KR200447689Y1 - Thermostat sensor - Google Patents

Abstract

The present invention is a constant temperature that is coupled to the mounting plate for mounting the circuit board and the like to the base plate is mounted on the ceiling, and also the bimetal holder, bimetal, protective cap, fixed terminal and the movable terminal and the heat absorbing plate is coupled to the component mounting plate. The fixed terminal and the movable terminal are fixed to the bimetal holder in the thermal sensor by fitting coupling, and the protective cap is fixed to the bimetal holder for the bimetal built-in by pressing molding, and the protective cap is pressed against the heat absorbing plate. By the coupling, the assembly is completed by inserting the fixed terminal and the movable terminal from the bimetal holder, and after the assembly is completed, do not escape in the opposite direction of the insertion direction of the terminal, and the protective cap protects the heat absorbing plate Press-molded in the cap coupling hole, the external heat is transferred to the heat absorbing plate and conduction of the heat absorbing plate It relates to a constant temperature heat detector that can be quickly and accurately delivered to the bimetal through the protective cap, the base plate 100 is fixed to the ceiling, and coupled to the base plate 100 and the circuit board 210 The component mounting plate 200 to be mounted, the bimetal holder 600 is mounted to the fixed terminal 400 and the movable terminal 500 connected to the circuit board 210 on the lower part of the component mounting plate 200 and A protective cap 800 for allowing the bimetal 700 to be embedded in the bimetal holder 600, and a constant temperature detector for coupling the protective cap 800 to the protective cap coupling hole 910 of the heat absorbing plate 900. In the bimetal holder 600, the fixing terminals 400 and the locking projections 430 and 530 formed on the movable terminal 500 are coupled to the terminal through-hole 610 of the bimetal holder 600 to be hooked and fixed to the bimetal holder 600. Protective caps to allow the bimetal 700 to be built-in 00 is press-molded at the outer circumference of the bimetal holder 600, and the protective cap coupling hole 910 of the heat absorbing plate 900 is pressed to the protective cap 800 and integrally molded. The movable terminal 500 is such that the locking step 530 is formed on the base portion 520, and the portion where the contact portion 510 is connected to the base portion 520 is connected to the cut elasticity maintaining portion 540. It is integrally molded, and the locking jaws 430 and 530 formed in the fixed terminal 400 and the movable terminal 500 of the present invention penetrate through the terminal through-holes 610 of the bimetal holder 600 so that the bimetal holder ( The circumferential surface of the protective cap 800 is press-molded in the forming groove 630 formed on the circumferential surface of the bimetal holder 600 of the present invention so as to be held at the bottom surface 620 of the 600. It is fixed, the heat absorbing plate 900 is integrally molded to the protective cap (800).

Fixed terminal, movable terminal, component mounting plate, base plate, bimetal, bimetal holder, heat absorbing plate, protective cap, terminal through hole

Description

Constant temperature heat sensor {Thermostat sensor}

The present invention relates to a constant temperature heat detector that can be installed on the ceiling of the building to emit a fire signal to the receiving panel by heat detection in the event of a fire, and more particularly, a component in which a circuit board is mounted on a base plate mounted on the ceiling. The fixed plate and the movable terminal are fitted to the bimetal holder in the thermostatic thermal sensor in which the mounting plate is coupled and the bimetal holder, bimetal, protective cap, fixed terminal, movable terminal, and heat absorbing plate are coupled to the component mounting plate. By fixing the coupling, the protective cap is fixed to the bimetal holder for the bimetal built-in by pressing molding, and the protective cap is coupled to the heat absorbing plate by pressing molding, thereby inserting the fixed terminal and the movable terminal from the bimetal holder Assembly is completed, and after assembly is completed, the opposite side of the insertion direction of the terminal In addition, the protective cap is press-molded in the protective cap coupling hole of the heat absorbing plate so that external heat is transferred to the heat absorbing plate, and the heat of conduction of the heat absorbing plate is quickly and accurately transmitted to the bimetal through the protective cap. It is about a constant temperature heat detector.

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 two types of thermal fire detectors: bimetal-static thermal detectors and diaphragm differential thermal detectors. The constant temperature heat sensor operates when the ambient temperature is above a certain temperature. The thermostatic heat detector is a sensor designed to operate when the external temperature is above a certain temperature. It is operated by the heat accumulation effect. Structure) to form a contact point.

As shown in FIG. 1, the constant temperature heat detector includes a base plate 100 fixed to the ceiling and a component mounting plate 200 coupled to the base plate 100. A circuit board 210 is installed on the component mounting plate 200, and a receiver is connected to the circuit board 210. In addition, a bimetal holder 600, a bimetal 700, a protective cap 800, a fixed terminal 400, a movable terminal 500, and a heat absorbing plate 900 are coupled to the bottom of the component mounting plate 200.

The bimetal holder 600, the bimetal 700, the protective cap 800, the fixed terminal 400, the fixing terminal 400, and the fixing hole in the bimetal holder 600 in the combination of the heat absorbing plate 900, and the like. After the terminal 400 and the movable terminal 500 are coupled, and the bimetal 700 is mounted on the bimetal sheet 640 of the bimetal holder 600, the bimetal 700 is covered with a protective cap 800. It can be coupled to, so that the protective cap 800 is coupled to the protective cap coupling hole 910 of the heat absorbing plate (900).

In particular, the fixed terminal 400 and the movable terminal 500 are charged from the bimetal holder 600 so that the epoxy resin 10 is filled and fixed, and the protective cap 800 is protected by the heat absorbing plate 900. The epoxy resin 10 is filled and fixed in the same manner as described above so as not to be separated from the cap coupling hole 910.

Since the protective cap 800 and the heat absorbing plate 900 are fixed and filled with the epoxy resin 10 as described above, the heat from the heat absorbing plate 900 is transferred from the heat absorbing plate 900 to the protective cap 800. As it is conducted through the resin 10 and transferred to the protective cap 800, and is transmitted to the bimetal 700, there is a problem in that the accurate temperature according to the indoor temperature cannot be transmitted to the receiver.

In addition, by holding the position of the fixed terminal 400 and the movable terminal 500 in the terminal through-hole (number omitted) of the bimetal holder 600, there is a problem that the workability is inferior due to the operation of filling the epoxy resin 10. Positioning the protective cap 800 in the protective cap coupling hole 910 of the heat absorbing plate 900, there is also a problem that the workability is inferior in filling the epoxy resin (10).

In addition, the conventional movable terminal 500 is formed of a base portion 520 and a contact portion 510, as shown in Figure 2ab, the base portion 520 is connected to the circuit board 210, and also the contact portion The 510 is coupled to the bimetal holder 600 to be in contact with the fixed terminal 400.

However, the base portion 520 and the contact portion 510 are integrally coupled to each other by spot welding. That is, the contact portion 510 with respect to the base portion 520 should be thinly spaced apart from the movable terminal 400, because the thickness is thin. The base portion 520 and the contact portion 510 may be formed to the same thickness, but if the thickness is thick, there is a problem that the elasticity of the contact portion 510 falls, and if the thickness is thin, the base portion 520 is bimetallic. There is a problem in assembling such that the holder 600 melts during soldering with the circuit board 210.

The present invention is to solve the above problems, the bimetal holder coupled to the component mounting plate of the constant temperature sensor, so that the locking jaw is formed on the fixed terminal and the movable terminal in the coupling of the fixed terminal and the movable terminal, the bimetal holder The coupling is completed by inserting into the terminal through-hole of the purpose, and once the fixed terminal and the movable terminal is coupled to the terminal through-hole is intended to prevent separation and separation by the locking jaw. In addition, the present invention allows the protection cap to allow the bimetal holder to be embedded in the bimetal holder is combined by compression molding, and the protection cap is protected by compression molding without filling a separate epoxy resin into the protective cap coupling hole of the heat absorbing plate. The quick coupling of the heat absorbing plate to the cap can improve the workability, and the purpose of the sensing temperature in the room is that the heat of conduction of the heat absorbing plate is directly transferred to the protective cap from the heat absorbing plate to be transmitted to the bimetal.

The present invention is a base plate attached to the ceiling and fixed, the component mounting plate coupled to the base plate and the circuit board is mounted, the bimetal is equipped with a fixed terminal and a movable terminal connected to the circuit board in the lower part of the component mounting plate A holder, a protective cap for embedding a bimetal in the bimetal holder, and a constant temperature detector for coupling the protective cap to a protective cap coupling hole of a heat absorbing plate, the fixed terminal and the movable terminal in the terminal through hole of the bimetal holder. Hanging jaws formed in the coupled to be fixed to be fixed, and the protective cap for forming the bi-metal in the bimetal holder is press-molded on the outer circumference of the bi-metal holder, the protective cap coupling hole of the heat absorbing plate is pressed to the protective cap It is a basic feature to be molded integrally.

In addition, the movable terminal of the present invention is formed so that the locking jaw is formed in the base portion, and the portion to which the contact portion is connected to the base portion is integrally molded to be connected to the notched elastic retaining portion.

In addition, the locking jaw formed in the fixed terminal and the movable terminal of the present invention penetrates through the terminal through-holes of the bimetal holder to maintain the locking on the bottom surface of the bimetal holder.

In addition, the circumferential surface of the protective cap is pressed and fixed to the molding groove formed on the circumferential surface of the bimetal holder of the present invention, and the heat absorbing plate is integrally molded to the protective cap.

As described above, the present invention is coupled to the mounting plate for mounting the circuit board and the like to the base plate mounted on the ceiling, and also the bimetal holder, bimetal, protective cap, fixed terminal and movable terminal and the heat absorbing plate, etc. to the component mounting plate The fixed terminal and the movable terminal are fixed to the bimetal holder in the thermostatic thermal sensor to be coupled by fitting coupling, and the protective cap is fixed to the bimetal holder for the bimetal embedded therein by compression molding, and the protective cap is the heat absorbing plate. The assembly is completed by inserting the fixed terminal and the movable terminal from the bimetal holder by press molding, and after the assembly is completed, it does not escape in the opposite direction of the insertion direction of the terminal, and also the protective cap It is press-molded in the protective cap coupling hole of the heat absorbing plate, and external heat is transferred to the heat absorbing plate. Have conducted heat of the heating plate can be quickly and accurately to the bimetal right through the protective cap.

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

1 is a longitudinal cross-sectional view of a conventional thermostatic thermal sensor, and Figures 2 a, b are a perspective view and a longitudinal cross-sectional view of a conventional movable terminal, Figure 3 is a planar separated perspective view of a constant temperature thermal sensor of the present invention, and also 4 is a bottom separated perspective view of a thermostatic thermal sensor of the present invention, and FIG. 5 is a plan perspective view of the bimetal holder of the present invention coupled to a heat absorbing plate, and FIG. 6 is a bimetal holder of the present invention coupled to a heat absorbing plate. 7 is a longitudinal cross-sectional view of the constant temperature heat sensor of the present invention, and FIGS. 8A and 8B are a perspective view and a longitudinal cross-sectional view of the movable terminal of the present invention.

3 and 4, the thermostatic thermal sensor of the present invention has a base plate 100 attached to and fixed to the ceiling, and a component mounting plate coupled to the base plate 100 and having a circuit board 210 mounted thereon. And a bimetal holder 600 mounted with a fixed terminal 400 and a movable terminal 500 connected to the circuit board 210 at a lower side of the component mounting plate 200, and the bimetal holder (200). The protective cap 800 for allowing the bimetal 700 to be embedded in the 600 and the protective cap 800 are coupled to the protective cap coupling hole 910 of the heat absorbing plate 900.

The base plate 100 is fixed to the ceiling by the fastening means. In addition, the base plate 100 has power contact terminals 110 connected to the power source.

In addition, the component mounting plate 200 is formed with a terminal sheet 310 and a substrate sheet 220 higher than the upper surface, the power terminal 300 is fixed to the terminal sheet 310 by a screw 320 In addition, the circuit board 210 is mounted on the substrate sheet 220, and the power supply terminals 300 are fixed to the terminal (330) by soldering the terminal (number) of the circuit board 210 by the connection terminal 330. By the connection is fixed.

As described above, since the power supply terminal 300 and the circuit board 210 are fixed to the seats installed higher than the upper surface of the component mounting plate 200, the power supply terminal even if water is introduced into the upper surface of the base plate 100. Problems such as causing earth to the 300 and the circuit board 210 can be prevented.

In addition, the present invention is fixed to the fixed terminal 400 and the movable terminal 500 is coupled to the terminal through-holes 610 formed on both bottom planes of the cylindrical cap-shaped bimetal holder 600.

The fixed terminal 400 has a contact portion 410 is formed on the tip as shown in Figs. 3 and 4 has a locking jaw 430 is cut-out formed on the base 420. In addition, the movable terminal 500 is bent in a substantially "a" shape, the contact portion 510 is formed on the tip, and the locking step 530 is cut off the base portion 520 is formed.

As shown in FIGS. 8A and 8B, the movable terminal 500 has a latching jaw 530 formed at the base portion 520, and a portion to which the contact portion 510 is connected to the base portion 520. It is integrally molded to be connected to the notched elastic holding part 540. That is, the elastic contact is maintained at the contact portion 510 by the notched elastic retaining portion 540 cut and formed into a rectangular hole at a right angle portion at which the base portion 520 and the contact portion 510 are connected. do.

The movable terminal 500 is integrally molded by forging, and the base part 520 is approximately 0.3 mm by the forging molding, and the contact part 510 is molded into 0.2 mm. This is to maintain the elasticity in the contact portion 510 as described above, and the base portion 520 to maintain the strength in the connection, such as soldering.

Accordingly, when the fixed terminal 400 and the movable terminal 500 are pushed into the terminal through holes 610 formed on both bottom planes of the bimetal holder 600 in FIGS. 3 and 4, the fixed terminal 400 and The locking jaws 430 and 530 of the movable terminals 500 are held on the bottom surface 620 of the bimetal holder 600, so that the fixed terminal 400 and the movable terminal 500 do not need a separate fixing member. Quickly and firmly coupled to the 600 directly.

In addition, the present invention, as shown in Figure 3, 4 and 8a, b, the contact terminal 512 is fitted into the hole 511 of the contact portion 510 of the movable terminal 500, and also The bimetal sheet 700 is mounted on the bimetal sheet 640 in the bimetal holder 600 to which the fixed terminal 400 and the movable terminal 500 are coupled. Then, the protective cap 800 is covered on the bimetal holder 600. While cutting, the outer circumference of the bimetal holder 600 is press-molded.

A molding groove 630 having a predetermined depth formed on the circumferential surface of the bimetal holder 600 is formed. As shown in FIG. 5, the protective cap 800 is press-molded on the circumferential surface of the bimetal holder 600, and the circumferential circumferential surface of the protective cap 800 is press-molded and fixed to the forming grooves 630. Therefore, the protective cap 800 is maintained from the bimetal holder 600 without being pulled out.

In addition, the protective cap 800 coupled to the bimetal holder 600 has the protective cap coupling hole 910 of the heat absorbing plate 900 to be compressed and integrally molded so that the bimetal holder 600 absorbs the heat absorbing plate 900. It is assembled as a single product of the fixed terminal 400 and the base portion 520 of the movable terminal 500 of the bimetal holder 600 is to be connected to the circuit board 210.

As described above, since the protective cap 800 of the bimetal holder 600 can be integrally molded directly without filling the epoxy resin with the heat absorbing plate 900, workability can be improved and the heat absorbing plate ( The conductive heat of 900 can be accurately transmitted to the bimetal 700 of the protective cap 800.

1 is a longitudinal cross-sectional view of a conventional constant temperature thermal sensor,

Figure 2 a, b is a perspective view and a longitudinal sectional view of a conventional movable terminal,

3 is a perspective view of the planar separation of the thermostatic thermal sensor of the present invention;

4 is a bottom separated perspective view of the thermostatic thermal sensor of the present invention;

5 is a plan perspective view of a bimetal holder of the present invention coupled to a heat absorbing plate;

6 is a bottom perspective view of the bimetal holder of the present invention coupled to a heat absorbing plate;

7 is a longitudinal sectional view of a thermostatic thermal sensor of the present invention,

Figure 8a, b is a perspective view and a longitudinal cross-sectional view of the movable terminal of the present invention.

Explanation of symbols on the main parts of the drawings

100: base plate 200: parts mounting plate

210: circuit board 220: substrate sheet

300: power supply terminal 310: terminal sheet

400: fixed terminal 410: contact portion

420: foundation 430: stiff jaw

500: movable terminal 510: contact part

520: foundation 530: locking jaw

540: notch elastic holding part 600: bimetal holder

610: terminal through hole 620: bottom surface

630: forming groove 640: bimetal sheet

700: bimetal 800: protective cap

900: heat absorbing plate 910: protective cap coupling hole

Claims (4)

A base plate 100 fixed to the ceiling, a component mounting plate 200 coupled to the base plate 100, and having a circuit board 210 mounted thereon, and the circuit board below the component mounting plate 200. The bimetal holder 600 is mounted to the fixed terminal 400 and the movable terminal 500 connected to the 210 and the protective cap 800 to be built in the bimetal holder 600, and the In the constant temperature detector that the protective cap 800 is coupled to the protective cap coupling hole 910 of the heat absorbing plate 900, The locking jaws 430 and 530 formed at the fixed terminal 400 and the movable terminal 500 are coupled to the terminal through-hole 610 of the bimetal holder 600 to be caught and fixed, and the bimetal holder 600 is fixed to the bimetal holder 600. The protective cap 800 to be built 700 is press-molded on the outer circumference of the bimetal holder 600 and at the same time the protective cap coupling hole 910 of the heat absorbing plate 900 is compressed to the protective cap 800, Thermostatic detector, characterized in that molded into. The method according to claim 1, The movable terminal 500 is such that the locking step 530 is formed on the base portion 520, the portion where the contact portion 510 is connected to the base portion 520 is notched elastic holding portion ( 540) The thermostatic sensor, characterized in that integrally molded to be connected. The bimetal holder 600 of claim 1 or 2, wherein the locking jaws 430 and 530 formed in the fixed terminal 400 and the movable terminal 500 pass through the terminal through holes 610 of the bimetal holder 600. Constant temperature detector, characterized in that the hook is maintained on the bottom surface (620). The method of claim 1, wherein the peripheral surface of the protective cap 800 is press-molded and fixed to the molding groove 630 formed on the peripheral surface of the bimetal holder 600, the heat absorbing plate 900 to the protective cap 800 ) Is integrally molded.

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