FR2774764A1 - Temperature sensor using friction contact thermocouple - Google Patents

Abstract

The thermocouple (20) is in the form of a thin plate. This is held at both ends by pivoting hooks (30,31) mounted on a support frame (10). One of the hooks is spring loaded to hold the thermocouple by tension. The position of the support frame is adjustable by slotted apertures (11) so that the thermocouple can be held against a moving surface, in particular the disk (1) brake of a vehicle.

Description

Friction thermocouple temperature sensor
The present invention relates to a rubbing thermocouple temperature sensor used in particular to give an indicative measurement of the skin temperature of parts. This type of sensor is used, for example, in the automotive industry to give an indicative measurement of the skin of rotating parts such as, for example, brake discs.

 Temperature sensors for brake discs are known in the prior art, using a thermocouple integrated into the disc. The sensor is therefore rotating, which requires mounting rotary contacts, to transmit the electric current generated by the thermocouple to the measuring devices. Rotating contacts have the disadvantage of being more complex and more expensive to install, in particular because of the necessary protections against soiling of circular contact tracks.

 The present invention therefore aims to overcome the drawbacks of the prior art by providing a temperature sensor with rubbing thermocouple, allowing simple assembly.

 A first object of the invention is to propose a temperature sensor with a rubbing thermocouple.

 This object is achieved by the fact that the rubbing thermocouple temperature sensor comprises a fixed support of determined material on which is mounted a thermocouple element of lamellar shape, by means of self-adaptable securing means mounted on the fixed support, to ensure permanently rubbing contact with the part, with a predetermined pressure on the part, the skin temperature of which must be determined.

 According to another particularity, the fixed support comprises holes of determined shape, intended for mounting the fixed support near the part whose temperature must be determined, the shape of the holes being determined so that, during assembly, the position of the fixed support is adjustable in relation to the part whose skin temperature must be determined.

 According to another particular feature, the thermocouple element is a flexible blade made up of two half-blades of determined materials welded together, the ends of the thermocouple element are connected by means of conductive wires of the same material as the end to which they are connected to, a current meter.

 According to another particularity, the materials of the two half-blades and of the wires are determined to have a range of use temperature between 0 and 1100 ° C. and are preferably Chromel and Alumel.

 According to another particular feature, the means for securing the thermocouple element comprise a first cam and a second cam of determined materials, the shape of each cam is such that it comprises means for attaching to the thermocouple element and means for mounting on the fixed support, the materials of the cams being respectively identical to the end of the thermocouple element with which each cam is in contact.

 According to another particular feature, the first cam is locked in rotation on the fixed support by a locking means.

 According to another particular feature, the means for blocking the rotation of the first fixed cam comprises a bracket whose first branch is parallel and joined to said cam and the second branch is parallel and joined to the edge of the fixed support.

 In another feature, the second cam is movable in rotation relative to the fixed support around its axis of attachment to the fixed support and is connected to a first end of a return spring, the other end of which is fixed to the fixed support. .

 According to another particular feature, the connection of the thermocouple element with the cams is ensured by a perforation, situated at each end of the thermocouple element, the edges of these perforations being intended to collaborate with notches on tapered parts of each cam constituting the attachment means.

 According to another particular feature, the ends of the blade, forming the thermocouple element, are inclined towards the fixed support.

 According to another particular feature, the material of the fixed support is determined to have good temperature resistance, and is preferably a composite material.

 A second object of the invention is to propose a use of this rubbing thermocouple temperature sensor.

This object is achieved by the fact that to measure the pressure skin temperature of a brake disc, the sensor is integral with a fixed part of the vehicle relative to the brake disc so that the thermocouple is in contact with the disc slice
Other features and advantages of the present invention will appear more clearly on reading the description below made with reference to the accompanying drawings in which
- Figure 1 shows a front view of the rubbing thermocouple temperature sensor.

 - Figure 2 shows a top view of the rubbing thermocouple temperature sensor.

 - Figure 3 shows a front view of a means of mounting the thermocouple element on the fixed support.

 The description of the present invention will be made with reference to FIGS. 1, 2 and 3. The sensor, according to the invention, comprises a fixed support (10), for example of rectangular shape, of determined material, intended to be mounted at proximity to the part (1) whose user wants to measure the skin temperature. This assembly is carried out by means of holes (11), of determined shape, formed in the fixed support (10), intended to receive fixing means (not shown) of known type. The shape of the holes (11) is, for example, substantially a flattened ellipse, so that, during assembly, the position of the fixed support (10) is an adjustment. The fixed support (10) allows the mounting of a thermocouple element (20) by means (30,31) of self-adaptable fastening. The material chosen by making the fixed support is determined to have good temperature resistance (approximately 800 "C.) A composite material is preferably used.

 The thermocouple element (20) is, for example, of lamellar shape, and consisting of two half-blades (21,22) of determined materials, connected together by a weld (27). The materials are determined to form a thermocouple having a temperature range of use, for example between 0 and 1100 "C, and are preferably Chromel and Alumel. The ends (26,23) of the element ( 20) thermocouple each comprise a perforation (28) which collaborates with the means (30,31) for securing together Advantageously, the ends (23,26) of the element (20) thermocouple are inclined towards the fixed support (10), when the thermocouple element (20) is mounted. The thermocouple element (20) is connected to a measuring device (not shown), of electromotive force in micro-volts, via wires (24, 25) conductors of determined materials, connected to the ends (23, 26) of the thermocouple element (20), these two wires (24, 25) then being protected by a sheath (51). (not shown) is carried out using a compensated connector (50). materials chosen for the wires (24,25) are, for example, identical to the material corresponding to the half-blade (21 or 22) of the thermocouple element to which each wire is connected. The connection to the measuring device (not shown) is made using a compensated connector (50).

 The means (30, 31) for self-adapting fastening of the element (20) thermocouple with the fixed support (10), consist of two cams (30, 31) of determined shape. Each cam (30, 31) is mounted at each end of the fixed support (10) by means of fixing (34) of known type, for example, a screw and a nut collaborating with a first bore (33) made in each cam (30, 31) and a hole (not shown) made in the fixed support (10). Advantageously, the shape of each cam (30,31) is approximately a triangle with two rounded angles, the third angular sector (37) being tapered. This angular sector (37) comprises the means (36) for hooking the cams (30, 31) to the element (20) thermocouple, consisting, for example, of a notch (36) intended to cooperate with a perforation ( 28) of the element (20) thermocouple. For this particular shape, the first hole (33) is located approximately in the center of the triangle. Advantageously, a first cam (31) is locked in rotation on the fixed support (10), by means, for example, of a bracket (32). When the first cam (31) is mounted on the fixed support (10), the first branch (32a) of the bracket (32) is parallel and joined to the first cam (31), and the second branch (32b) is parallel and joined to the edge of the fixed support (10). Advantageously, the second cam (30) is movable in rotation, relative to the fixed support (10), around the axis formed by the fixing (34) of known type. A return spring (40) is connected, on the one hand, to the end opposite the third angular sector (37) of the second cam (30) by means of a second bore (35), and on the other hand, to the fixed support (10), by means of a clip (12) mounted integral with said support (10). The spring (40) is mounted so that it is in the working position when the thermocouple element (20) is mounted on the fixed support (10). A ring (38) holds the sheath (51) for protecting the two wires (24,25). This ring (38) is held integral with the first cam (31) by means of the second bore (35) of said cam (31).

 The thermocouple element (20) is mounted as follows. After fixing the fixed support (10) by means of the bores (11) and of the known type of fixing, and mounting the cams (30, 31) on said support (10), maintaining the element (20 ) thermocouple on the fixed support (10), is ensured by the collaboration of the periphery of the perforations (28) of the element (20) thermocouple with the notches (36) of the third angular sectors (37) of the two cams (30, 31). The rotation of the second cam (30) ensures with the spring (40) the flexibility of the element (20) thermocouple. This flexibility allows the thermocouple element (20) to match, on a determined part, the shape of the part (1) whose user wants to measure the skin temperature and to be in contact with a pressure determined by the spring (40). This also makes it possible, in the case where the part (1) is, for example rotating, to adhere permanently to the part (1), even if the surface thereof has irregularities. Advantageously, the fasteners used to fix the fixed support (10) are matted to avoid loosening due to vibrations.

 The temperature sensor according to the invention has the advantage of having a simple assembly. In addition, since it is made up of few parts, its cost is reduced. It gives an indication of the skin temperature of the rotating part. In the application to a brake disc, the mounting is carried out so that the contact of the sensor is made on the edge of the disc (1), thus avoiding polluting the contact surface of the thermocouple with brake lining residues and conversely to pollute the braking area with deposits of material due to friction of the thermocouple on the disc (1).

 It is clear that other modifications within the reach of those skilled in the art fall within the scope of the invention.

Claims (12)

 1. Friction thermocouple temperature sensor characterized in that it comprises a fixed support (10) of determined material on which is mounted a thermocouple element (20) of lamellar shape, by means (30,31) of self-adjusting fastening mounted on the fixed support (10), to permanently ensure friction contact with the part (1), with a predetermined pressure on the part (1) whose skin temperature must be determined.  2. rubbing thermocouple temperature sensor according to claim 1, characterized in that the fixed support (10) comprises holes (11) of determined shape, intended for mounting the fixed support (10) near the part (1) the temperature of which must be determined, the shape of the holes (11) being determined so that, during assembly, the position of the fixed support (10) is adjustable relative to the part (1) whose skin temperature must be determined .  3. rubbing thermocouple temperature sensor according to claim 1 or 2, characterized in that the element (20) thermocouple is a flexible blade made up of two half-blades (21, 22) of determined materials welded together, the ends (23, 26) of the element (20) thermocouple being connected by means of son (24, 25) conductors, of the same material as the end (23 or 26) to which they are connected, to a device for current measurement.  4. rubbing thermocouple temperature sensor according to claim 3, characterized in that the materials of the two half-blades (21, 22) and of the wires (24, 25) are determined to have a range of use temperature between 0 and 1100 C and are preferably Chromel and Alumel.  5. rubbing thermocouple temperature sensor according to one of claims 1 to 4, characterized in that the means (30, 31) for securing the thermocouple element (20) comprise a first cam (31) and a second cam (30) of determined materials, the shape of each cam is such that it comprises means (36) for hooking to the thermocouple element and means (33) for mounting on the fixed support (10), the materials of the cams (30,31) being respectively identical to the end (23 or 26) of the element (20) thermocouple to which each cam (30, 31) is in contact.  6. Temperature sensor with rubbing thermocouple according to claim 5, characterized in that the first cam (31) is locked in rotation on the support (10) fixed by a locking means (32).  7. rubbing thermocouple temperature sensor according to claim 6, characterized in that the means (32) for blocking the rotation of the first fixed cam (31) comprises a bracket (32) whose first branch (32a) is parallel and joined to said cam (31) and the second branch (32b) is parallel and joined to the edge of the fixed support (10).  8. Friction thermocouple temperature sensor according to one of claims 6 or 7, characterized in that the second cam (30) is movable in rotation relative to the support (10) fixed around its axis of attachment to the support (10 ) fixed and is connected to a first end of a return spring (40), the other end of which is fixed to the fixed support (10).  9. rubbing thermocouple temperature sensor according to one of claims 5 to 8, characterized in that the connection of the element (20) thermocouple with the cams (30,31) is ensured by a perforation (28) located at each end (23 or 26) of the thermocouple element (20), the edges of these perforations (28) being intended to collaborate with notches (36) on tapered parts (37) of each cam (30,31) constituting the means for attaching the cams (30,31) to the element (20) thermocouple.  10. Friction thermocouple temperature sensor according to one of claims 3 to 9, characterized in that the ends (23, 26) of the blade forming the element (20) thermocouple are inclined towards the support (10) fixed.  11. rubbing thermocouple temperature sensor according to one of claims 1 to 10, characterized in that the material of the fixed support (10) is determined to have good temperature resistance, and is preferably a composite material.  12. Use of the temperature sensor according to one of claims 1 to 11, for measuring the skin temperature of a brake disc characterized in that the sensor is integral with a fixed part of the vehicle relative to the disc so the thermocouple rests on the edge of the disc.