JPH03239930A - Temperature sensor - Google Patents

Abstract

PURPOSE:To allow the decrease of the oscillation of a winding frame and to prevent the failure of a cable connected to the temp. measuring platinum strand at the base end of the winding frame by supporting the front end of the winding frame with the front end of a holding cylinder via a supporting member or directly supporting the front end of the winding frame. CONSTITUTION:The temp. measuring platinum strand 2 is wound on the outer peripheral surface of the winding frame 1 and a positioning hole 4 is hollowed in the central axial direction of bottom at the base end of the winding frame 1. Connecting holes 5, 5 to connect the hole 4 and the winding end are bored. The end face of the MI cable 9 which houses platinum alloy core wires 8, 8 interposed with an inorg. insulating material 7, such as MgO, in an armor pipe 6 consisting of a platinum alloy is subjected to end face sealing 10 and the core wires 8, 8 are exposed from the seal 10. The core wires 8, 8 are inserted into the communicating holes 5, 5 and the cable 9 is fitted into the positioning hole 4. Both ends of the strand 2 and the front ends of the core wires 8, 8 are connected. The strand 2 is then coated with a coating material and enmal is packed into the cavity between the core wires 8 and 8 to closely seal the cavity. The increase in the spacing is obviated by a thermal elongation difference even if the sensor heats up to a high temp. at the time of use. The oscillation of the winding frame 1 is thus limited.

Description

[Detailed description of the invention] "Industrial application field" The present invention relates to a temperature sensor.

``Prior Art'' Temperature sensors for rockets are primarily required to be able to quickly respond to changes in the rocket's combustion state, which can change from moment to moment. Furthermore, 9
It is used at a high temperature of about 00°C, under a high pressure of about 380 kg/d, and in places with strong vibrations and shocks. In order to improve responsiveness, it would be possible to reduce the heat capacity and make the sensor thinner, but the temperature sensor would not be strong enough due to shocks. In order to improve responsiveness, it must be made thin and thin, but in order to improve impact resistance, it must be strong, and it must meet contradictory requirements.

When using a temperature sensor under high pressure, the electrical signal of the temperature sensor is extracted, so there is a risk that the high-pressure fluid may flow out from the extraction part.At room temperature, it is easy to create an airtight structure with an O-ring, but at high temperatures, airtightness may not be possible. Hateful.

Temperature sensors for rockets have good response and are used under the most severe conditions, requiring high pressure resistance, shock resistance, vibration resistance, and high temperature resistance.

``Problems to be Solved by the Invention'' In order to improve responsiveness, a rod-shaped winding frame with temperature-measuring platinum wire wrapped around the outer circumferential surface was attached at the base end, and the tip was freely cantilevered for direct measurement. The frame is brought into contact with the medium, but the frame vibrates, and the wire is connected to the temperature-measuring platinum wire at the base of the winding frame.
Break the i+ cable).

"Means and Effects for Solving the Problems" In view of the above circumstances, the present invention provides support for the tip of the rod-shaped winding frame in order to reduce vibration of the winding frame. To support the leading end of the winding frame, the leading end of the winding frame is supported by the leading end of the protective cylinder via a support member, or the leading end of the winding frame is supported directly by the leading end of the protective cylinder.

Supporting members include a top cover with a stop piece or a clamping piece protruding from the cover piece that abuts on the tip surface of the protective cylinder to limit movement in the radial direction, and a positioning piece that fits inside the frame from the cover piece. There is one in which a provided inner diameter supporting end cap or winding frame is held by a plurality of wires.

There are a plurality of pressing pieces cut and raised inward on the protective cylinder to directly support the winding frame.

"Example" First, this temperature sensor will be described in detail with reference to FIG.

A temperature-measuring platinum wire 2 is wound around the outer peripheral surface of a bottomed cylindrical alumina winding frame 1. A positioning hole 4 is recessed in the bottomed central axis direction of the base end of the winding frame 1, and communication holes 5 and 5 are bored to connect the positioning hole 4 and the end of the temperature measuring platinum wire 2 on the outer surface 14. Set up MgO, Al□03, SiO□ inside the platinum alloy outer tube 6
An M1 cable 9 containing platinum alloy core wires 8 with an inorganic insulating material 7 interposed therebetween is sealed with an end face seal 10 of, for example, enamel or ceramic.
8 is exposed from the end face seal 10, the platinum alloy core wires 8, 8 are inserted into the communication holes 5, 5, the M+ cable 9 is fitted into the positioning hole 4, and the temperature measurement is wound around the outer peripheral surface of the winding frame l. Both ends of the platinum wire 2 and the tip of the platinum alloy core vA88 are connected. The temperature measuring platinum wire 2 wound around the outer peripheral surface of the winding frame 1 is coated with a coating material 11 such as enamel or ceramic, and the space between the platinum alloy core wires 8 and 8 in the communication holes 5 and 5 is coated with enamel. Fill it to eliminate any gaps and seal it. Also, MI
The cable 9 extends from the base end of the winding frame l, and the Ml cable 9
The gap between the positioning hole 4 and the positioning hole 4 is filled with a bonding material 12 such as enamel, ceramic, or brazing material. Since the winding frame 1 made of ceramic cannot be directly joined to the connecting fitting 16 made of Hastelloy X, it is joined with a platinum alloy flange 17 interposed therebetween. The platinum alloy flange 17 has a coefficient of thermal expansion close to that of the ceramic winding frame 1, and since the platinum alloy flange 17 is made of metal, it can be joined to the connecting fitting 16 by brazing. A cap-shaped platinum alloy flange 17 is fitted onto the base end of the winding frame 1, and a material such as enamel, ceramic, brazing material, etc. The bonding material 18 is filled and fixed. The connection fitting 16 made of Hastelloy
9 is provided, and an insertion hole 20 for the Ml cable 9 is bored in the central axis direction on the proximal side of the receiving hole 19. The receiving hole 19 of the connecting fitting 16 and the outer peripheral surface of the platinum alloy flange 17 are coated with the enamel.
A gold-nickel-palladium brazing material 21 is placed at a required distance in the axial direction from the joint of a bonding material 18 such as ceramic or brazing material.
The Ml cable 9 and the connecting fitting 16 are brazed with a gold-nickel-palladium brazing material 22 through the insertion hole 20. In addition, the winding frame 1 is covered concentrically with a protective cylinder 23 made of Hastelloy The protective tube 23 is fixed by TIG welding 24.

Next, support for the tip of the winding frame I in order to prevent the camellia frame 1 from vibrating will be described.

There are two types: one in which a supporting member of the winding frame 1 is interposed, and the other in which the winding frame 1 is directly supported by a protection cylinder 23. As a result of the support member,
There are those that use a tip end cap, an inner diameter supporting tip end cap, and a plurality of wires, and there are those that are provided with a pressing piece that is directly supported by the protective tube 23.

The tip lid 31 is made of metal, and as shown in FIG. 2, has a through hole 32 in the center and has a lid piece 3 that comes into contact with the tip surface of the protective tube 23.
A plurality of stop pieces 34 for restricting movement of the tip of the winding frame 1 in the radial outward direction are protruded from one surface of the winding frame 3 so that there is no gap or a small gap with the tip of the winding frame 1. The tip of the winding frame 1 is fitted into the stop piece 34, and the cover piece 33 is brought into contact with the tip surface of the protection tube 23 and welded 35 to join. Note that fastening means other than welding may be used.

When this temperature sensor is used, even if the temperature rises, the gap does not increase due to the difference in thermal expansion, and vibrations of the winding frame 1 are restricted.

The tip 141 in FIG. 3 is made of metal and is located on the frame side of the lid piece 42.
A clamping piece 43 for clamping the outer diameter of the tip of the winding frame 1 is provided protruding from the surface, and a slit 44 is provided between the clamping piece 43 and the clamping piece 43.
intervene. Note that a through hole 45 is bored in the middle of the lid piece 42.

This temperature sensor holds the tip of the winding frame I with a slight interference margin at room temperature, and reduces the gap at high temperatures to limit vibrations of the winding frame I.

The inner diameter supporting end cap 51 in FIGS. 4 and 5 is attached to the protective tube 2
A plurality of positioning pieces 53 that fit inside the tip of the winding frame 1 are provided protruding from the winding frame side side of the lid piece 52 that comes into contact with the tip end surface of the cover piece 52, and a positioning piece is provided between the positioning pieces 53. 5
A slit 54 is interposed so that the outer circumference of the positioning piece 53 can be elastically reduced in diameter, and the outer periphery of the positioning piece 53 is formed into an arcuate surface 55 so as to avoid contact with the inner surface of the winding frame 1 as much as possible, and to form an acute angle on the inner surface of the winding frame 1. Avoid contact. Further, a through hole 56 and through holes 57, 57, 57, and 57 are respectively formed in the center of the lid piece 52 and around the center thereof so that the measurement medium can flow therethrough. The inner support tip cap 51 can be attached to the protection tube 23 by welding or other fastening means.

This temperature sensor uses the positioning piece 5 due to the difference in thermal expansion at high temperatures.
3 expands outward, the force is small because the slit 54 is present.

As shown in FIG. 6, two wires 61 are used as supporting members.
61 can also be used. Two wires 61, 61 are held at the tip of the winding frame 1 with both ends of each wire 61, 61 facing in opposite directions, and both ends of each wire 61, 61 are inserted into the holding cylinder 23. Note that it is also possible to fix it with only one wire.

The vibration of the winding frame 1 during use of this temperature sensor is caused by the wire 61.
61.

In FIG. 7 and FIG. 8, the pressing pieces 71 and 7 of the protection tube 23 are shown.
This is an example in which winding frame 1 is supported by 1.71.

The wall on the same circumference near the tip of the holding cylinder 23 is attached to the protective cylinder 23.
Cut and raise the three arc-shaped pressing pieces 71, 71, 71 so as to touch the outer circumferential surface of the tip of the winding frame 1 inward, and elastically insert the tip of the winding frame 1 into the pressing pieces 71, 71, 71. Support.

During use of this temperature sensor, the vibration of the winding frame 1 is caused by the pressing piece 71.
It is limited to 71.71.

Effects of the Invention 2 As described above, the present invention has a rod-shaped winding frame with a temperature measurement wire attached to the outer peripheral surface, the base end of which is held, the tip of which is attached in a cantilevered manner, and the base end is supported within a protective cylinder. In the temperature sensor that accommodates the winding frame, the winding frame tip is supported by the holding cylinder tip via a support member, or the winding frame tip is directly supported by the holding cylinder tip, so that vibrations of the rod-shaped winding frame are suppressed. The M1 cable used as a lead wire connected to the temperature-measuring platinum wire at the base end of the winding frame will not be damaged.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view showing the entire temperature sensor of the present invention, FIG. 2 is a longitudinal sectional view showing a state in which the winding frame is supported using the tip lid, and FIG. 3 is a perspective view of another tip lid. Fig. 4 is a vertical cross-sectional view showing the holding frame supported by the inner diameter support end cap, Fig. 5 is a front view of Fig. 4, and Fig. 6 is a cross-sectional view showing the holding frame supported by two wires. Figure 7 is a side view showing the state in which the winding frame is directly supported by the pressing piece of the protection tube, and Figure 8 is a side view of the winding frame shown in Figure 7.
■It is a sectional view. 2... Temperature measuring platinum wire 1... Winding frame 23... Protective cylinder 33, 42, 52... Lid piece 34... Stop piece 43... Clamping piece 53... Positioning piece 51 ... Inner diameter support tip cover 61 ... Wire 71 ... Pressing piece

Claims (5)

[Claims] (1) A rod-shaped winding frame with a temperature-measuring wire wound around its outer circumferential surface is held at its base end, the tip is freely cantilevered, and the winding frame is housed in a protective cylinder that supports the base end. In the sensor, a temperature sensor in which the tip of the winding frame is supported by the tip of the protective tube through a support member, or the tip of the winding frame is directly supported by the tip of the protective tube. (2) The support member protrudes a stop piece that restricts the movement of the winding frame tip in the radial outward direction or a clamping piece that clamps the outer diameter of the winding frame tip from one surface of the cover piece on the winding frame side that comes into contact with the protective cylinder tip surface. The temperature sensor according to claim 1, which is a distal end cap provided with a cap. (3) The supporting member is an inner diameter support tip cover having a positioning piece that fits inside the winding frame tip and protrudes from one side of the winding frame side of the lid piece that comes into contact with the protective cylinder tip face. temperature sensor (4) The supporting member includes a plurality of wires, with both ends of each wire facing in opposite directions, holding the tip of the winding frame, and having both ends of each wire fitted into the holding cylinder. temperature sensor (5) The tip of the winding frame is directly supported by a plurality of pressure pieces cut and raised on the same circumference near the tip of the protection cylinder so as to make contact with the outer peripheral surface of the tip of the winding frame, facing into the protection cylinder. Temperature sensor according to claim 1