the wires of the connecting cable 6 bears against the inner wall of the sensor sleeve 1 , which is up to over 100 ° warm, so that a rela tively inexpensive material with the insulating jacket of the connecting lines 5 low temperature resistance or electrical insulation can be completely dispensed with.

A bushing 12 is pushed onto the open end of the sensor sleeve 1 , the inside diameter of which corresponds approximately to that of the sensor sleeve 1 . In the bore of the bushing 12 , a cylindrical strain relief body 13 is inserted, the bore diameter of which corresponds to the outer diameter of the connecting cable 6 , so that it can be inserted into the strain relief body against the resistance of claws 14 embedded in the latter, which are provided with cutting edges that feel themselves claw into the outer sheath when pulling on the cable. The socket 12 with the strain relief body 13 is shrunk with the help of a shrink tube 15 on the outer jacket of the sensor sleeve 1 . It is thereby achieved that the measuring resistor 2 remains securely fixed in its position even when there is a strong pull on the connecting cable 6 . If the tensile force exceeds a certain value, the cable breaks. This creates an interruption, which the measuring circuit registers and reports as a sensor break.

Due to the secure, central position of the measuring resistor 2 , the measuring resistor 2 cannot get near the inner wall of the sensor, so that a sufficient electrical dielectric strength is always guaranteed. The screw bushing 3 is provided with a bore 16 which is used for threading a seal which secures the sensor against illegal removal.

In order to avoid an inadmissible heat dissipation of the measuring resistor 2 via the relatively thick connecting lines 5 of the connecting cable, it is advisable to carry out this in the area of the sensor sleeve 1 with as little mass as possible and to lay the connection with the cable cores near the open end of the sensor sleeve 1 .

Claims (4)

1. Sensor for the electrical temperature measurement of liquids or gases flowing in Roh Ren with an electrical measuring sensor, which is held electrically insulated in the tip of a liquid and / or gas-tight encapsulated sensor sleeve and its electrical connection lines within the sleeve leading to an outside Connection cables are laid, characterized in that the measuring sensor ( 2 ) can be inserted into a support body ( 8 ) which is insertable and held in the inside of the sensor sleeve ( 1 ) and made of electrically non-conductive, temperature-resistant material in a position centered on the sensor sleeve ( 1 ) is secured against radial and axial displacement secured that the support body ( 8 ) guide channels for the electrical connecting cables ( 5 ) to the connecting cable ( 6 ) and fasteners for anchoring the inserted support body ( 8 ) on the sensor sleeve ( 1 ) against the sen axial Has shift and that at the cable end of the sensor sleeve ( 1 ) a socket ( 12 ) is centrally attached, through the bore of which the connecting cable ( 6 ) is guided and which is equipped with strain relief means ( 13 , 14 ) which absorb a tensile force exerted on the inserted connecting cable. 2. Measuring sensor according to claim 1, characterized in that as a fastening means for anchoring the in the sensor sleeve ( 1 ) inserted support body ( 8 ) this is provided with locking lugs ( 9 ) which snap into an inner annular groove of the sensor sleeve ( 1 ). 3. Measuring sensor according to claim 1 or 2, characterized in that the socket ( 13 ) as a strain relief means inwardly resiliently arranged claws ( 14 ) be seated, which are provided on the sensor side with cutting edges, which when inserting the connecting cable ( 6 ) to the outside are guided and which, when pulling in the opposite direction, grip the connecting cable ( 6 ) in its outer jacket. 4. Measuring sensor according to one of the preceding claims, characterized in that the connec tion lines ( 5 ) in the area of the sensor sleeve are designed as low as possible and the connection to the wires of the connection cable ( 6 ) near the open end of the sensor sleeve ( 1 ) he follows.