JP2684136B2 - Sampling tube smoke detector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention uses a sampling tube arranged in a monitoring space such as a workpiece to suck air in the monitoring space with a main suction device, and draws one of the air sucked with the main suction device. The present invention relates to a sampling pipe type smoke sensing device that detects a fire by guiding a part to a smoke sensor with a small capacity suction device.

[0002]

2. Description of the Related Art As shown in FIG. 6, a sampling tube type smoke sensing device of this type has a small hole 10 in a space 101 to be monitored.
A sampling pipe 105 such as a pipe or a tube provided with 3 is arranged, and the air in the monitoring space 101 is sucked by the suction device 107 through the sampling pipe 105, whereby the smoke sensor 11 provided in the collecting cylinder 111.
3 has been proposed as a device for detecting a fire by inputting a detection signal from the smoke sensor 113 to the monitoring circuit 109 (JP-A-62-203300, JP-A-62-20).
3299). According to such a sampling tube type smoke sensing device, smoke can be detected quickly.

[0003]

However, according to the above-described sampling tube type smoke sensing device, for example, in the case of a particle counting type smoke sensor, several hundred [C] per minute.
Air is sampled at a fixed amount of about C to 1000 [CC], and the sampling amount is limited due to the characteristics of the smoke sensor. Therefore, in the case of the above-described sampling pipe type smoke sensing device, since the amount of air sampled is small, there is a drawback that the detection by the smoke sensor is delayed if the sampling pipe is made long.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned drawbacks and to provide a sampling pipe type smoke detection device which can detect a fire quickly even if the sampling pipe is long and has a wide fire monitoring space.

[0005]

In order to achieve the above object, the sampling pipe type smoke sensing device according to the present invention sucks air containing smoke and the like in the monitoring space through the sampling pipe, and smoke provided in the collecting cylinder portion. In a sampling pipe type smoke detection device that was exposed to a sensor to detect a fire,
A main suction device that communicates one end of the sampling pipe with the suction side, sucks a large amount of air through the sampling pipe, a collecting cylinder that communicates with the suction side or the exhaust side of the main suction device through a suction pipe, and this collecting cylinder. A smoke sensor that is placed inside and can detect the presence of a certain amount of smoke,
A small-capacity suction device, which is arranged in the collecting cylinder and can suck a proper amount of air into the smoke sensor through the suction pipe, is provided.

[0006]

According to the above invention, the air in the monitoring space is sucked in a large amount per unit time by operating the main suction device from the sampling tube, and a part of this air is sucked in from the suction side or the exhaust side of the main suction device. It is sucked in with a small capacity suction device and given to the smoke sensor. Since the smoke sensor has an appropriate amount of air exposed to the smoke sensor due to its performance and the like, a small capacity suction device sucks the appropriate amount of air sucked from the monitoring space. Therefore, since there is a relationship of several hundred times between the appropriate amount of air velocity given to the smoke sensor and the air velocity sucked in by the main suction device, even if the sampling pipe is long, it can be detected quickly and the monitoring space can be widened. .

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the illustrated embodiments. 1 to 3 illustrate an embodiment of the present invention. FIG. 1 is a system diagram showing the overall configuration of a sampling tube type smoke sensing device according to the present invention. FIG. 2 is a suction characteristic diagram of the main suction device used in the embodiment of the present invention, in which the horizontal axis represents the suction amount [l / min] and the vertical axis represents the pressure [mmH ₂ O]. FIG. 3 is a suction characteristic diagram of the small-capacity suction device used in the embodiment of the present invention, in which the horizontal axis represents the suction amount [l / min] and the vertical axis represents the pressure [mmHg].

In FIG. 1, reference numeral 1 is a space to be monitored, and this monitoring space 1 is, for example, a clean room, a computer room, an office room, or the like. A sampling tube 5 is arranged in the monitoring space 1. This sampling tube 5
Is made of, for example, a pipe or a tube (hereinafter referred to as "pipe or the like"), and has a tip end portion of the pipe or the like closed and a plurality of small holes 3 provided along the longitudinal direction of the pipe or the like. The other end of the sampling tube 5 communicates with the main suction device 7.

The main suction device 7 is, as shown in FIG.
With no load (pressure 0 [mmH ₂ O]), the suction amount during rated operation is, for example, 550 [l / min], and the suction amount is 0 [l / min], for example.
Minute], the pressure is, for example, 20 [mmH ₂ O], and a fan having a suction characteristic connecting between them is used. The main suction device 7 is driven by a motor (not shown). This motor is connected to a monitoring circuit 9 that monitors the suction amount by monitoring the rotation speed of the motor. When the sampling tube 5 is connected to the main suction device 7,
Since the resistance of the sampling tube 5 is added, it is used at a suction amount around point a (for example, about 330 [l / min]). The point a changes depending on the length and shape of the sampling tube 5.

The suction side of the main suction device 7 is connected to the collecting cylinder 11 via a suction pipe S. Inside the collecting cylinder 11, a smoke sensor 13 and a small-capacity suction device 15 are arranged in the illustrated state. The output of the smoke sensor 13 is connected to the monitoring circuit 9. Small capacity suction device 15
As shown in FIG. 3, when the suction amount during rated operation is 1 [l / min] with no load (pressure is close to 0 [mmHg]), and the suction amount is 0 [l / min], for example, Then, the pressure becomes, for example, 300 [mmHg], and it is composed of a fan having a suction characteristic connecting between them. The small capacity suction device 15 is driven by a motor (not shown). This motor is connected to a monitoring circuit 9 that monitors the suction amount by monitoring the rotation speed of the motor. Then, the small capacity suction device 15
Has the suction amount adjusted to, for example, 1.0 [l / min].
Therefore, the relationship between the suction amount of the main suction device 7 and the suction amount of the small-capacity suction device 15 is 330: 1.

The operation of this embodiment will be described. The air in the monitoring space 1 is sucked through the small holes 3 of the sampling tube 5, reaches the main suction device 7, and is discharged from the exhaust port of the main suction device 7. As can be seen from FIG. 2, the amount of air sucked into the main suction device 7 is approximately point a (for example, about 330 [l / l in consideration of the resistance of the sampling tube 5).
Minutes]) before and after. A part of the air sucked by the main suction device 7 is sucked by the small capacity suction device 15.
The amount of air sucked into the small capacity suction device 15 is adjusted to about 1 [l / min] as shown at point b in FIG.

Here, when smoke is generated in the monitoring space 1,
This smoke is sucked together with air from the small hole 3 of the sampling tube 5 and discharged from the exhaust port of the main suction device 7. At this time, a part of the air sucked by the main suction device 7 is
It is sucked to the suction pipe S side by the small capacity suction device 15. The air sucked into the suction pipe S passes through the smoke sensor 13 and is discharged to the outside by the small capacity suction device 15. At this time, the smoke contained in the air is detected by the smoke sensor 13. When the amount of smoke exceeds a certain amount, the smoke sensor 13 detects it and sends a detection signal to the monitoring circuit 9. As a result, the monitoring circuit 9 issues an alarm.

As described above, according to the present embodiment, the air in the monitoring space 1 is supplied to the sampling tube 5 at, for example, about 330 [l].
/ Min] before and after being sucked. Therefore, assuming that the sampling pipe 5 and the suction pipe S have the same pipe diameter, the air velocity in the sampling pipe 5 is about 300 times the air velocity in the suction pipe S of the small capacity suction device 15.
Since the strength is doubled, even if the sampling tube 5 becomes long, it can be detected quickly.

In the above-mentioned embodiment, the suction pipe S communicating with the collecting cylinder 11 is communicated with the suction side of the main suction device 7, but may of course be connected with the exhaust side of the main suction device 7.

In the above embodiment, the monitoring space 1 is assumed to be a laminar flow (rectifying) region such as a clean room, and a wide space in the monitoring space 1 is provided in order to reliably sample smoke. The monitoring space 1 is monitored by arranging a sampling tube 5 having a plurality of small holes 3. However, if the smoke sample area is a turbulent flow area or an environment in which smoke easily diffuses, it is possible to provide one small hole 3 in the sampling tube 5 or to provide a sampling head for local monitoring.

4 and 5 show an example of the structure of the sampling tube in the above embodiment, FIG. 4 shows an example of a planar arrangement, and FIG. 5 shows an example of a linear arrangement. In FIG. 4, the sampling pipe 5 is a tournament pipe, and a plurality of small holes 3 are formed at regular intervals in the vertical direction of each pipe. A communication pipe 19 is extended from the center of the main pipe 17 of the sampling pipe 5, and each sampling pipe 5 is connected to the main suction device 7 through the main pipe 17 and the communication pipe 19.

In the present embodiment, the main suction device 7 is actuated to operate the sampling tube 5 as indicated by an arrow.
The air sucked from the small holes 3 of the main pipe 17 and the communication pipe 1
It is sucked into the main suction device 7 through 9. Part of this air is sucked into the small-capacity suction device 15 from a predetermined portion on the suction side of the main suction device 7 through the suction pipe S, and during that time, the smoke sensor 13 in the collecting cylinder 11 is brought into contact with the air. FIG. 5 shows an example in which the sampling tube 5 is linearly arranged, and a plurality of small holes 3 are provided in the sampling tube 5 at regular intervals, and the small holes 3 are linearly arranged in a constant portion of the monitoring space 1. Is.

As described above, in this embodiment, the sampling tube 5 is arranged at a predetermined position in the monitoring space 1, a large amount of air in the monitoring space 1 is sucked by the main suction device 7, and a part of the air is collected. The small-capacity suction device 15 in the cylinder 11 sucks it in, and the smoke sensor 13 in the collecting cylinder 11 is brought into contact with the sampling air at an optimum flow rate. Therefore,
According to this embodiment, even if the sampling tube 5 is long, it is possible to detect smoke earlier than in the conventional method, and the smoke sensor 13 can be installed at a place far from the monitoring space 1.

Further, in this embodiment, the sampling tube 5 is arranged as shown in FIGS. 4 and 5, and a large amount of air in the monitoring space 1 is sucked by the main suction device 7 to optimize a part of the air. Since it becomes possible to take in the smoke sensor 13 into the collecting cylinder 11 having a built-in flow rate, it is possible to set a wide space that can be monitored by one smoke sensor 13.

[0020]

As described above, according to the present invention, the sampling tube is arranged at a predetermined position in the monitoring space, a large amount of air in the monitoring space is sucked in by the main suction device, and a part of the air is sucked. The small-capacity suction device in the collecting cylinder sucks in the air, and the sampling air is brought into contact with the smoke sensor in the collecting cylinder at the optimum flow rate, so even if the sampling tube is long, smoke can be detected earlier than the conventional method, and The smoke sensor can be installed far from the surveillance space.

Further, in the present invention, the sampling pipes are arranged linearly or in a plane, and a large amount of air in the monitoring space is sucked in by the main suction device, and a part of the air can contact the smoke sensor at an optimum flow rate. Therefore, the space that can be monitored by one smoke sensor can be set wide.

[Brief description of the drawings]

FIG. 1 is a diagram showing an embodiment of a sampling tube type smoke sensing device according to the present invention.

FIG. 2 is a diagram showing suction characteristics of a main suction device used in the same embodiment.

FIG. 3 is a diagram showing suction characteristics of a small-capacity suction device used in the same embodiment.

FIG. 4 is a diagram showing an arrangement example of sampling tubes used in the same embodiment.

FIG. 5 is a view showing an arrangement example of sampling tubes used in the embodiment.

FIG. 6 is a diagram showing a conventional configuration.

[Explanation of Codes] 1 Monitoring space 3 Small hole 5 Sampling pipe 7 Main suction device 9 Monitoring circuit 11 Collecting cylinder 13 Smoke sensor 15 Small capacity suction device 17 Main pipe 19 Communication pipe S Suction pipe

Claims (1)

(57) [Claims] 1. A sampling pipe type smoke detection device for sucking air containing smoke and the like in a monitoring space through a sampling pipe and exposing it to a smoke sensor provided in a collecting cylinder to detect a fire. A main suction device that communicates one end to the suction side and sucks a large amount of air through the sampling pipe, a collecting cylinder that communicates with the suction side or the exhaust side of the main suction device through a suction pipe, and is arranged in this collecting cylinder. A smoke sensor capable of detecting the presence of a certain amount or more of smoke, and a small-capacity suction device arranged in the collecting cylinder and capable of sucking an appropriate amount of air to the smoke sensor via the suction pipe are provided. Sampling tube smoke detector.