KR20200019470A - Flame sensing device - Google Patents

Abstract

The present invention provides a flame detection apparatus, which comprises: a housing providing an upper surface coupled and installed on a wall surface of an installation place, and forming flame detection grooves on left and right sides on a lower surface; a sensor support inserted and disposed inside the housing, and providing a pair of sensor installation portions having an upper end connected to an upper surface inner side of the housing to be perpendicular to the wall surface of the installation place, and having a lower end symmetrically extended and formed in left/right directions toward the flame detection groove; and a flame detection sensor installed on an end of the sensor installation portion and detecting flame. The pair of sensor installation portions are disposed to be inclined at an angle of 45° in the left/right directions based on the top of the sensor support. In the flame detection apparatus, the flame detection sensor detects flame over a 190° angle range based on the wall surface of the installation place.

Description

Flame sensing device

The present invention relates to a flame detection device for receiving a predetermined amount of light emitted from the flame in the event of a fire alarm.

In general, fire fighting equipment is an important device that protects life and property from fire and is widely installed in various industrial facilities, public facilities as well as general households.

In the fire equipment, there is a fire alarm device that firstly detects the danger of fire by manually operating a switch by a fire detector, but it is a problem that initial suppression and response by hand are very late. Fire detectors such as heat detectors, smoke detectors, hybrid detectors and flame detectors are used to detect fire alarms and automatically notify fire alarms.

Here, the flame detector among the fire detectors operate by receiving a predetermined amount or more of the light emitted from the flame in case of fire, and detect all changes in the ultraviolet, infrared, and visible light of the flame.

Such a flame detector is attached to the ceiling or wall, and the front of the case has a structure having an infrared sensor, an ultraviolet sensor, a power indicator and a fire occurrence indicator.

However, the conventional flame detector only detects the flame, that is, the viewing angle of the maximum 90 ° ~ 100 ° range, when installed in the center of the ceiling only detects the flame that occurs on the floor, and on the pillars, walls, corners and ceiling There is a problem that a blind spot that does not detect the generated spark occurs, and for this purpose it is necessary to install several along the wall has the problem of increased installation and cost.

Such a technique related to a conventional flame detector is presented in Korean Patent Publication No. 10-0882236 (2009.02.09).

An object of the present invention is to provide a flame detection device having a simple structure and can detect the flame without blind spots.

The present invention, the upper surface is coupled to the wall of the installation place, the lower surface of the housing with a flame detection groove is formed on the left / right side, the arrangement is placed in the interior of the housing, the upper end of the upper surface of the housing to be perpendicular to the wall of the installation place A sensor support having a pair of sensor installation portions symmetrically extending in a left / right direction toward the flame detection groove, installed at an end of the sensor installation portion, and including a flame detection sensor detecting a flame; , The pair of sensor installation portion is inclined at an angle of 45 ° to the left / right direction relative to the top of the sensor support, the flame detection sensor based on the wall surface of the installation place to detect the flame for 190 ° angle range Provide a flame detector.

In addition, the upper end of the sensor support may be rotatably connected to the inside of the upper surface of the housing.

In addition, the sensor support may be arranged to contact a plurality in the front / rear direction inside the housing.

In addition, the lower surface of the housing may include a left inclined portion and a right inclined portion symmetrically disposed at an angle of 45 ° upwards with respect to the center portion, respectively, and a flame detection groove may be formed in the left inclined portion and the right inclined portion, respectively. have.

The flame detection device according to the present invention, the upper end of the housing is connected to the upper end of the sensor support, the flame is installed on the lower end of the sensor installation portion is inclined at an angle of 45 ° in the left / right direction relative to the upper end of the sensor support By providing a detection sensor, the flame detection range through the flame detection sensor is provided in an angle range of 190 ° to ensure a stable flame detection on the wall of the installation site.

1 is a perspective view of a flame detection device according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along the line II-II shown in FIG. 1.
3 is a perspective view of the sensor support shown in FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a flame detection apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line II-II shown in FIG. 1 and 2, the flame detection device of one embodiment includes a housing 100, a sensor support 200, and a flame detection sensor 300.

The housing 100 is a portion having a tubular structure having a space provided therein to protect the sensor support 200 and the flame detection sensor 300 to be described later. The upper surface 100a of the housing 100 is fixedly coupled to the wall surface of the installation place in close contact. Here, the outer end portion of the upper surface (100a) of the housing 100 is provided with a plurality of fastening brackets 101 formed with a fastening hole 102 to be coupled to the wall surface of the installation place through a fastening member such as a bolt. In addition, the upper surface 100a of the housing 100 may be rotatably installed on the wall surface of the installation place, in which case, it is possible to facilitate the installation according to the wall surface position of the installation place.

And, on the bottom surface (100b) of the housing 100 by the flame detection sensor 300 is installed on the lower end of the sensor support 200 to detect the flame generated outside the housing 100 (flame detection groove ( 110 is formed through. Here, the flame detection groove 110 is formed to be symmetrically disposed on the lower surface (100b) of the housing 100, respectively. The lower surface 100b of the housing 100 includes a left inclined portion 100c and a right inclined portion 100d that are symmetrically disposed at an angle of 45 ° to the left upper side and the right upper side, respectively, based on the center portion. It is possible to prevent the interference by the housing 100 during flame detection of the housing 100 by the flame detection sensor 300 below. In addition, the flame detection groove 110 is formed so as to increase in diameter toward the outer side from the inner side of the lower surface (100b) of the housing 100, after the flame detection for the housing 100 by the flame detection sensor 300 below It is possible to prevent interference by the housing 100. In this way, the left inclined portion 100c and the right inclined portion 100d of the housing 100 are positioned perpendicular to the sensor installation portion 210 of the sensor support 200 to be described later, so that the flame detection sensor 300 The signal of the flame detection sensor has an optimum field of view through the flame detection groove 110 to provide the maximum detection range. Here, the horizontal plate portion 100e is provided between the center of the lower surface 100b of the housing 100, that is, between the left inclined portion 100c and the right inclined portion 100d so as to be parallel to the wall surface of the installation place. When detecting the flame toward the lower side of the housing 100 by), while keeping the sensing range of the flame sensor 300 overlaps while preventing interference from the center of the lower surface 100b of the housing 100, stable flame detection Make it possible.

In addition, the housing 100 may be provided with a protective window 120 to allow a signal for detecting a flame by the flame detection sensor 300 to pass in a state in which the outer portion of the flame detection groove 110 is blocked. have. Here, the protective window 120 is composed of a transparent flat plate, wherein the protective window 120 is preferably one using sapphire of high explosion-proof and high transmittance, of course, but is not limited thereto. Further, a wide angle lens may be further provided between the protective window 120 and the flame detection sensor 300 to broaden the sensing range by the flame detection sensor 300.

In addition, both side surfaces (100f) of the housing 100 may be provided with coupling the cable connector 130 is hollow. Such a cable connector 130 allows the flame sensor 300 to be described later to be connected to an external cable (not shown). Here, the cable connected to the flame detection sensor 300 through the cable connector 130 is supplied to the power supply flame sensor 300 and the signal detected by the flame sensor 300 to an external control unit (not shown). It serves to convey. At this time, the cable connector 130 is rotatably installed on both sides (100f) of the housing 100, the friction with the housing 100 according to the installation position in the state in which the cable is connected to the flame sensor 300 Minimizing damage can be minimized.

The sensor support 200 is a part supporting the flame detection sensor 300 to be positioned in the direction of the flame detection groove 110 in the housing 100. Such, the sensor support 200 is inserted into the housing 100, the upper end is installed to be connected to the inside of the upper surface (100a) of the housing (100). That is, the upper end of the sensor support 200 is installed to be connected to the inside of the upper surface (100a) of the housing 100 to be disposed perpendicular to the wall surface of the installation place. Then, the lower end of the sensor support 200 is provided with a pair of sensor installation unit 210 extending downward to support the flame detection sensor 300 is disposed adjacent to each other in the direction of the flame detection groove (110). Here, the pair of sensor installation unit 210 is formed to be symmetrically extended in the left / right direction toward the flame detection groove 110 toward the lower end of the sensor support 200, more specifically the upper end of the sensor support 200 It is arranged to be inclined downward at a 45 ° angle with respect to the left and right directions. As such, when the pair of sensor installation parts 210 are inclined downward at an angle of 45 ° in the left / right direction, a pair of flame detection sensors 300 installed at the lower end of the sensor installation part 210 are detected. The range of the flame to have a range of 190 ° angle, to enable a stable detection of the flame occurring inside the installation place on the basis of the wall surface of the installation place where the housing 100 is installed. Here, when the pair of sensor installation unit 210 is disposed at an inclination angle smaller than the 45 ° angle in the left / right direction with respect to the upper end of the sensor support 200, in the left / right direction relative to the housing 100 The flame detection range is reduced. And, when the pair of sensor installation unit 210 is disposed at an inclination angle greater than 45 ° angle in the left / right direction relative to the upper end of the sensor support 200, flame detection for the downward relative to the housing 100 The range will be reduced.

The upper end of the sensor support 200 may be rotatably connected to the front / rear / left / right direction inside the upper surface 100a of the housing 100. That is, the upper end of the sensor support 200 may be connected to the lower end of the substrate connection unit 103 rotatably connected to the inside of the upper surface 100a of the housing 100. Here, the PCB connection unit 103 may be equipped with a PCB substrate connected to the flame detection sensor 300 to process a signal detected by the flame detection sensor 300.

In addition, a rotation driving unit (not shown) for generating a driving force to rotate the sensor support 200 may be provided to be connected to the substrate connection unit 103. Here, the rotation driving unit is installed to be connected to the substrate connecting portion 103 in a state of being inserted into the interior of the housing 100. As such, when the sensor support 200 is rotatably connected to the housing 100, the flame detection position by the flame detection sensor 300 can be easily changed. When the sensor support 200 is rotatably connected inside the upper surface 100a of the housing 100, the lower surface 100b of the housing 100 is also rotatably connected to the upper surface 100a of the housing 100. In addition, the position of the housing 100 may also be changed according to a change in position according to the rotation of the sensor support 200, and the flame detection of the flame detection sensor 300 through the flame detection groove 110 may be made stable. To be. In this case, the lower surface 100b of the housing 100 may be formed in a circular shape so as to be rotatably connected to the upper surface of the housing 100, but is not limited thereto.

As illustrated in FIG. 3, the sensor support 200 may be disposed to contact a plurality of sensors in the front / rear direction inside the housing 100. Thus, when the flame support sensor 300 is installed on each sensor support 200 in a state in which a plurality of sensor support 200 is disposed in the front / rear direction, the range in the front / rear direction that can detect the flame Can be extended. And, when the sensor support 200 is arranged in a plurality of front / rear direction, each of the sensor support 200 can be arranged to be in contact with each other in a detachable state.

In addition, the sensor support 200 may be connected to the inside of the housing 100 to be slidably moved in the front and rear directions. As such, while the upper end of the sensor support 200 is slidably moved in the forward / backward direction inside the upper surface 100a of the housing 100, the front / rear direction is installed in the state where the housing 100 is installed on the wall of the installation place. By changing the position of the sensor support 200 to the flame detection position by the flame sensor 300 can be changed.

The flame detection sensor 300 is installed at the end of the sensor support 200, the sensor to detect the flame inside the installation place on the basis of the wall surface of the installation place. That is, the flame detection sensor 300 is connected to the lower end of each sensor installation portion 210 of the sensor support 200, the outside of the housing 100 through the flame detection groove 110 of the housing 100 It detects the sparks that occur. The flame detection sensor 300 preferably detects infrared rays and ultraviolet rays emitted from the flame, but of course, the flame detection sensor 300 may also detect heat or smoke.

As such, the flame detection apparatus according to the embodiment is connected to the upper end of the sensor support 200 inside the upper surface (100a) of the housing 100, the left / right direction relative to the upper end of the sensor support 200 By providing a flame detection sensor 300 at the lower end of the sensor installation portion 210 is inclined at an angle of 45 °, the flame detection range through the flame detection sensor 300 is provided in an 190 ° angle range installation place Make sure that the flame detection is stable on the wall.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: housing 100a: upper surface
100b: bottom 110: flame detection groove
200: sensor support 210: sensor installation
300: flame detection sensor

Claims (4)

A housing having an upper surface coupled to the wall surface of the installation place, the lower surface housing having a flame detection groove formed on the left and right sides;
Inserted into the interior of the housing, the upper end is connected to the inside of the upper surface of the housing so as to be perpendicular to the wall surface of the installation place, the lower end having a pair of sensor installation formed symmetrically extending in the left / right direction toward the flame detection groove Sensor support; And
And a flame detection sensor installed at the end of the sensor installation unit and detecting a flame.
A pair of the sensor installation portion is inclined at an angle of 45 ° to the left / right direction relative to the top of the sensor support, the flame detection sensor based on the wall surface of the installation place the flame to detect the flame for 190 ° angle range Sensing device. The method according to claim 1,
The upper end of the sensor support is flame detection device rotatably connected to the inside of the upper surface of the housing. The method according to claim 1,
The sensor support is disposed flame contact device arranged to contact a plurality in the front / rear direction inside the housing. The method according to claim 1,
The lower surface of the housing includes a left inclined portion and a right inclined portion symmetrically disposed at an angle of 45 ° upwards with respect to the center portion,
Flame detection device formed with a flame detection groove, respectively, the left and right slopes.

Images