JPS63298066A - Gas rate sensor main body - Google Patents

Abstract

PURPOSE:To prevent measurement from being disabled owing to the breakage of an insulating layer by forming the insulating layer on the outer periphery of a metallic casing which contains a holder Assy by a surface treatment such as ceramic coating or enameling, forming a heater wire comprising a resistor by a printing method on the surface of the insulating layer. CONSTITUTION:The insulating layer 12 is formed by the surface treatment such as ceramic coating and enameling on the outer periphery of the metallic casing 11 which contains the temperature sensing element, piezoelectric elements, etc., of a gas rate sensor and the holder Assy for holding them. A heater wire 13 is printed on the surface of this insulating layer 12. Then metallized patterns to which lead wires are soldered are formed at end parts of the heater wire 13 as input terminals 13a. Further, a thermistor 15 is arranged on the heater wire 13 printed on the insulating layer 12 by interposing the insulating paper 14. Then an insulation defect of the heater wire 13 is eliminated to improved heat conductivity.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a gas rate sensor main body that maintains a constant temperature within a casing that houses a holder As5y.

[Conventional technology]

The gas rate sensor houses a holder As5y consisting of a temperature sensing element etc. in a sealed casing, and blows out a C gas flow towards the temperature sensing element. The angular velocity (rate) is detected from the change in sensor output that occurs when the object is deflected. At that time, large fluctuations in outside air temperature will have a negative effect on detection accuracy, and therefore the holder As
It has been proposed that a heater wire be wound around the outside of the casing containing the 5y to maintain the inside at a constant temperature.

Fig. 3 is a configuration diagram showing a conventional gas rate sensor body equipped with this type of heater wire. The inside of the casing is sealed, and the heater wire 2 is spirally wound around the outside of the casing with an insulator 3 in between. Further, a thermistor 4 is attached to the outer surface of the casing 1 with an adhesive 5.
A coating layer 6 is provided on the outside thereof. The heater wire 2 and thermistor 4 are connected to the respective lead wires 2a and 4.
It is connected to a control unit (not shown) through a, and the heater wire 2 is connected to M! , are fixed at both ends of the casing 1 by edge threads 7.

In the gas rate sensor main body configured as described above, a constant gas flow is ejected from the nozzle toward the temperature sensing element of the flow sensor inside the sealed casing 1 as described above, and outside The gas flow is deflected by the influence of angular velocity motion. At this time, the output of the flow sensor changes, and by detecting this, the magnitude of the angular velocity can be detected. At this time, the energization of the heater wire 2 is controlled according to the detection signal of the thermistor 4, and the temperature inside the casing 1 is maintained constant by this feedback control. Therefore, even if the outside air temperature fluctuates, its influence does not affect the holder As5y, and a high detection particle size can be obtained.

[Problem that the invention seeks to solve]

However, in the gas rate sensor body as described above, there is a problem that the insulator 3 is damaged due to deterioration etc., resulting in insulation failure.
The adhesion between the casing 1 and the heater wire 21) is weak, and the heat from the heater wire 21)
There was a problem that it was difficult to convey the message to the public.

The present invention was made in view of these problems, and provides a slate sensor body that prevents poor insulation of the heater wire and improves thermal conductivity from the heater wire. be.

[Means for solving problems]

The slate sensor body of this invention is a holder As5y.
An insulating layer is formed on the outer periphery of the metal casing containing the casing by enameling or ceramic coating, and a heater wire made of a resistor is provided on the surface of this insulating layer by a printing method.

[Effect]

In the gas rate sensor main body of the present invention, an insulating layer is formed on the outer periphery of the casing by surface treatment such as enameling or ceramic coating, and heater wires are printed on the surface of the insulating layer. Therefore, the insulating layer is not damaged, insulation failure is prevented, and heat from the heater wire is quickly transferred to the casing.

〔Example〕

FIG. 1 is a configuration diagram showing the main parts of a gas rate sensor main body according to the present invention. In the figure, 11 is a metal casing that houses the holder As5y, and an insulating layer 12 is formed on the outer periphery of the metal casing by enameling or ceramic coating surface treatment.
A resistor is printed on the surface, and a hole is provided as a heater wire 13. The end of the heater wire 13 is formed with a mellized pattern to which a lead wire is attached, and serves as an input terminal 13a. Furthermore, a thermistor 15 is placed above the heater wire 13 printed on the insulating layer 12 with an insulating paper 14 in between.

In this way, the insulating layer 1 formed on the outer periphery of the casing 11
Since the heater wire 13 made of a resistor is provided on the surface of the casing 2 by a printing method, poor insulation between the casing 11 and the heater wire 130 is eliminated, and at the same time thermal conductivity is improved. That is, since the insulating layer 12 is formed by enameling or surface treatment of ceramic coating, there is no risk of breakage or deterioration, and the reliability of the insulation is improved.

In addition, the enamel and ceramic have high thermal conductivity, and since the heater wire 13 is printed, it has strong adhesion to the insulating layer 12, so that the heat from the heater wire 13 is quickly transmitted to the casing 11, and the temperature rises quickly.

In the above embodiment, the thermistor 15 was provided on the heater wire 13 via the insulating paper 14, but as shown in FIG. It may be fixed by.

〔Effect of the invention〕

As explained above, according to the present invention, poor insulation between the heater wire and the casing is prevented, and the heat of the heater wire is quickly transferred to the casing, so that the thermal conductivity is improved to
It has the effect of

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the main parts of a cassette sensor main body according to the present invention, FIG. 2 is an explanatory diagram showing another example of mounting a thermistor, and FIG. 3 is a block diagram showing a conventional example. 11...Casing 12---Insulating layer 13---Heater wire Fig. 3

Claims (1)

[Claims] Temperature sensing element, piezo etc. and holder assembly to hold it
A gas characterized in that an insulating layer is formed on the outer periphery of a metal casing containing y by enameling or ceramic coating surface treatment, and a heater wire made of a resistor is provided on the surface of this insulating layer by a printing method. Rate sensor body.