JPH0539936A - Ventilator for constant temperature and humidity chamber - Google Patents

Abstract

PURPOSE:To prevent generation of mould and a stink in a constant temperature and humidity chamber by ventilating the inside of the tank while the chamber is out of operation. CONSTITUTION:An air discharging port 6 and an air suction port 7 are opened in a ceiling wall 5 of a constant and humidity chamber. Under the air discharging port 6 and the air suction port 7, a damper 9 and another damper 15 are arranged respectively which open and close at a prescribed angle slantwise and downward toward an inside wall of the chamber 2. Above the air discharging port 6 and/or the air suction port 7, an air discharging fan 8 and/or an air suction fan is provided. If, while the constant temperature and humidity chamber is out of operation, the dampers 9 and 15 are opened and the fan is driven, water adhering the inside of the chamber 2 can be dried by airstream.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a constant temperature and constant humidity tank for conducting an environmental test on electric and electronic parts and the like placed in the tank with a constant temperature and humidity in the tank, and particularly, It relates to a tank ventilation device.

[0002]

2. Description of the Related Art A constant temperature and constant humidity tank is provided with a humidifier, a cooler, a heater and the like at the back of the tank so that the inside of the tank can be kept at a constant temperature and humidity.

Of these, it is particularly important to maintain the humidity. For example, in the constant temperature and constant humidity chamber described in Japanese Utility Model Laid-Open No. 1-152242, a dehumidifier is provided outside the chamber, and the dehumidifier removes the gas in the gas surrounding the chamber The temperature inside the tank is maintained until the water is captured and taken in.

However, since the humidification is continued during the test in this way, even if the test operation is stopped, the moisture remains in the tank, which causes mold and an offensive odor in the tank of the constant temperature and constant humidity tank. There was a problem that it occurred.

[0005]

Therefore, in some cases, the test operation of the constant temperature and constant humidity chamber is stopped and the opening / closing door on the front of the chamber is immediately opened to dry the inside of the chamber. By such means, it was impossible to dry for a short time, and it was not possible to completely prevent the generation of mold and offensive odor.

In view of the above situation, the present invention proposes a ventilation device for forcibly ventilating the inside of a constant temperature and constant humidity tank that is stopped.
Thus, it is an object of the present invention to provide the comfortable test environment of the constant temperature and humidity chamber while preventing the above-mentioned mold and offensive odor.

[0007]

That is, the feature of the present invention which meets the above-mentioned object is that an exhaust port and an intake port are opened in the ceiling wall of a constant temperature and humidity chamber, and the lower part of each of the exhaust port and the intake port is respectively. A damper that opens and closes at a predetermined angle is provided obliquely downward toward the inner wall of the tank, and an exhaust fan or an intake fan is provided above the exhaust port and / or the intake port.

[0008]

In the above structure, the two dampers are opened when the operation of the constant temperature and humidity chamber is stopped. This naturally opens the intake port and the exhaust port, but at this time, if an exhaust fan is provided at the exhaust port and this exhaust fan is driven, the airflow will flow into the tank from the intake port and the exhaust gas will be exhausted. It will be discharged from the mouth.

By the way, since the damper is opened obliquely downward toward the inner wall of the tank, this air flow goes toward the inner wall of the tank on the inlet side along the inclination of the damper when entering the intake port. It flows from the side wall to the bottom of the tank, then rises on the opposite side wall of the tank, and goes out from the exhaust port along the inclination of the other damper. Therefore, the wall surface in the tank is dried in an extremely short time by the air flow, and the cause of mold and offensive odor is eliminated.

[0010]

EXAMPLE An example of the present invention will be described below with reference to the drawings. In FIG. 1, (1) shows an opening / closing door of a constant temperature and humidity chamber, and a sample to be tested is the opening / closing door (1 )
It is placed in the tank (2) following the opening / closing door (1) via the.

The electric chamber (3) partitioned by a heat insulating wall is adjacent to the tank (2), and the control device of the ventilation device of the present invention is housed therein. In the lower part of the tank (2), a machine room (4) for operating the constant temperature and constant humidity tank is also partitioned by a heat insulating wall.

By the way, on the ceiling wall (5) of the tank (2),
An exhaust port (6) and an intake port (7) are opened at a required interval, and an exhaust fan (8) is installed in the exhaust port (6).
Is installed.

The detailed state is shown in cross section in FIG. In the figure, an exhaust port (6) and an intake port (7) are provided by opening a ceiling wall (5) of a predetermined thickness inside the tank (2), and the exhaust fan (8) is connected to the exhaust port (5). Located at the top of 6). An exhaust side damper (9) is provided below the exhaust port (6) so as to cover the opening. The exhaust side damper (9) has a surface covered with a heat insulating material, and is rotatable below the tank (2) with the side wall side of the tank (2) as an opening side and the opposite side as a rotation center. And
By this rotation, the exhaust port (6) is opened and closed.

At this time, it is preferable to open / close the damper (9) by a gad motor (M ₁ ). As shown in the figure, the exhaust port (6) inside the tank (2) and the ceiling wall (5) is connected to the exhaust port (6). A gad motor (M ₁ ) is hung down from the ceiling wall (5) and fixed to a position very close to the exhaust port (6) between the intake port (7) and the rotary shaft of this gad motor (M ₁ ). One end of the damper (9) is attached. Since the gad motor (M ₁ ) rotates in both forward and reverse directions at, for example, about 3 rpm, the damper (9) slowly rotates about the rotary shaft mounting portion. The rotation angle of the damper (9) is limited, and is 30 ° to 45 ° even when the damper (9) is fully opened with respect to the exhaust port (6).

Therefore, a limit dog (10) is provided at the end of the damper (9) on the side of the center of rotation, and is installed inside the ceiling wall (5) when the damper (9) is opened to the maximum angle. The open detection limit switch (11) is engaged to stop the rotation of the gad motor (M ₁ ). At this time, at the same time, a start signal for the exhaust fan (8) is issued from the control device as described later.

The open detection limit switch (11)
The closing detection limit switch (12) is provided so as to project from the lower end of the exhaust port (6) so as to contact the upper surface of the damper (9) when the damper (9) is closed. It is in charge of stopping the rotation of the gad motor (M ₁ ). In addition to this, packings (13) and (14) are provided on the upper surface of the damper (9) so as to come into contact with the tank (2) ceiling wall (5) when the damper (9) is opened and closed to reduce the impact. To contribute to.

On the other hand, a similar intake-side damper (15) is attached to the intake port (7) side symmetrically with respect to the exhaust port (6) side described above, and is attached to the lower part of the intake port (7). Open detection limit switch, Close detection limit switch (not shown)
Are installed in the same way. In this case, the exhaust side damper (9) and the intake side damper (14) are both side portions (16), (16) and both side portions (16), (1).
6) and the bellows (17) (the exhaust port (7)) which can expand and contract between the exhaust port (6) and the lower side edge of the intake port (7) respectively.
The sides (not shown) are connected so that the dampers (9) and (14) are actually opened only on the inner wall side of the tank (2).

The above is the configuration of the ventilating apparatus of the present invention. Next, regarding the operation of this ventilating apparatus, after the test operation of the constant temperature and humidity chamber is completed, the well-known open / close door (1) is closed. The control device automatically starts the operation.

The operation procedure is as shown in the flow chart of FIG. 3. First, when the control device confirms that the test operation in the constant temperature and constant humidity chamber is stopped and all the machines such as the humidifier are stopped (a), The gad motors (M ₁ ) and (M ₂ ) start rotating (b). Then, both dampers (9) and (15) are opened to a predetermined angle, the limit dog (10) of the exhaust side damper (9) contacts the open detection limit switch (11), and the switch (11) is turned on. Then, (C), the geared motors (M ₁ ) and (M ₂ ) stop, and the exhaust fan (8) rotates (D). This state continues while the test operation is stopped (e) until an operation command is externally issued to the machine (e). When an operation command is issued (G), the exhaust fan (8) first stops (G) along with the operation of the machine (H), and then the gad motors (M ₁ ) and (M ₂ ) move in the opposite direction. When the dampers (9) and (15) are closed by rotating to the full closed state, the closing detection limit switch (12) operates (L) and finally the gad motors (M ₁ ) and (M ₂ ) Stops. After that, while the machine is operating in the constant temperature and humidity chamber, the gad motors (M ₁ ) and (M ₂ ) and the exhaust fan (8) maintain this stopped state, and the constant temperature and constant humidity chamber performs the normal test operation. I do.

By the way, in the above explanation of the operation, the ventilation device contributes to the ventilation in the tank (2) because the two dampers (9) and (15) open at a predetermined angle. While is spinning. At this time, the exhaust side damper (9) and the intake side damper (15) are both in the tank (2).
It is opened at 30 ° to 45 ° toward the inner wall side, and moreover, both side parts (16), (1) of both dampers (9), (15).
6) is a bellows (1) with respect to the exhaust port (6) or the intake port (7)
7) and (17) are connected, the air flow generated by driving the exhaust fan (8) enters from the intake port (7).
After being blown onto the inner wall of the tank (2) along the inclination of the intake-side damper (15) and flowing down the side wall, the inner wall of the other tank (2) rises through the inner bottom of the tank (2). Finally, the flow goes out from the exhaust port (6) according to the inclination of the exhaust side damper (9). As a result, all the water adhering to the side wall in the tank (2) is dried by the air flow.

The embodiments of the present invention have been described above with reference to the drawings, but the dampers (9), and
The bellows (17) connecting between both side portions (16) and (16) of (15) and the side edges of the exhaust port (6) and the intake port (7) constitutes the present invention. It is not always necessary, for example, each damper (9), (15)
If the opening angle of 10 ° to 15 ° is smaller than the above 30 ° to 45 °, the air flow entering from the intake port (7) without the bellows (17) is the inner wall of the tank (2). Almost all of them are sprayed on, and it is possible to obtain substantially the same operational effects as those described above.

Further, in the above embodiment, the exhaust fan (8) is provided for the exhaust port (6), but even if the intake fan is installed for the intake port (7),
Further, an exhaust fan (8) and an intake fan may be provided at the exhaust port (6) and the intake port (7), respectively.

[0023]

As described above, according to the present invention, the exhaust port and the intake port are opened in the ceiling wall of the constant temperature and constant humidity chamber, and the lower portions of the exhaust port and the intake port respectively face the inner wall side of the chamber. Since a damper that opens and closes at a predetermined angle is provided diagonally downward, and an exhaust fan or an intake fan is provided above the exhaust port or / and the intake port to constitute a ventilation device for a constant temperature and humidity chamber, If the ventilator is operated while the test operation is stopped in the constant temperature and constant humidity tank, the airflow will flow along the inner wall of the tank, and all the water adhering to the inside of the tank during the test operation can be dried. Therefore, mold or offensive odor does not occur in the tank, and the test can always be performed on the sample in a clean state.

[Brief description of drawings]

FIG. 1 is a perspective view of a constant temperature and constant humidity chamber equipped with a ventilation device for the constant temperature and constant humidity chamber of the present invention.

FIG. 2 is an explanatory view of a main part of a ventilation device for a constant temperature and constant humidity tank of the present invention.

FIG. 3 is a flowchart showing an operation flow of the ventilation device for the constant temperature and humidity chamber of the present invention.

[Explanation of symbols] (5) Ceiling wall (6) Exhaust port (7) Intake port (8) Exhaust fan (9) Exhaust side damper (15) Intake side damper

Claims (1)

[Claims] 1. An exhaust port (6) and an intake port (7) are provided in a ceiling wall (5) of a constant temperature and humidity chamber, and these exhaust ports (6)
And a damper (9) that opens and closes at a predetermined angle obliquely downward toward the inner wall of the tank (2) at each lower part of the intake port (7),
(15) is provided, and an exhaust fan (8) or an intake fan is provided above the exhaust port (6) and / or the intake port (7). ..