JPH0240534Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a humidity sensor that detects humidity, and more specifically, to an improvement of its protective case.

[Conventional technology]

Generally, a humidity sensor is attached to a protective case that is breathable. There are a variety of protective cases available, ranging from those made of fine wire mesh to those made of synthetic resin with a silk screen-like ventilation membrane on the window, and more recently, those with a porous polymer membrane made of tetrafluoroethylene resin. Proposed.

[The problem that the idea aims to solve]

However, from the point of view of practical application, each has advantages and disadvantages. In other words, those made of wire mesh are cheaper in terms of cost, but water droplets and dust can pass through them, and there is a high risk that they will rust or be easily dented by external impact. .
On the other hand, synthetic resin cases have sufficient mechanical strength, but their injection molds are expensive, and a ventilation membrane must be attached to the window from the inside of the case, making it difficult to work and mass-produce. The problem is that the effects cannot be expected.

Therefore, the purpose of this invention is to be dust resistant and
An object of the present invention is to provide a humidity sensor equipped with an inexpensive protective case that has practical mechanical strength.

[Means to solve the problem]

In order to achieve the above object, this invention is equipped with a substrate having a sensor part made of a moisture-sensitive element and a terminal pin electrically connected to the sensor part, and the board is shaped like a rectangular cylinder with a ceiling part at one end. In a humidity sensor housed in a protective case, the protective case is made of a porous sintered body, and the top of the board fits into the ceiling of the case to hold the board at approximately the center of the case. In addition, the opening of the protective case is sealed with a filling material.

[Effect]

As mentioned above, since the protective case is made of a porous sintered body, it is resistant to dust and has practical mechanical strength, and the production cost is lower than that of a case made of synthetic resin. Can be done. Furthermore, since the board is held at approximately the center position within the protective case, assembly workability is improved. Furthermore, by creating a gap between the side of the board and the inner surface of the side wall of the protective case that communicates the space on the front side and the space on the back side of the board, it is possible to accurately control humidity without having to worry about directionality. can be detected.

〔Example〕

Hereinafter, this invention will be described in detail with reference to embodiments shown in the accompanying drawings.

This humidity sensor includes a substrate 1 having a humidity sensor section. That is, on the surface of this substrate 1, a pair of electrodes 4 and 5 made of, for example, ruthenium oxide are formed. In this case, each electrode 4, 5 has a plurality of branch electrodes 4a formed in a strip shape with a constant interval and arranged so as to interlock with each other in an electrically insulated state.
..., 5a... are provided, respectively, and a moisture-sensitive layer made of metal oxide or the like is provided on these branch electrodes (the area surrounded by the chain line in FIG. 1). In addition,
Since solder is difficult to adhere to the ruthenium oxide, in this embodiment, each electrode 4, 5
So-called solder bumps made of a conductive material such as silver-palladium are formed on the ends 4b and 5b, and terminal pins 7 and 7 are soldered to these portions. In this case, each terminal pin 7 is made of a steel wire with good solder adhesion, for example, a solder-plated coated steel wire.
It is preferable to use a nickel-plated steel wire called a tin-plated coated steel wire, a solder-plated nickel wire, a tin-plated nickel wire, or a CP wire.

This invention includes a protective case 10 that covers the substrate 1. The protective case 10 is made of a porous sintered body made of polypropylene, polyethylene, or the like, and is formed into a rectangular tube shape with a ceiling portion 11 at one end. In this case, the ceiling portion 11 is provided with a holding means that fits into the top side 1a of the substrate 1 and holds the substrate 1 at approximately the center position of the protective case 10. In this embodiment, the retaining means consist of a groove 12 as illustrated in FIG. In addition, protective case 10
is a gap 1 of an appropriate width between the side sides 1b, 1b of the substrate 1 and the opposing side wall inner surfaces 13, 13.
4 and 14, and is configured such that the space on the front side and the space on the back side of the substrate 1 can communicate with each other through the space between them. The opening of this protective case 10 is
For example, it is sealed with a filler such as epoxy resin or silicone resin. Note that in order to prevent the filler 15 from flowing into the protective case 10, the lower side 1c of the substrate 1 is covered in advance with a shielding plate 16 such as cardboard or a printed board. 16 is provided with insertion holes for the terminal pins 7, 7, and the lower side 1c of the board 1 is held at the center of the protective case 10 by the shielding plate 16.

In the above embodiment, the grooves 12 are shown as an example of the holding means, but as shown in FIG. A pair of guide ribs 17, 17
It may be.

〔effect〕

As explained above, in this invention, by forming the protective case from a porous sintered body, it is resistant to dust and has practical mechanical strength, while being able to replace the conventional synthetic resin case. A protective case with lower production costs can be obtained compared to. Further, since the ceiling of this protective case is provided with holding means for positioning the board at approximately the center position within the case, assembly work is particularly easy. Furthermore, since there is a gap between the side of the board 1 and the inner surface of the side wall of the protective case that communicates the space on the front side of the board with the space on the back side, it is not affected too much by the directionality. Humidity can be detected accurately.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal sectional view showing an embodiment of this invention, Fig. 2 is a sectional view taken along the - line in Fig. 1, Fig. 3 is a partially sectional perspective view of the protective case, and Fig. 4 is a cross-sectional view of the protective case. FIG. 6 is a perspective view showing a modified embodiment of the holding means provided on the ceiling. In the figure, 1 is a board, 7 is a terminal pin, 10 is a protective case, 11 is a ceiling part, 12 is a groove, 13 is an inner surface of a side wall, 14 is a gap, 15 is a filling material, 16 is a shielding plate,
17 is a guide rib.

Claims (1)

[Claims for Utility Model Registration] (1) A rectangular cylindrical structure comprising a substrate having a sensor section consisting of a moisture sensing element and a terminal pin electrically connected to the sensor section, and having a ceiling section at one end. In a humidity sensor housed in a protective case, the protective case is made of a porous sintered body, and a ceiling portion thereof is fitted with the top side of the substrate to hold the substrate at approximately the center of the case. 1. A humidity sensor characterized in that a holding means is formed to hold the protective case, and an opening of the protective case is sealed with a filler. (2) In claim (1) of the utility model registration, a space on the front side and a space on the back side of the board are communicated between the side of the board and the inner surface of the side wall of the protective case opposing thereto. A humidity sensor characterized by having a gap. (3) In claim (1) of the utility model registration, a shielding plate is interposed between the lower side of the substrate and the filler to prevent the filler from penetrating into the protective case; A humidity sensor characterized in that the shielding plate is provided with a terminal pin insertion hole for holding the lower side of the substrate at a substantially central position within the protective case through the terminal pin. (4) Utility Model Registration The humidity sensor according to claim (1), wherein the holding means is a groove having a size that matches the top side of the substrate. (5) In claim (1) for utility model registration, the holding means is a member that holds both sides of the top side of the substrate.
A humidity sensor comprising a pair of parallel guide ribs.