DE19610885B4 - A heat transfer - Google Patents

Abstract

Heat transfer meter with a from a pouring measuring fluid (38) acted upon measuring head (10), one over a heat-conducting partition (16) pressure-tight the measuring fluid sealed interior (30) and one in the interior (30) in thermal Contact with the partition (16) standing, at least one heating element (24) and a temperature measuring element (26) containing calorimetric sensor, characterized that the Partition (16) designed as a prefabricated thin-walled disc with a defined wall thickness is that with an opening edge (20) one at the measuring head (10) arranged tubular extension (14) is materially connected.

Description

The The invention relates to a heat transfer meter with a from a pouring Measuring fluid acted upon measuring head, the pressure-tight over a heat-conducting partition wall across from the measuring fluid sealed interior and arranged in the interior, in thermal contact with the partition, at least one Heating element and a temperature measuring element containing calorimetric Sensor has. The invention further relates to a method for Production of such a heat transfer meter.

Heat transfer gauges this Species are mainly used as flow monitors electrical detection of heat losses in flowing media, as level sensors or as phase detectors for monitoring the change of vapor and liquid states used. They work according to the calorimetric principle, at which temperature changes due to a defined heat input determined and computer-aided be evaluated. In known heat transfer meters leaves in particular, the production of the measuring head with a reproducible responsive heat transfer Partition to be desired.

Further is a sensor for flow monitoring a streaming Medium known (DE-U-9408085), which can be screwed into a wall measuring housing having, at a measuring part a projecting into the flow, cylindrical having trained measuring pin. The sensor contains an inner wall of the Measuring pin in thermally conductive Contact brought electrical functional elements, wherein the electrical Functional elements of at least two temperature measuring elements and at least one heating element or a first temperature measuring element and a second temperature measuring element, which by an increased intrinsic flow directly heated, exist. Other functional elements are on one carrier introduced into a cylindrical part of the projecting into the flow Measuring pin is inserted from the inside.

at a further measuring device for determining the flow of a flowing Medium (DE-A-3509416) is both in a flowing medium arranged flow sensor as well as one in a non-streaming one Medium arranged reference sensor provided in a common slim measuring probe are integrated. The common probe is doing so in the flowing Medium immersed, that the flow sensor the pouring Medium faces while the reference sensor in the housing interior the common measuring probe is arranged.

Of the Invention is based on the object, a heat transfer meter of the beginning to develop a specified type and a method for its production, whose measuring head is easy to manufacture and particularly good and reproducible heat transfer properties having.

to solution This object is achieved by the feature combinations specified in claims 1 and 11 proposed. Advantageous embodiments and developments The invention will become apparent from the dependent claims.

Of the solution according to the invention the idea that the Partition wall as prefabricated thin-walled Disc with defined wall thickness is formed, the outer edge encircling with an opening edge one at the measuring head arranged pipe approach is materially connected. The thin-walled Disk can be welded to the pipe approach, for example, by laser welding or soldered become. It is expedient Metal, preferably of the same stainless steel as the pipe section of the measuring head.

The thin Slice, the purposeful one Wall thickness from 0.3 to 0.5 mm, can be very much in terms of their wall thickness be precisely dimensioned, so that reproducible in the production of Wärmeübergangsmeßgeräte Heat transfer properties receives. This applies all the more, as well as the attachment of the calorimetric sensor is easier on the prefabricated disc than inside a Measuring head. Accordingly, it is advantageous if the prefabricated thin-walled Slice first is thermally conductively connected to the calorimetric sensor and only afterwards the prefabricated disc in this way to form the partition wall on the free opening edge the tube approach is welded pressure-tight with pointing to the inside of the measuring head sensor.

Of the Calorimetric sensor can be used, for example, in thick film technology or thin film technology prefabricated and glued on the disc heat-conducting. in principle but it is also possible the sensor in thin film technology apply directly to the metallic disc.

The sensor expediently has a ceramic carrier with two resistance heating elements arranged at a distance from one another and from the temperature measuring element. As a temperature measuring element, a temperature-dependent resistance (NTC or PTC), which can be connected to an external measuring bridge.

A advantageous embodiment of the invention provides that the measuring head a the pipe socket bearing, provided with an external thread rotationally symmetrical housing part having, in a threaded bore of a liquid-flowed pipe can be screwed pressure-tight. In the interior of the housing part can be arranged at a distance from the partition, a connecting piece, with the heating element and the temperature measuring element of the sensor galvanic is connected and connected to the outwardly led connection cable is.

in the The following is the invention with reference to a schematic in the drawing Way illustrated embodiment explained in more detail. The only Figure shows a longitudinal section through a heat transfer meter.

The heat transfer meter shown in the drawing is intended as a flow monitor for the electrical detection of heat losses in flowing media, as a level sensor or as a phase detector for Wasserdampferkennung. It consists of a measuring head 10 with a rotationally symmetrical housing part 12 and a front side over the housing part 12 protruding pipe socket 14 , one the pipe approach 14 The end-closing thin-walled partition wall 16 and one on the inside of the partition 16 in thermally conductive connection with this calorimetric sensor 18 , The partition 16 is designed as a prefabricated thin-walled metal disc with a defined wall thickness of about 0.4 mm, with the sensor 18 is fitted before going to the opening edge 20 of the pipe socket 14 is welded. The sensor 18 includes a ceramic carrier 22 at least one resistance heating element arranged on the ceramic carrier 24 and a temperature measuring element 26 , The heating element 24 and the temperature measuring element 26 are over the wires 28 with one in the interior 30 of the housing part 12 arranged connector 32 connected, on which in turn an outgoing cable 34 connected. The measuring head 10 points in the area of its housing part 12 an external thread 36 on, with it into a corresponding threaded hole one with the measuring fluid in the direction of the arrow 38 flowed through the pipe 40 liquid-tight can be used. The measuring head 10 is over the cable 34 to an external control and evaluation unit 42 connected.

Claims (14)

Heat transfer measuring device with one of a flowing measuring fluid ( 38 ) can be acted upon measuring head ( 10 ), one via a heat-conducting partition ( 16 ) pressure-tight against the measuring fluid sealed interior ( 30 ) and one in the interior ( 30 ) in thermal contact with the partition wall ( 16 ), at least one heating element ( 24 ) and a temperature measuring element ( 26 ) calorimetric sensor, characterized in that the partition ( 16 ) is designed as a prefabricated thin-walled disc with a defined wall thickness, which is provided with an opening edge ( 20 ) one at the measuring head ( 10 ) arranged pipe attachment ( 14 ) is materially connected. Heat transfer meter according to claim 1, characterized in that the thin-walled disc ( 16 ) on the pipe socket ( 14 ) welded or soldered. Heat transfer meter according to claim 1 or 2, characterized in that the thin-walled disc ( 16 ) consists of metal. Heat transfer meter according to one of claims 1 to 3, characterized in that the thin-walled disc ( 16 ) by means of a laser weld with the pipe socket ( 14 ) connected is. Heat transfer meter according to one of claims 1 to 4, characterized in that the prefabricated thin-walled disc ( 16 ) with the sensor ( 18 ) is equipped. Heat transfer meter according to one of claims 1 to 5, characterized in that the thin-walled disc ( 16 ) and the pipe socket ( 14 ) of the measuring head ( 10 ) consist of the same metal, preferably made of stainless steel. Heat transfer meter according to one of Claims 1 to 6, characterized in that the sensor has a contact with the thin-walled disk ( 14 ) surface heat conductively connected, preferably bonded, equipped with the heating element and the temperature measuring element ceramic carrier ( 22 ) having. Heat transfer meter according to claim 7, characterized in that the ceramic carrier ( 22 ) two at a distance from each other and from the temperature measuring element ( 26 ) arranged resistance heating elements ( 24 ) wearing. Heat transfer meter according to one of claims 1 to 8, characterized in that the measuring head ( 10 ) a pipe socket ( 14 ) carrying, with an external thread ( 36 ) provided rotationally symmetrical housing part ( 12 ) having. Heat transfer meter according to one of claims 1 to 9, characterized in that Inner space ( 30 ) of the measuring head ( 10 ) at a distance from the partition ( 16 ) a fitting ( 32 ) arranged with the sensor ( 18 ) is electrically connected and to which an outgoing lead cable ( 36 ) connected. Method for producing a measuring head ( 10 ) and one with a partition wall ( 16 ) of the measuring head ( 10 ) thermally conductively connected calorimetric sensor ( 18 ) existing Wärmeübergangsmeßgeräts, characterized in that a thin-walled, preferably made of a metallic material disc ( 16 ) with defined wall thickness on one side with the sensor ( 18 ) is thermally conductively connected, and in that then the prefabricated in this way disc to form the partition ( 16 ) on a free opening edge ( 20 ) of a pipe socket ( 14 ) of the measuring head ( 10 ) with sensor facing the interior ( 18 ) welded pressure-tight, soldered or glued. Method according to claim 11, characterized in that the disc ( 16 ) by means of a laser beam on the pipe socket ( 14 ) is welded. Method according to claim 11 or 12, characterized in that the sensor prefabricated in thick film technology or thin film technology ( 18 ) on the prefabricated disc ( 16 ) is glued. Method according to claim 11 or 12, characterized in that the sensor ( 18 ) in thin film technique directly on the disc ( 16 ) is applied.