JPH0716140Y2 - Airtight device for pressure vessel door - Google Patents

Description

[Detailed description of the device] [Industrial applications]

The present invention relates to an airtight device for opening and closing a door of a pressure container, for example, a pressure container for sterilizing an object to be sterilized.

[Prior art]

As a typical conventional pressure vessel, for example, as shown in FIG. 2, a hinge receiver (2) fixed to the front side portion of the pressure vessel (1) and a hinge attached to the side edge of the door (3). (4) is pivotally attached by a shaft (5), and the door (3) can be opened and closed with respect to the opening (6) of the pressure vessel (1) about the shaft (5). The airtightness between the pressure vessel (1) and the door (3) is maintained by the following configuration. That is, as shown in FIG. 3, a groove (8) having a predetermined depth is formed so as to surround the opening (6) of the pressure vessel (1),
A packing (7) is fitted in the groove (8). The packing (7) comes into close contact with the rear surface (3a) of the door (3) when the opening (6) is closed by the door (3). More specifically, the thickness (T) of the packing (7)
And pressurized air higher than the pressure in the pressure vessel (1) is supplied from the pipe (9) to the space (10) in the groove (8) set by the depth of the groove (8). The compressed air strongly presses the packing (7) against the rear surface (3a) of the door (3). By the way, when the pressure vessel (1) is, for example, a sterilizing device for sterilizing an object to be sterilized, the pressure in the pressure vessel (1) changes with time as shown in FIG. Accompanied by. First, the pressure inside the pressure vessel (1) is set to a negative pressure, and then the operation of returning to atmospheric pressure is repeated to extract the air that has penetrated into the sterilized object. After that, pressure steam is fed into the pressure vessel (1), and the inside of the pressure vessel (1) is kept at a high temperature and high pressure for a predetermined time, and when the sterilization process is completed, the pressure vessel (1) is again returned. After the internal pressure is made negative, the operation of returning to atmospheric pressure is repeated, and the sterilized product is dried by the sterilizing steam. As described above, the pressure in the pressure vessel (1) changes continuously, but in the airtight device as shown in FIG. 3, when the pressure in the pressure vessel (1) is a positive pressure, Although there is no particular problem, the following problems occur when the pressure in the pressure vessel (1) becomes negative. That is, in the airtight device as shown in FIG. 3, even when the pressure in the pressure vessel (1) becomes negative, the airtightness of the opening (6) is maintained by the packing (7). Space (10) in the groove (8) to allow it to drip
Pressurized air is supplied to press the packing (7) against the rear surface (3a) of the inner door (3). Therefore, when the pressurized air in the space (10) is incomplete in maintaining the airtightness of the sliding surface between the groove side surface (8a) and the packing (7), as indicated by an arrow b in FIG. It penetrates into the pressure vessel (1) through the space between the sliding surfaces and raises the pressure in the pressure vessel (1). When the pressurized air enters the pressure vessel (1) in this way, for example, during the drying process, the pressure increases as indicated by the chain line X in FIG. 5, and a sufficient degree of vacuum cannot be obtained. As a result, the material to be sterilized is not sufficiently dried. In addition, since the entry of the pressurized air into the pressure vessel (1) often accompanies various bacteria, the sterilization effect is impaired. Further, in the vacuum process before the sterilization process, if the pressurized air invades as described above, the air that has penetrated into the object to be sterilized is insufficiently extracted, and the sterilization effect also decreases. Therefore, as an improved version of the airtight device shown in FIG.
The airtight device shown in the figure has been proposed. The improvement in the airtight device shown in FIG. 4 is that the pressure vessel (1) is located closer to the inner circumference (closer to the opening (6)) than the groove (8).
The second packing (11) is attached to either the front surface (1a) of the door or the rear surface (3a) of the door (3), and when the pressure in the pressure vessel (1) is reduced, the second packing (11) is attached. Pack the packing (11) with the front (1a) and the door (3) of the pressure vessel (1).
It is sandwiched between the rear surface (3a) and the compressed air from the sliding surface between the groove side surface (8a) and the packing (7) and the pressure container (1).
Stop intruding inside. In the airtight device shown in FIG. 4, in order to prevent the second packing (7) from being over-compressed and deteriorated at an early stage, the front surface (1a) of the pressure vessel (1) is prevented. A protrusion (12) having an appropriate height is formed at a predetermined position from the opening edge (6a). In the airtight device shown in FIG. 4, the problem of depressurizing the pressure vessel (1) in the airtight device shown in FIG. 3 can be solved. Compared with the above, the second packing (11) and its mounting work, and further the processing of the convex portion (12) for protecting the second packing (11) and the like are required, resulting in a large increase in cost.

[Problems to be solved by the device]

Therefore, the problem to be solved by the present invention is to provide an airtight device for a pressure container door, which can effectively keep airtightness between the opening and the door at low cost regardless of the pressure state in the pressure container. Is to provide.

[Means for Solving the Problems]

The present invention has been made to solve the above-mentioned problems, and a groove is provided around the opening of the pressure vessel, the packing is fitted into the groove, and the groove is closed when the opening is closed by a door. In the configuration in which the back side of the packing is pressed by the pressurized gas supplied into the packing to press the packing toward the door, and the airtightness between the pressure container and the door is maintained, The first feature is that the groove is fixed to the groove side surface located on the opening side of the groove in an airtight state by the side surface portion of the packing that faces the groove side surface, and further, it is located on the bottom side of the groove in the packing. The second aspect is an airtight device for a pressure vessel door, which has a second characteristic in that a cross-sectional shape along the width direction of the packing is substantially V-shaped.

[Action]

According to this invention, the packing (7) housed in the groove (8) faces the groove side surface (8a) on the groove side surface (8a) located on the opening (6) side of the groove (8). Since the side surface of the packing (7) is airtightly fixed, the packing (7) is acted upon by the action of pressurized air.
The non-fixed side of the door bulges out of the groove (8) and the door (3)
And the pressure container (1) are deformed so as to bite between them, and the airtightness between the door (3) and the pressure container (1) is maintained. or,
Even if the pressure container (1) is under negative pressure, the groove side surface (8a) and the packing (7) are completely airtightly fixed, so that pressurized air does not leak into the pressure container (1). . Furthermore, the side surface portion of the packing (7) located on the bottom side of the groove (8) has a substantially V-shaped cross section along the width direction of the packing (7), whereby the packing (7) is formed. It is easy to deform due to the action of the pressurized air, and surely comes into close contact with the rear surface of the door.

【Example】

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the drawings. In the following description, the pressure vessel to which the present invention is applied will be described as a sterilizer. Further, the drawings show portions corresponding to the airtight device shown in FIGS. 3 and 4, and FIG. 1 is an enlarged view showing an embodiment of the airtight device for the pressure vessel door according to the present invention. FIG. 1 is a partial cross-sectional view showing the pressure vessel (1) shown in FIG.
It is equivalent to an enlarged partial sectional view of a portion A of FIG. As described above, a groove (8) having a predetermined depth is formed around the opening (6) of the pressure vessel (1) so as to surround the opening (6). In (), the packing (7) is fitted in contact with the bottom surface of the groove (8). Then, with respect to the groove side surface (8a) located on the opening (6) side of the groove (8), the side surface portion of the packing (7) facing the groove side surface (8a) is It is in a state in which it is airtightly sealed and fixed by an adhesive or the like. Further, the side surface portion of the packing (7) located on the bottom side of the groove (8) has a substantially V-shaped cross section along the width direction of the packing (7).
In other words, this packing (7) is provided with a groove having a substantially V-shaped cross section along its longitudinal direction. The thickness of the V-shaped portion (the portion indicated by the dotted line in FIG. 1) of the packing (7) is set smaller than the depth of the groove (8). Further, in the space (10) formed between the V-shaped portion of the packing (7) and the groove (8), the packing (7) is directed toward the rear surface (3a) of the door (3). One end of a pipe (9) for feeding the pressurized air to be pressed by is opened. With the pressure vessel (1) having the airtight device having the above configuration,
When performing sterilization work, after closing the door (3) of the pressure vessel (1) with a predetermined mechanism, pressurized air is sent into the space (10) in the groove (8) through the pipe (9). To pay. The supply pressure of the pressurized air at this time is set to be higher than the pressure in the pressure vessel (1), for example, the pressure of steam supplied into the pressure vessel (1). Then, the V-shaped portion of the packing (7) is pressed by the high-pressure pressurized air, and the side surface portion not sealed and fixed is deformed from the initial shape (7a) shown by the dotted line in FIG. While bulging (curving), it swells out from the groove (8) and changes to the shape shown by the solid line in FIG. The deformation of the packing (7) at this time is easily performed without causing a deformation defect such as catching because the cross-sectional shape is substantially V-shaped as described above. Then, in the state after deformation, the packing (7) is
The door (3) is pressure-bonded to the rear surface (3a) of the door (3) to keep the pressure vessel (1) airtight. On the other hand, if the inside of the pressure vessel (1) is in a negative pressure state in the vacuum process or the drying process as described above, the groove side surface (8a) and the side surface of the packing (7) are sealed and fixed. This can prevent the pressurized air supplied into the groove (8) from entering the pressure vessel (1). Further, since the packing (7) is airtightly fixed to the groove (8) by the side surface portion located on the side of the opening (6), when the pressurized air is applied as described above, the packing (7) is sealed. The side surface part that is not attached and fixed is deformed. That is, the packing (7) as a whole is deformed into an asymmetrical shape with directionality, and the deformation direction is the direction of biting between the pressure container (1) and the door (3). (1) A high degree of airtightness can be maintained regardless of the positive pressure and the negative pressure inside. Although the pressure vessel has been described as a pressure vessel as a sterilizer in the above, the present invention is also applicable to pressure vessels other than sterilization applications. Further, the above embodiment shows an example applied to a pressure vessel provided with a door which is opened and closed by a hinge as shown in FIG. 2, but in the present invention, such a hinged opening and closing door is used. Needless to say, the present invention can be applied to pressure vessels equipped with other doors.

[Effect of device]

As described above, according to this invention, since the packing is airtightly fixed to the groove side surface located on the opening side, the unfixed side of the packing swells out of the groove due to the action of the pressurized air. Since it deforms so as to bite between the door and the pressure vessel, high airtightness can be maintained regardless of positive pressure and negative pressure inside the pressure vessel. In particular, when the inside of the pressure container is under negative pressure, since the groove side face and the packing are completely airtightly fixed, the pressurized air does not leak into the pressure container. Moreover, the structure is simpler and the cost can be significantly reduced as compared with the conventional airtight device. Further, the side surface portion of the packing, which is located on the bottom side of the groove, has a substantially V-shaped cross-section along the width direction of the packing, so that when the packing is deformed by the action of the pressurized air, it may be caught. Since this deformation is easily performed without causing deformation defects, the door can be reliably brought into close contact with the rear surface of the door and the airtightness can be further ensured.

[Brief description of drawings]

FIG. 1 is an enlarged partial sectional view showing an embodiment of an airtight device for a pressure vessel door according to the present invention, FIG. 2 is a schematic plan view showing an example of a conventional typical pressure vessel, and FIG. FIG. 4 is an enlarged partial sectional view showing an example of a conventional airtight device, FIG. 4 is an enlarged partial sectional view showing another example of a conventional airtight device, and FIG.
It is a diagram which shows the pressure change in a pressure container at the time of sterilization work. (1) ... Pressure vessel (1a) ... Front surface (3) ... Door (6) ... Opening (7) ... Packing (8) ... Groove (8a) ... Groove side surface

Claims (2)

[Scope of utility model registration request] 1. A groove (8) is provided around an opening (6) of a pressure vessel (1), a packing (7) is fitted in the groove (8), and the opening (6) is fitted into the door (3). ), The back side of the packing (7) is pressed by the pressurized gas supplied into the groove (8) to press the packing (7) toward the door (3), Pressure vessel (1)
And a structure for maintaining airtightness between the door (3) and
The packing (7) is provided on the groove side surface (8a) located on the opening (6) side of the groove (8).
An airtight device for a pressure vessel door, characterized in that it is fixed in an airtight state by a side portion of the packing (7) facing the a). 2. The side surface portion of the packing (7) located on the bottom side of the groove (8) has a substantially V-shaped cross section along the width direction of the packing (7). The airtight device for the pressure vessel door according to claim 1 of the utility model registration claim.