KR850002263Y1 - Fire sensor - Google Patents

Abstract

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Description

Differential Spot Smoke Detectors

1 is a front view of the present invention with a part cut away.

2 is a detailed view of portion A of FIG.

3 is a detailed view of part B of FIG. 1;

4 is a reference perspective view of a conventional movable terminal.

* Explanation of symbols for main parts of the drawings

1: Chamber Base 1a: Inner Wall

1b: outer wall 2: inner chamber

2b: curved portion 3: outer chamber

4: diamond frame 9: adhesive

The present invention is directed to a new coupling structure that eliminates conventional means, such as rivets, bolts or solders, in the interlocking of the inner and outer chambers and the interlocking of the inner and outer chambers and the base.

When the room temperature rises due to a fire, the diaphragm with a concentric wave on a 0.035mm thick phosphor bronze plate expands, and the fire alarm is operated by touching the movable terminal to the fixed terminal. to be.

Conventional fire detectors that have this principle of operation have soldered the inner and outer chambers together or combined them with rivets or bolts. It was attached and drilled into the chamber base corresponding holes.

The defects of these fire detectors are usually due to the deformation of the soldered part and the solder corrosion to moisture in the air, depending on the working conditions such as the heating temperature when soldering, the time required for soldering, and the material of the solder. This slab has an adverse effect on the inner and outer chambers, and may deteriorate the function of the detector, and also adds a coupling pin for coupling with the chamber base, thereby increasing the complexity of the structure.

However, it is pointed out that since the soldering depends on the hand, uniform soldering at all the joints cannot be expected, as well as long working time, high solder value, and high electric charge. The present invention has been devised for the purpose of improving the structure of such a conventional differential soft type vortex detector, and the main feature is to combine the inner and outer chambers by simple fitting, and insert the circumference into an annular groove provided on the chamber basin. By filling the blanks with silicone rubber and bending, the inner and outer chamber bases are firmly joined. Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a front view of a complete fire detector, part of which shows an internal cross section. In this figure, on the left side of the inner upper surface of the synthetic resin chamber base 1, there is a movable terminal 5 fixed at the same time as the outer terminal 8 by the bowl cloth 15, and an outer terminal of the same type of bolt not shown on the right side as well. There is a fixed terminal (6) fixed with (8 ¹ ). The tip 5a of the movable terminal 5 touches the hemispherical insulator 10 attached to the bottom plate of the diaphragm 4, and the tip of the fixed terminal 6 is screwed to the center of the chamber base 1 It is supported at the top of (7).

The insulator 10 is made of silicone rubber or similar resin and is located in the recess 4a formed in the center of the bottom surface of the diamond frame 4 as shown in FIG.

This insulator 10 is sufficient if it is self-adhesive, and in the case of general synthetic resins, an adhesive is required. Since the insulator 10 is a silicone rubber which is a kind of resin with strong adhesiveness, a separate adhesive or heating action for curing is not necessary.

Thus, the greatest advantage obtained by attaching the insulator 10 to the diaphragm 4 itself is that the obstacles that would prevent the electrical contact with the fixed terminal 6 at the bottom of the tip 5a of the movable terminal 5 are removed. The contact stability of the liver is improved and thus the alarm can be fully activated. In addition, since the insulation structure between the diaphragm 4 and the movable terminal 5 is extremely simple and easy to attach, it is advantageous in terms of reworking stage and high productivity. The following describes the coupling structure between the inner and outer chambers 2 and 3 and the chamber base 1 related to FIG. 2 as an object of the present invention.

As shown in FIG. 2, the circumferential walls 2a and 3a, which are direct coupling portions of the inner and outer chambers 2 and 3, show no soldering traces or rivets or bolts, but the circumferential walls 2a and 3a. ) Are simply inserted.

They are also arranged in the annular groove 11 formed by the annular inner wall 1a and the outer wall 1b formed along the edge of the chamber base 1, so that the circumferential wall 2a of the inner chamber 2 is formed of the inner wall 1a. While being in close contact with the outer surface, the main wall 3 of the outer chamber 3 is fitted to leave a predetermined gap with the inner surface of the outer wall 1b, and the gap is filled with the adhesive 9.

The lower end 2b of the circumferential wall 2a in the inner chamber 2 is bent in a gentle curve toward the outside so as to be caught by the lower end of the circumferential wall 3a of the outer chamber 3. In this way, when the chamber base 1 and the inner and outer chambers 2 and 3 are fitted and fixed, they are completely covered by the outer chamber 3 so that the hand cannot be used and the contact area with the adhesive 9 in comparison with the outer chamber 3. This remarkably small inner side 2 can be easily and firmly fixed by the outer chamber 3.

It is preferable that the said adhesive 9 has superior quick drying property, workability, and permeability. In this invention, silicone rubber is adopted. Reference numeral 5a denotes a movable terminal, 12 a hole, and 13 a semi-diameter terminal.

The sensor of the present invention completed by such a coupling means has a very easy coupling between the inner and outer chambers and the chamber base, and the working time is short, resulting in an increase in production efficiency, and the gas inside is almost sealed by covering the chamber and the chamber base. As the outside air is prevented from entering, the penetration of dust, moisture, etc. mixed in the air is suppressed. Therefore, the shortcomings such as dust contacting the terminal and the contact failure due to corrosion of the terminal due to moisture are eliminated.

Claims (1)

The annular inner wall 1a and the outer wall 1b are projected upwardly at the periphery of the chamber base 1 to form an annular groove 11 therebetween, and the lower end 2b of the inner wall 2 of the inner wall 2a is formed. Formed into an outwardly curved portion, which is joined by a simple fitting such that the lower edge of the main wall 3a of the outer chamber 3 is fitted into the groove 11 of the chamber base 1, and the main wall of the outer chamber 3 (3a) Differential spot type fire detector, characterized in that the fixing by filling the adhesive (9) in the recess (11) portion remaining as a space on the outside.