KR100902996B1 - Differential sensor - Google Patents

Abstract

A differential heat detector is provided to maintain a set contact point gap of a switching contact point part by performing displacement of a diaphragm according to the transformation of a component mounting plate. A base plate(100) is adhered to a ceiling. A power source contact terminal is formed in the base plate. A component mounting plate(200) is coupled with the base plate. A fixing terminal, a moving terminal(400), a power terminal(600), and a circuit board(500) are mounted on the component mounting plate. A diaphragm(700) transformed according to temperature change is mounted on the component mounting plate. A shielding plate(800) forms a completely airtight room in the lower part of the component mounting plate. The fixing terminal, the moving terminal, and the diaphragm are mounted in the inside of a thin film part of the component mounting plate.

Description

Differential Heat Detectors {Differential sensor}

The present invention relates to a differential heat detector that can be installed on the ceiling of the building to emit a fire signal to the receiving panel by the heat detection in the event of a fire, and more specifically, a fixed terminal, a movable terminal, a diaphragm on the base plate mounted on the ceiling And a part mounting plate to which a circuit board or the like is mounted, and a part on which a fixed terminal and a movable terminal are mounted, and a circumferential surface on which a diaphragm is mounted, in a differential thermal sensor in which a shielding plate is fixed to the part mounting plate. A thin plate with a thinner component mounting plate, even when the component mounting plate changes shape according to the surrounding environment, the diaphragm is displaced according to the modified shape so that the set contact gap of the switching contact part is maintained as it is. In addition to maintaining the life, malfunctions caused by deformation In addition, the present invention is to form the terminal sheet and the circuit board sheet of the fixed terminal and the movable terminal of the component mounting plate higher than the upper surface of the component mounting plate to prevent water from seeping into the circuit board and the terminal The sensor can solve problems such as malfunction or malfunction, and the present invention is also pressed the connection portion of the elastic inclined maintenance and the contact portion is maintained at a constant inclination angle from the fixed terminal of the movable terminal is maintained at a constant price with respect to the fixed terminal By forming and connecting with the own molding part, the differential inclined holding part and the contact part of the movable terminal are not deformed by impact or striking and remain in the original state so that the movable terminal does not become a malfunction against the fixed terminal. It is about a heat sensor.

In general, a fire detector is installed to detect a fire in case of a fire in a building, an apartment, and the like. Such a fire detector detects a fire and promptly generates an alarm signal, thereby causing a large number of people in case of fire. Not only does this help to evacuate quickly, reducing human damage, but it also enables early detection and extinguishing of fires to reduce property damage.

There are several types of temperature sensors, but the most well-known air pipe temperature sensors are differential sensors. The differential detector comprises a base plate fixed to the ceiling, a component mounting plate coupled to the base plate, and a shield plate mounted on the component mounting plate. The component mounting plate is equipped with components such as fixed terminals, movable terminals, circuit boards and diaphragms.

In other words, the differential detector operates when the ambient temperature rises above a certain rate of rise. When a sudden rise in temperature occurs in a fire, the air in the air chamber expands with the rise of the ambient temperature, and the air leaks from the leak hole. Much more inflated air is pushed up and the diaphragm is pushed up, and the movable terminal is connected to the fixed terminal to form a contact to generate a fire signal.

The structure of the differential detector is fixed to the ceiling by a fastening means (not shown) as shown in FIGS. 1A and 1B, and a base having power contact terminals 110 and 110 connected to power terminals 600 and 600 described later. The plate 100, the component mounting plate 200 coupled to the base plate 100, and also the shielding plate 800 mounted to the component mounting plate 200. The component mounting plate 200 is equipped with components such as the fixed terminal 300, the movable terminal 400, the circuit board 500, the power supply terminals 600, 600 and the diaphragm 700.

However, since the base plate 100 and the component mounting plate 200 are formed of synthetic resin such as PC, for example, the plate shrinks and expands according to temperature change in winter and summer and also cold or hot fat. Thermal deformation will occur.

As shown in FIG. 1A by the deformation of the plates as described above, the movable terminal 400 is maintained at a predetermined interval with respect to the fixed terminal 300, and then the base plate 100 and the component mounting plate 200 are heated by heat. In the case of deformation, as shown in FIG. 1B, the component mounting plate 200 sags downward, and thus, the fixed terminal 300 and the movable terminal 400 are connected to each other.

In addition, since the power terminals 600 and 600 and the circuit board 500 are conventionally fixed to the upper surface 201 of the component mounting plate 200 as shown in FIG. When penetrating into the base plate 100 of the sensor, the power supply terminals 600 and 600 connected to the power connection terminals 110 and 110 of the base plate 100 are introduced into the component mounting plate 200.

Water introduced into the power supply terminals 600 and 600 of the component mounting plate 200 penetrates directly into the circuit board 500 through the connection terminals 630 and 630 connecting the power supply terminals 600 and 600 to the circuit board 500. There are serious problems with alarm systems, such as earthing circuit components and causing malfunctions.

The present invention is to solve the above problems, the outer surface is composed of a thin plate portion thinner than the thickness of the component mounting plate around the circumferential surface of the fixed terminal, the movable terminal and the diaphragm is fixed on the component mounting plate of the differential sensor According to the temperature change by the temperature of the purpose, the fixed terminal, the movable terminal and the diaphragm are integrally deformed so that the terminals can be connected to each other and maintained without causing a malfunction. In addition, the present invention by mounting the fixed terminal, the movable terminal and the circuit board on the component mounting plate and the terminal sheet and the substrate sheet formed higher than the upper surface of the component mounting plate, even if the water penetrates into the detector on the ceiling fixed terminal It also aims to prevent water from entering the operating terminal and circuit board so that the detector can prevent malfunction or malfunction. In addition, the present invention by forming the elastic inclined holding portion of the movable terminal and the contact portion formed by the pressing mark molding portion, even if a shock or impact is applied to the detector, the set contact gap of the fixed terminal and the movable terminal is maintained as it is malfunctioning due to deformation It is to provide a fire detector that is prevented inherently.

The present invention is fixed to the ceiling and the base plate is a power contact terminal is formed, and the diaphragm is coupled to the base plate and the fixed terminal and the movable terminal, the power supply terminal and the circuit board is mounted and also modified by the change of temperature In the differential heat sensor comprising a component mounting plate and a shielding plate which forms a completely sealed air chamber at the lower part of the component mounting plate, the fixed terminal, the movable terminal, and the diaphragm are circumferentially peripheral surfaces of the component mounting plate. It is mounted on the inner side of the thin plate formed thinner than the thickness of the component mounting plate according to the groove circumferential surface formed in the groove, and the deformation or expansion deformation due to the temperature change of the component mounting plate is fixed to the fixed terminal, the movable terminal and the diaphragm. It is a basic feature to block deformation.

In addition, the upper surface of the component mounting plate of the present invention, the terminal sheets and the substrate sheet higher than the upper surface is formed, so that the power terminal and the circuit board is mounted on the sheets to be connected to each other as a connection terminal, the water of the ceiling A power supply terminal of the base plate is discharged from the power supply terminal to the connection terminal to block the inflow of water to the circuit board.

In addition, the base portion of the present invention is formed by the terminal screw between the contact portion of the movable terminal is fixed to the base plate and the elastic inclined retaining portion, the contact portion and the elastic inclined holding portion in the external impact, the pressing marks forming The molding angle can be maintained by the negative.

As described above, the present invention is coupled to the component mounting plate to which the fixed terminal, the movable terminal, the diaphragm and the circuit board, etc. are mounted on the base plate mounted on the ceiling, and the shielding plate is fixed to the component mounting plate. In the circumferential surface of the part where the fixed terminal and the movable terminal are mounted and the part where the diaphragm is mounted, the thickness of the component mounting plate is thinner and the component mounting plate is deformed even when the shape is changed according to the surrounding environment. Accordingly, the diaphragm is displaced so that the set contact gap of the switching contact part is maintained as it is, so that the semi-permanent life of the fire detector can be maintained, as well as to prevent malfunction due to deformation. The terminal and circuit board sheets of the fixed and movable terminals are placed on the It is formed higher and prevents water from seeping into the circuit board and terminals even if it penetrates into the detector, which can solve problems such as malfunction or malfunction of the sensor. The elastic inclination holding part and the contact part of the contact part which are maintained at a predetermined inclination angle from the fixed terminal part of the terminal are molded and connected to the pressing mark molding part so that the elastic inclination holding part and the contact part of the movable terminal are not deformed by impact or striking and are In this state, the movable terminal does not become a defective operation with respect to the fixed terminal.

Detailed examples of the present invention will be described below with reference to the accompanying drawings.

FIG. 1A is a longitudinal cross-sectional view of a conventional differential thermal sensor, FIG. 1B is a longitudinal cross-sectional view of a variation of a conventional differential thermal sensor, FIG. 2 is a front separated perspective view of the differential thermal sensor of the present invention, and FIG. 4 is a longitudinal cross-sectional view of a differential thermal sensor of the present invention, and FIG. 4 is a longitudinal cross-sectional view of the differential thermal sensor of the present invention, and FIGS. 5A and 5B are longitudinal cross-sectional views of a modification of the component mounting plate of the differential thermal sensor of the present invention, and 6 is a partially cut-away sectional view of the fixed terminal and the movable terminal of the present invention, and FIG. 7 is an exploded perspective view of the fixed terminal and the movable terminal of the present invention.

2 and 3, the differential thermal sensor is attached to the ceiling and fixed to the base plate 100, the base plate 100, the fixed terminal 300, the movable terminal 400, the power supply terminal ( 600,600 and the circuit board 500 are mounted, and the component mounting plate 200 to which the diaphragm 700 is deformed due to the change of temperature, and the air completely enclosed under the component mounting plate 200. It consists of a shielding plate 800 to form a seal.

The base plate 100 is fixed to the ceiling by a fastening means (not shown). In addition, the base plate 100 has power contact terminals 110 connected to the power source.

In addition, as shown in FIG. 4, the component mounting plate 200 has higher terminal sheets 610 and 610 and substrate sheets 510 formed thereon, and power terminals 600 and 600 are screwed to the terminal sheets 610 and 610. The circuit board 500 is fixed to the substrate sheet 510, and the terminal of the circuit board 500 is connected to the power supply terminals 600 and 600 by a connecting terminal 630 in which an intermediate portion is bent. Connection is fixed by fixing means such as soldering with (numbers omitted).

Since the power terminals 600 and 600 and the circuit board 500 are fixed to the sheets installed higher than the upper surface of the base plate 100 as described above, the power terminals 600 and 600 even if water from the ceiling penetrates into the upper surface of the base plate 100. ) And the circuit boards 500 may prevent problems such as causing earth.

That is, the terminal sheets 610 and 610 and the substrate sheet 510 higher than the upper surface 201 are formed on the upper surface 201 of the component mounting plate 200, and the power terminals 600 and 600 on the sheets 610 and 510. And the circuit board 500 to be connected to each other by the connection terminal (630,630), the water of the ceiling through the power contact terminal (110,110) of the base plate 100 from the power terminal (600,600) from the connection terminal (630,630) Is discharged to, to block the inflow of water to the circuit board 500.

And, as shown in Figure 4, the fixed terminal 300, the movable terminal 400 and the diaphragm 700 is composed of a groove peripheral surface 210 formed on the circumferential peripheral surface of the component mounting plate 200 It is mounted on the inner side of the thin plate portion 220.

In addition, the fixed terminal 300 and the movable terminal 400 are fixed to the bottom surface 202 of the component mounting plate 200 by the terminal screw 10, the base portion (310, 410) of the circuit board 500 It is fixed to be connected.

In addition, the diaphragm 700 is fixedly fixed by an epoxy resin to a circumferential frame 710 whose circumferential surface is formed at a predetermined height on the bottom 202 of the component mounting plate 200.

4, circumferential ribs 730 are formed at equal intervals on the outer circumferential surface of the diaphragm 700 of the bottom surface 202 of the component mounting plate 200, and in the circumferential direction of the circumferential rib 730 The central axial inclined ribs 740 are formed at equal intervals, and the inner side of the central axial inclined ribs 740 maintains an interval 230 with the circumferential frame 710 of the diaphragm 700. A groove circumferential surface 210 is formed on the upper surface 201 of the component mounting plate 200 corresponding to the interval 230.

As described above, the fixed plate 300, the movable terminal 400 and the diaphragm 700 is formed of a thin plate portion 220 is formed by the groove peripheral surface 210 formed on the circumferential peripheral surface of the component mounting plate 200 5a, b, the fixed terminal even if the thin plate portion 220 of the component mounting plate 200 rises upward or downward, as shown in FIG. The 300, the movable terminal 400, and the diaphragm 700 may be integrally deformed so that the terminals may be connected to each other without causing a malfunction.

That is, the fixed terminal 300, the movable terminal 400 and the diaphragm 700, the component mounting plate by the groove circumferential surface 210 and the gap 230 formed on the circumferential peripheral surface of the component mounting plate 200 Mounted inside the thin plate portion 220 formed thinner than the thickness of the (200), the deformation of the contraction or expansion according to the temperature change of the component mounting plate 200 is the fixed terminal 300 and the movable terminal 400 and It prevents the deformation into the diaphragm 700.

In addition, the present invention, as shown in Figures 2, 3, 6 and 7, the elasticity of the movable terminal 400, the base portion 410 is fixed to the component mounting plate 200 by a terminal screw 10 The inclined holding part 420 is molded and fixed by the pressing mark forming part 440 with the tip contact part 430, so that the contact part 430 is fixed with the contact part 310 of the fixed terminal 300. It can be maintained.

That is, the base portion 410 is pressed between the contact portion 430 of the movable terminal 400 fixed to the base plate 200 by the terminal screw 10 and the elastic slope holding portion 420 ( 440 is formed so that the contact portion 430 and the elastic inclination holding portion 420 can be maintained at the forming angle by the pressing mark forming portion 440 even from external impact.

Therefore, even when a shock or impact is applied to the detector, the fixed slope 300 and the movable terminal 400 are maintained by the elastic slope holding unit 420 and the contact unit 430 formed by the pressed track forming unit 440. The set contact gap of) is maintained as it is, and malfunctions due to deformation can be prevented at the source.

After that, when the fire does not occur, the set contact gap between the fixed terminal 300 and the movable terminal 400 is maintained to maintain the off state, in which case the management of the fire detector is not made or a long time has elapsed. When the deformation occurs, for example, the inside of the thin plate portion 220 of the component mounting plate 200 of the fire detector is contracted and expanded as the tissue affected by the temperature, humidity, etc. by the groove peripheral surface 210 The shape will be deformed.

When the component mounting plate 200 is deformed, the deformation proceeds, at this time, the diaphragm 700 fixed with the epoxy resin 720 integrally on the component mounting plate 200 and also the fixed terminal 300 and the movable terminal. The diaphragm 700, the fixed terminal 300, and the movable terminal 400 are displaced in response to the deformation form of the component mounting plate 200 in a state in which the 400 is fixed by the terminal screw 10. The set contact gap between 400 and the fixed terminal 300 is maintained as it is to prevent a malfunction.

1A is a longitudinal sectional view of a conventional differential thermal sensor;

1B is a longitudinal sectional view of a modification of the conventional differential heat sensor;

2 is a front separation perspective view of the differential thermal sensor of the present invention;

3 is a bottom separated perspective view of the differential thermal sensor of the present invention;

4 is a longitudinal cross-sectional view of a differential thermal sensor of the present invention;

5A and 5B are longitudinal cross-sectional views of a modification of the component mounting plate of the differential thermal sensor of the present invention;

6 is a partial cutaway cross-sectional view of the fixed terminal and the movable terminal of the present invention,

7 is an exploded perspective view of the fixed terminal and the movable terminal of the present invention.

Explanation of symbols on the main parts of the drawings

100: base plate 200: parts mounting plate

201: Top face 202: Bottom face

210: home groove circumference 220: thin plate

300: fixed terminal 310: foundation

400: movable terminal 410: foundation

420: elastic slope holding unit 430: contact unit

440: pressed mark molding portion 500: circuit board

510: substrate sheet 600,600: power terminal

610,610: Terminal sheet 700: Diaphragm

710: circumferential frame 730: circumferential rib

740: center axial tilt rib

Claims (3)

The base plate 100 is fixed to the ceiling and the power contact terminals 110 and 110 are formed, and the fixed terminal 300 and the movable terminal 400, the power terminal 600, 600, and the circuit board are coupled to the base plate 100. Shield 500 is mounted and the component mounting plate 200 is equipped with a diaphragm 700 which is deformed by a change in temperature, and a shielded air chamber is formed completely below the component mounting plate 200. In the differential thermal sensor consisting of a plate 800, The fixed terminal 300, the movable terminal 400, and the diaphragm 700 are formed by the groove circumferential surface 210 and the gap 230 formed on the circumferential circumferential surface of the component mounting plate 200 and the component mounting plate 200. It is mounted inside the thin plate portion 220 formed thinner than the thickness of the), the deformation of the contraction or expansion according to the temperature change of the component mounting plate 200 is the fixed terminal 300 and the movable terminal 400 and the diaphragm Differential thermal sensor, characterized in that it prevents deformation into 700. The method according to claim 1, wherein the upper surface 201 of the component mounting plate 200, the terminal sheets 610, 610 and the substrate sheet 510 higher than the upper surface 201 is formed, the power terminals in the sheets (610, 510) (600,600) and the circuit board 500 is mounted to be connected to each other by the connection terminal (630,630), the water of the ceiling is connected to the power terminal (600,600) through the power contact terminal (110,110) of the base plate 100 Discharged to (630,630), differential thermal sensor, characterized in that to block the flow of water to the circuit board (500). The method of claim 1, wherein the base portion 410 is pressed between the contact portion 430 and the elastic inclined holding portion 420 of the movable terminal 400 is fixed to the base plate 200 by the terminal screw 10 By forming the forming unit 440, the differential thermal, characterized in that the contact portion 430 and the elastic inclination holding unit 420 can be maintained at the forming angle by the pressing mark forming unit 440 even in the external impact sensor.

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