JPH06290367A - Air tube heat sensor - Google Patents

Abstract

PURPOSE:To easily and sufficiently open only a test operation chamber at the time of test by covering a diaphragm chamber with a fixed cover and covering the test operation chamber with a mobile cover. CONSTITUTION:A diaphragm 2, a contact 5, and a diaphragm connection part 6 are stored in a diaphragm chamber 10, and this chamber 10 is covered with a fixed cover 11 fixed to' a base body 1 by a fixing screw or hook. A cock stand 3 and a terminal stand 4 are stored in a test operation chamber 30, and this chamber 30 is covered with a freely openably and closably mobile cover 31. When a hook 29 is disengaged and the mobile cover 31 is turned in the direction of an arrow A31 at the time of test, the mobile cover 31 is moved from the position shown by a short and long dash alternating line to the position shown by a solid line, and a stopper 34 is brought into contact with the fixed cover 11 to keep a prescribed degree of opening. Thus, the test operation chamber is opened to its full width, and the cock stand 3, the terminal stand 4, and the hole 25 are exposed. At this time, the diaphragm chamber 10 is covered with the fixed cover 11 and is kept close.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air tube type heat detector for detecting a fire by expanding air in an air tube encircled in a fire warning area by heat.

[0002]

2. Description of the Related Art In an air pipe type heat detector, an accurate fire detection cannot be performed due to clogging, leakage, etc. of the air pipe, and therefore, regular inspection is performed. This test is
This is done by operating the switching lever of the cock stand.

After the test, it is devised so that the switching lever of the cock stand always returns to its original position. That is, in the exposed type, if the lever is not returned, the lever is caught so that the cover covering the surface of the base does not close.

Unlike the exposed type, the embedded type does not have the cover. For this reason, a detachable holder that hangs on the cock stand and the base of the switching lever is provided, but a string is attached to the holder to prevent loss. The tester confirms the return of the cockstand switching lever by removing this holder during the test and attaching it to the original position after the test is completed.

However, in the case of the embedded type, since the panel can be closed regardless of the state of the switching lever, if the door on the panel is closed by mistake, for example, several weeks to the subsequent test. It will be left for several months. However, if the switching lever is not in the fixed position, the function of the detector is lost, which is a fatal defect as a fire detector.

Therefore, it is conceivable to store the exposed type sensor in the panel as it is. However, in this exposed type, since the entire surface of the base is covered with one protective cover,
When the cover is opened during the test, the diaphragm, the cock stand and the terminal stand in the cover are all exposed.

However, it is not necessary to expose this diaphragm, and if it is exposed, the diaphragm may become dirty due to the influence of dust and the like. Also,
If touched by mistake, the diaphragm will be deformed and sensitivity will be lost. Therefore, an inner cover for covering only the diaphragm is further provided inside the protective cover.

[0008]

The exposed type heat sensor is
At the time of the test, the test is conducted by opening about 100 degrees around the axis at the upper edge of the substrate. However, with this cover,
If there is an object, for example, a protrusion, in the immediate vicinity of the upper portion of the sensor, it will be an obstacle and the sensor cannot be fully opened. Therefore, the cover must be removed, but if you do this,
A storage place for the cover is required, and attachment / detachment work is required.

Further, in the conventional example, since the inner cover must be provided in addition to the protective cover, the number of parts is increased and the assembling process is also increased accordingly.

In view of the above circumstances, it is an object of the present invention to easily and sufficiently open only the test operation room during a test.

[0011]

DISCLOSURE OF THE INVENTION The present invention relates to an air tube type heat sensor having a diaphragm housed in a diaphragm chamber and a cock stand and a terminal stand housed in a test operation chamber.
The air tube type heat sensor is characterized in that the flam chamber is covered with a fixed cover and the test operation chamber is covered with a movable cover.

[0012]

[Function] During the test, if the movable cover is moved to fully open the test operation room, the cock stand and terminal stand are completely exposed. At this time, the flam chamber is kept closed by the fixed cover.

[0013]

Embodiments of the present invention will be described with reference to FIGS. A diaphragm 2, a cock stand 3, and a terminal stand 4 are erected on the surface 1a of the base 1. A contact point 5 is provided on the upper portion of the diaphragm 2 and a diaphragm connecting portion 6 is provided on the lower portion thereof. The diaphragm 3, the contact points 5, and the diaphragm connecting portion 6 are housed in a diaphragm chamber 10, which is covered by a fixed cover 11 fixed to the base 1 with fixing screws or fixing hooks.

At the upper part of the cock stand 3, an air pipe 15 is provided.
A pipe connection portion 16 and a test supply / discharge port 19 are provided, and a switching lever 18 is provided on the side surface thereof.

The terminal stand 4 is on the side of the cock stand 3.
It is provided along the surface 3S, and both 3 and 4 are arranged in the longitudinal direction.
At right angles to each other. Terminal stand 4 is a required end
A child, that is, a common wire terminal C and a line wire terminal L,
Terminal, that is, terminal X for moving contact₁ , X₂ , Telephone terminal
It has T, etc. These terminals C, L, X₁ , X
₂ , T are connected to the printed circuit board PC.

Essential terminals C, L and optional terminals X ₁ , X ₂ , T
A confirmation light 20 is provided between and. This confirmation light 2
Although 0 has an original function of confirming the operation of the fire detector, in the present embodiment, the common line terminal C and the line line terminal L are used.
It also has a function to let you know the position of and.

The cock stand 3 is a left side portion 1 of the base body 1.
The front surface 3a is disposed on the right side 1c of the base 1 through the inlet 25. Service entrance 25
Is for inserting the air tube 15 and the electric wire D, and is formed in a rectangular shape along the longitudinal direction of the terminal stand 4, and the length of the long side thereof is L.

The cock stand 3 and the terminal stand 4 are housed in the test operation room 30.
Is covered by a movable cover 31 that can be opened and closed. The movable cover 31 is fixed to the upper portion of the fixed cover 11 via an arm 32 by a shaft 33. The cover 31 is provided with a stopper 34 that comes into contact with the fixed cover 11 and a hook 29 that engages with the hook fitting hole 23 of the base 11.

The cock stand 3 is connected to the diaphragm 2 via a relay pipe 40 such as a synthetic resin pipe or a metal pipe. Both ends 40a of the relay pipe 40 are bent at a design angle, for example, 90 degrees in advance, and at the time of connection, the cock stand connecting portion 3b and the diaphragm connecting portion 6 are fitted to the both end portions 40a, respectively. A filler 51 such as a synthetic resin is filled in a concave filler chamber 50 provided in 55 to seal the connecting portions 40a, 3b, 6 respectively.

At the side of the relay pipe 40, a protective plate 60 is erected from the back plate 55 so as to sandwich the relay pipe 40. The protective plate 60 is a protector, and by providing it, it is possible to prevent the relay pipe 40 from being crushed even when the relay pipe 40 is formed of a soft material such as vinyl.

The operation of this embodiment will be described. When the hook 29 is removed and the movable cover 31 is rotated in the direction of arrow A31 during the test, the movable cover 31 moves from the position indicated by the alternate long and short dash line to the position indicated by the solid line and the stopper 34 contacts the fixed cover 11 as shown in FIG. It comes into contact with the movable cover 31 and restricts further rotation of the movable cover 31. Therefore, the movable cover 31 maintains a predetermined opening. The base body 1 may be set upside down, and in that case, the stopper is the arm 32.
The convex portion may be provided on one side of the fixed cover 11 and the concave portion on which the convex portion engages.

When the movable cover 31 is fully opened, the front end portion 31a of the movable cover 31 is located rearward of the front end portion 11a of the fixed cover 11. Therefore, even if there is an obstacle on the front side of the front end portion 11a of the fixed cover 11, the opening and closing of the movable cover 31 is not affected at all. That is, the movable cover 31 is smoothly opened at the designed opening, the test operation chamber 30 is fully opened, and the cock stand 3, the terminal stand 4, and the lead-in port 25 are exposed. At this time, the flam chamber 10 is covered with the fixed cover 11 and remains closed.

Next, a predetermined test is conducted by operating the switching lever 18 or injecting air into the test supply / discharge port 19. When connecting the air pipe 15 to the pipe connecting portion 16 of the cock stand 3, the air pipe 15 must be bent, but since the inlet 25 extends to the right side 1C of the base body 1, the opening length L is The width is about ⅔ or more of the width of the substrate 1. Therefore, a sufficient space for drawing in the air tube 15 can be secured, so that when the air tube 15 is drawn in, the mounting work is facilitated and the air tube 15 is bent when the air tube 15 is bent as shown in FIG. It can be installed with a gentle curve that does not block it.

When the diaphragm 2 and the cock stand 3 are made to communicate with each other, the relay pipe 40 whose both ends 40a are bent 90 degrees in advance is used. And this relay pipe 40
After the diaphragm connecting portion 6 and the cock stand connecting portion 3b are fitted to both end portions 40a of the filler, the filler 51 is placed in the filler chamber 50.
Fill and seal. In this way, when the relay pipe 40 is used, it is not necessary to bend the connecting pipe mounted and fixed to the cock stand 3 many times during the assembly, and the connection can be completed easily and completely.

Since the confirmation light 20 is arranged between the essential terminals C and L and the optional terminals X ₁ , X ₂ and T, the confirmation light 2
Since it can be seen that there are terminals near 0, one side of the confirmation lamp 20 is the essential terminals C and L, and the other side is the arbitrary terminals X ₁ , X ₂ , and T, it is easy to connect both terminals. Can be distinguished. Further, since the confirmation light 20 terminal C and the terminal L are sequentially arranged, the confirmation light 2 is provided even in the dark.
If the position of 0 is known, the terminal C can be found immediately. Therefore, the terminal C and the terminal L can be distinguished and recognized.

The embodiment of the present invention is not limited to the above. For example, as the movable cover 31, one side may be axially fixed to be laterally opened or both sides may be opened in addition to the above embodiment. Also, a sliding method, that is, a method of sliding the movable cover 31 to open and close the test operation chamber 30, or
An attachment / detachment method, that is, a method of opening / closing the test operation chamber 30 by attaching / detaching the movable cover 31 to / from the base body 1 is also adopted.

[0027]

According to the present invention, the test operation chamber is provided with a movable cover, and the test operation chamber can be fully opened by simply opening the movable cover during a test. Therefore, compared to the cover of the conventional example,
Since the moving space of the cover is small, it can be used not only for the exposed type but also for the embedded type.

Further, since the fixed cover is provided in the flam chamber and the movable cover is provided in the test operation chamber, even if the movable cover is opened during the test, the flam chamber does not open at the same time. Therefore, there is no need to double-cover the flam chamber as in the conventional example.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of the present invention.

FIG. 2 is a sectional view taken along line II-II in FIG.

FIG. 3 is a bottom view showing an embodiment of the present invention.

FIG. 4 is a side view showing an embodiment of the present invention and is a view showing a cover.

FIG. 5 is a schematic side view showing a usage state of the air pipe.

[Explanation of symbols]

 1 Base 2 Diaphragm 3 Cock Stand 6 Diaphragm Connection 10 Flamm Chamber 11 Fixed Cover 15 Air Pipe 25 Inlet 30 Test Operation Room 31 Movable Cover 40 Relay Pipe

Claims (2)

[Claims] 1. In an air tube type heat sensor in which a diaphragm is housed in a flam chamber and a cock stand and a terminal stand are housed in a test operation chamber, the flam chamber is covered with a fixed cover, and the test operation chamber is covered with a movable cover. Air tube type heat sensor characterized by being covered. 2. The air tube heat sensor according to claim 1, wherein the movable cover is pivotally supported on the upper portion of the fixed cover via an arm.