JP4002508B2 - Deaeration valve, deaeration bag and method for manufacturing the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a deaeration valve in which an air passage can be opened and closed by a valve body, and a deaeration bag to which the deaeration valve is attached.
[0002]
[Prior art]
[Patent Document 1]
Japanese Utility Model Publication No. 5-44837
[Prior art]
Conventionally, there exist deaeration bags that can store compactly stored items such as clothes and futons that contain items that are bulky by containing air and that are compressed by discharging the air inside. .
This degassing bag is for taking in and out the stored items, and is provided with an opening that can be closed in an airtight state by a chuck or the like. In addition, many deaeration bags are equipped with a deaeration valve having an air passage for discharging the air inside the bag.
When using this deaeration bag, a vacuum cleaner is applied to the deaeration valve, and the air inside the bag is discharged by operating the vacuum cleaner and sucking it.
[0003]
As an example of the deaeration valve, there is a “deaeration valve for a futon storage bag” described in Patent Document 1. This has a base that is integrally attached to the deaeration bag and communicates between the inside and the outside of the bag through an air passage, and a lid that is arranged so as to be screwable with the base.
[0004]
A valve body is formed on the base. This valve body can open and close an air passage formed in the lid when the lid is loosened with respect to the base.
Specifically, the valve body is biased by a biasing means such as a spring so as to close the air passage, and as described above, the air passage is opened only when suctioned by a vacuum cleaner, The air in the bag is discharged to the outside.
Finally, the lid body is screwed into the base to fix the valve body in a closed state, and the inside of the deaeration bag is maintained in a deaerated state.
[0005]
[Problems to be solved by the invention]
In this conventional deaeration valve, in order to prevent the air inside the deaeration bag from escaping, a member such as a lid for closing the air passage is required separately. In addition, since the base body and the lid body are attached so as to protrude from the deaeration bag, it is difficult to stack them during storage. In addition, since the bulk of the deaeration bag is bulky, it has been difficult to store the deaeration valve alone.
[0006]
In view of the above problems, the present invention provides a deaeration valve that does not require a separate member for closing an air passage such as a lid as in the prior art, and has a small portion protruding from the deaeration bag. Is an issue.
It is another object of the present invention to provide a deaeration valve that is not bulky and easy to store even when a deaeration bag is manufactured.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the first invention of the present application is a film-like member that is arranged so that the air passage 33 can be opened and closed, and the main body member 2 provided with the air passage 33 penetrating from the front side to the back side. In the deaeration valve 1 including the valve body 5, the main body member 2 includes a valve seat portion 32 for attaching the valve body 5, and the valve seat portion 32 is directed in the front side direction from the central portion toward the periphery. The valve seat abutment surface 32a is inclined to the valve seat portion 32, the air passage 33 is radially formed in a plan view, and the valve body 5 is fixed to the central portion 32b of the valve seat portion 32, The valve body 5 can be moved toward and away from the valve body abutting surface 32a by being curved except for the fixed portion as described above. The deaeration is characterized in that the air passage 33 is closed when it is in close contact with the air passage 32a. To provide.
[0008]
Further, the second invention of the present application is the first invention, wherein the deaeration valve 1 is provided with a recess 7 on the front side, whereby the other deaeration valve 1 is provided in the recess 7 of the one deaeration valve 1. A plurality of deaeration valves 1 can be stacked such that at least a part of one valve seat portion 32 can be stored and the front side of one deaeration valve 1 and the back side of the other deaeration valve 1 are aligned. Provide a deaeration valve characterized by what is possible.
[0009]
The third invention of the present application is a bag formed of a soft resin film and having a structure capable of sealing the inside, wherein the degassing valve 1 according to the first or second invention is replaced with the degassing valve 1. A degassing bag characterized in that the inside of the bag is evacuated and can be maintained by attaching the bag through the air passage 33 formed in the valve seat portion 32 so as to communicate with the inside and outside of the bag. To do.
[0010]
The fourth invention of the present application includes a step of opening a valve mounting hole 83 in a soft resin film 81 and one of the deaeration valves 1 according to the first or second invention in a stacked state. A deaeration bag comprising: a step of taking out; a step of aligning the positions of the deaeration valve 1 and the valve mounting hole 83; and a step of adhering the deaeration valve 1 to the film 81. A manufacturing method is provided.
[0011]
In the first invention of the present application, the valve body 5 can be reliably brought into close contact with the inclined valve body abutting surface 32a, whereby the air passage 33 is reliably closed and the deaerated state is long. Can be maintained over a period of time. Moreover, it is not necessary to provide a separate member for closing the air passage such as a lid.
[0012]
Moreover, since the 2nd invention of this application can accommodate at least one part of the valve seat part 32 in the recessed part 7, the deaeration valves 1 can be piled up. Further, the deaeration valve 1 which is not bulky and can be easily stored can be provided even when the deaeration bag 8 is manufactured.
[0013]
In addition, the third invention of the present application can provide a deaeration bag 8 that can maintain the deaerated state for a long period of time without providing a member such as a lid for closing the air passage. .
[0014]
In addition, the fourth invention of the present application can provide a method of manufacturing the deaeration bag 8 that can maintain the deaerated state for a long period of time.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example of implementation of the present invention will be taken and described mainly with reference to FIG. 1 and other drawings as appropriate. 1 and 2 show the deaeration valve of this example, FIG. 3 shows the structure of each member, and FIG. 4 shows the deaeration bag to which the deaeration valve of this example is attached.
In this example, in the main body member 2, the side (shown in FIG. 1 (A)) to which the valve body 5 is attached is the front surface, and the opposite side (shown in FIG. 1 (B)) is the back surface. The direction will be explained accordingly.
[0016]
The deaeration valve 1 of this example is made of a synthetic resin, and is a combination of a main body member 2, a valve body 5, and a valve body cover 6.
[0017]
The main body member 2 has a plate-like appearance, and the air passage 33 is formed so that air flows between the front side and the back side.
The main body member 2 includes a valve portion 3 having an air passage 33 and a base portion 4 formed for the purpose of attachment allowance for the deaeration bag 8 around the valve portion 3.
[0018]
In this example, the valve portion 3 includes a side wall 31 and a valve seat portion 32 located in the back side direction of the side wall 31.
In this example, the side wall 31 has an annular shape in a plan view and a wall shape protruding in both front and back directions from the base portion 4 as shown in FIG.
Here, the positional relationship of the side wall 31 with respect to the base portion 4 is formed so as to be orthogonal to the base portion 4 in this example, but is not limited thereto, and may be formed with an inclination.
In this example, a fitting protrusion 32e for fitting and attaching the valve body cover 6 is formed on the inner side surface of the side wall 31 (see FIG. 3A).
[0019]
The valve seat portion 32 is formed in a planar shape so as to share the back side end portion 31b of the side wall 31, and when viewed from the front side, the central portion 32b has a “dent” shape that is most recessed. . In the case of this example, the shape of the valve seat portion 32 is such that the central portion 32b is formed as a horizontal flat surface, and the surrounding valve body abutting surface 32a is formed as a tapered inclined surface. May be formed as a curved surface such as a paraboloid.
On the front side surface of the valve seat portion 32, the portion formed on the tapered slope as described above is the valve element abutting surface 32a. When the film-like valve body 5 comes into close contact with the valve body abutting surface 32a, the air passage 33 formed at a position covered by the valve body 5 in a plan view can be closed.
Further, in this example, a valve body fixing projection 32c is provided at the central portion 32b so as to protrude. As shown in FIG. 3B, the valve body 5 is provided on the valve body fixing projection 32c. The valve body 5 is attached to the valve seat portion 32 by fitting the attachment holes 51a formed in the valve seat.
[0020]
In the deaeration valve 1 of this example, as shown in FIG. 5, in two or more deaeration valves 1... 1, the front end 31a of the side wall 31 in one deaeration valve 1 and the other deaeration valve 1. The back side end portion (outer peripheral portion of the valve seat portion) 31b of the air valve 1 can be brought close to each other and overlapped.
As will be described later, the valve body 5 and the valve body cover 6 are attached to the valve portion 3, but the side wall 31 and the valve body cover 6 form a recess 7 that is a space. A part of the valve seat portion 32 and a valve portion protrusion 32 d formed on the back side of the valve seat portion 32 are accommodated in the recess portion 7. For this reason, a plurality of deaeration valves 1 can be stacked in a compact manner, and the deaeration valves 1 can be stacked as shown in FIG. The manufacturing apparatus 100 can be laid out in a compact manner.
[0021]
The air passage 33 is formed in the valve seat portion 32 so as to penetrate from the front side to the back side. As shown in FIG. 1B, the air passages 33 are formed radially from the center of the valve seat portion in plan view. Specifically, the positional relationship covered by the valve body 5, which will be described later, in this example, the air passages 33 each having a sector shape in plan view are formed in four directions at an angle of 90 °.
In the air passage 33, linear reinforcing bars 33a and 33b are formed in the radial direction and the circumferential direction, respectively, and each air passage 33 is partitioned into a “rice” shape in plan view. The surface sides of the reinforcing bar portions 33a and 33b are stepless with respect to the valve element abutting surface 32a and constitute the same plane. In this way, by partitioning the air passage 33 by the reinforcing bars 33a and 33b, when the valve body 5 closes the air passage 33, the valve body 5 is sucked into the air passage 33 under the influence of atmospheric pressure. The air passage 33 can be reliably closed without the occurrence of a gap between the valve body 5 and the valve body abutting surface 32a and the occurrence of air leakage.
Of the above reinforcing bar portions 33a and 33b, the radial direction reinforcing bar portion 33a formed in the radial direction also serves as a valve portion protrusion 32d described later.
The form of the air passage 33 in a plan view is not limited to the one in this example, and may be formed in various forms such as a slit-like one or a round hole. Further, the reinforcing bar portion may be formed in a mesh shape or the like, and can be implemented in various forms.
[0022]
As described above, since the valve seat portion 32 is formed to be inclined and the air passage 33 is radially arranged in a plan view, the air passage 33 passes through the air passage 33 from the back side of the deaeration valve 1. Air circulation toward the front side is performed smoothly. That is, as shown in FIG. 4, when the deaeration valve 1 of this example is attached to the deaeration bag 8, the airflow F that flows along the base 4 inside the bag is inclined behind the valve seat 32. And the valve portion ridge 32d flow so as to be guided to the air passage 33, so that degassing can be performed quickly (see FIG. 6B).
[0023]
As shown in FIGS. 3A and 3B, the valve body 5 is a film. In this example, four valve pieces 53 sharing the central portion 51 are formed by the slits 52 cut in the radial direction from the outer peripheral portion so as to divide the flat plate in a plan view into four equal parts, The plan view is a “four-leaf clover” shape.
In this example, the center part 51 of the valve body 5 becomes an attachment part with respect to the valve seat part 32, and is provided with the cross-shaped attachment hole 51a in this example. Then, the valve body 5 is fitted into the valve seat portion 32 by fitting the mounting hole 51a into the valve body fixing projection 32c provided in the central portion 32b of the valve seat portion 32 and having a cross shape in plan view. Install. Thus, although the central part 51 of the valve body 5 is fixed, the valve piece 53 is not fixed to the valve seat part 32. It is possible to approach and separate from 32a.
[0024]
The valve body 5 has a planar shape that can cover the air passages 33 formed radially in the valve seat portion 32 as described above. In addition, the valve body 5 can be in close contact with the valve body abutting surface 32 a on the surface of the valve seat portion 32. As a result, the valve body 5 can close the air passage 33.
As described above, the shape of the valve body 5 is formed to match the shape of the air passage 33. Therefore, depending on the shape of the air passage 33, the number of the valve pieces 53 may be two, three, five or more. Moreover, it is good also as what made each valve piece 53 completely independent, without making it share in the center part 51 like this example.
Further, the method of fixing the valve body 5 to the valve seat portion 32 is not limited to the combination of the mounting hole 51a of the valve body 5 and the valve body fixing protrusion 32c of the valve seat portion 32 as in this example. It may be fixed by an agent or heat welding, or may be fixed by screws or rivets. Further, the position where the valve body 5 is fixed is not limited to the central portion 51 of the valve body 5, and can be fixed at various portions such as the outer peripheral portion and the side according to the shape of the valve body 5.
[0025]
The valve body 5 is in the form of a film as described above, and it is desirable that the valve body 5 is flexible and has excellent shape restoring properties. Specifically, a relatively soft resin film, paper impregnated with resin, or the like is used. Further, in the valve body 5, in order to improve the adhesion to the valve body abutment surface 32 a when the air passage 33 is closed on the back surface side which is a surface abutting against the valve body abutment surface 32 a, An adhesive substance may be applied.
[0026]
By forming the valve body 5 as described above, the air passage 33 is opened only by the air flow from the back side to the front side during deaeration, and in other cases, the valve body 5 is opened to the valve body. The air passage 33 can be maintained in close contact with the contact surface 32a. As a result, the air passage 33 is not opened unexpectedly except during deaeration without providing a screw-type lid or the like as in the prior art, and the deaeration valve 1 is connected to the deaeration bag 8. Even if it is attached and used, the inside of the deaeration bag 8 can be kept airtight for a long period of time.
The deaeration valve 5 of this example is also fitted and attached to the side wall 31 of the main body member 2 as shown in FIG. 3A for the purpose of giving the customer a sense of security. A cap 9 that covers the valve portion 3 may be attached.
[0027]
As described above, the valve body cover 6 is attached together with the valve body 5 to the valve body fixing protrusion 32 c formed on the valve seat portion 32. The valve body cover 6 has a disk shape in plan view as shown in FIGS. 1A and 3A, and a circular air hole 61 is formed in the center. A valve body presser 62 is formed on the back side of the valve body cover 6 so as to go from the four sides to the center. As shown in FIG. 3A, the valve body retainer 62 has a triangular cross-sectional shape, and the shape on the back surface side is a straight line that matches the inclination of the valve body abutting surface 32a.
Therefore, when the valve body cover 6 is attached to the valve portion 3, a predetermined gap is formed between the valve body contact surface 32 a and the valve body presser 62. And as shown in FIG. 2, the valve body 5 is coordinated in this clearance gap.
Further, when the valve body cover 6 is attached to the valve portion 3, the valve body presser 62 is located at the center of each valve piece 53 of the valve body 5 and is arranged from the central portion 51 in the outer peripheral direction. Therefore, when the valve piece 53 is formed in four directions as in this example, the four valve body pressers 62 are formed in accordance with the valve piece 53 and the shape of the valve body 5 is different from this example. In accordance with this, the valve body presser 62 is formed.
[0028]
As described later, the positional relationship between the gap and the valve body 5 is determined for the purpose of preventing the entire valve body 5 from rising significantly.
Therefore, even when the valve body 5 is in a coordinated state, the valve body 5 is allowed to lift slightly in a state where a gap still remains, that is, between the valve body contact surface 32a and the valve body presser 62. Alternatively, the valve body 5 may be completely sandwiched between the valve body abutting surface 32a and the valve body presser 62 without any gap.
[0029]
As for the above point, as in the latter case, it is most desirable that the valve body 5 be sandwiched between the valve body abutting surface 32a and the valve body presser 62.
Here, the larger the air passage 33 is formed, the more smoothly the deaeration can be performed. However, the valve body 5 is enlarged accordingly, and the valve piece 53 of the valve body 5 is easily bent and causes air leakage. The possibilities are also great.
Therefore, as described above, the valve body presser 62 acts to divide the valve piece 53 when the valve body 5 is sandwiched between the valve body contact surface 32a and the valve body presser 62 as described above. The possibility that the valve body 5 bends to cause air leakage can be reduced.
[0030]
A cylindrical mounting portion 63 is formed at the central portion of the air hole 61 of the valve body cover 6 so as to be supported by the valve body holders 62 from four directions. Thus, the valve body fixing protrusion 32c formed in the valve seat portion 32 is fitted. Therefore, the central portion 51 of the valve body 5 is sandwiched between the central portion 32b of the valve seat portion 32 and the attachment portion 63, and the valve body 5 is fixed.
And the outer peripheral part of the valve body cover 6 fits with the protrusion 32e (refer FIG. 3 (A)) for fitting formed in the inner surface of the side wall 31. FIG. As a result, the valve body cover 6 is fixed to the valve portion 3.
[0031]
By attaching the valve body cover 6 to the valve portion 3 as described above, the valve body 5 is provided with the valve body presser 62 as described above even when air passes through the air passage 33. Since the operation is restricted at the position, the valve body 5 is not largely turned up and can be operated stably, and the air passage 33 can be reliably closed.
[0032]
The base part 4 is a flat part formed around the valve part 3, and in this example, as shown in FIGS. 1A and 1B, the plan view is formed in a substantially rectangular shape.
A smooth surface is formed on the front side of the base portion 4, and the bag film 81 is attached to the surface by means such as heat welding. On the other hand, a base ridge 41 is formed on the back side. In this example, as shown in FIG. 1B, the base 4 is formed in parallel with a predetermined interval in a direction parallel to the long side.
When the deaeration bag 8 is formed as shown in FIG. 4, the base ridge 41 is spaced from the bag film 81 on the side where the deaeration valve 1 is attached and the bag film 81 on the other side. This has a function as a spacer (see FIG. 6A) and a function of guiding the air in the bag to the air passage 33 of the deaeration valve 1 (see FIG. 6B). The ridges 41 can reliably discharge the air inside the deaeration bag 8.
[0033]
In the case where importance is attached to the action of the base ridge 41 as described above, it is better to form the base 4 as in this example, but if not, the base 4 is not formed and the valve 3 is not formed. It is good also as what forms the deaeration valve 1 which consists only of this, and attaches it to the deaeration bag 8 directly.
Also, the shape of the base 4 is not limited to a substantially rectangular shape in plan view as in this example, and can be implemented in various shapes such as a circle and an ellipse.
[0034]
As described above, the base protrusions 41 are formed on the back surface of the base portion 4 in parallel with the long side direction. The valve portion 3 also has a back surface of the valve seat portion 32 as shown in FIG. Thus, the valve part protrusion 32d is formed radially.
As shown in FIG. 6 (B), the air in the bag is first caused by the base ridge 41 to allow the valve seat 32 to be removed from the air in the deaeration bag 8 to which the deaeration valve 1 is attached. To the position of. Subsequently, the air is guided to the air passage 33 by the valve protrusion 32d. In this way, the air inside the deaeration bag 8 is easily guided to the air passage 33.
Further, as shown in FIG. 6A, each protrusion 41, 32d acts as a spacer, and the bag film 81 on the side where the deaeration valve 1 is attached and the bag film 81 on the opposite side are not brought into close contact with each other. , Can maintain the gap. For this reason, in the state in the middle of deaeration, each said bag film 81,81 adheres closely, and the inside of a bag can be completely deaerated, without being able to suck out air on the way.
[0035]
The deaeration valve 1 of the present example having the above-described configuration is used by being attached to the deaeration bag 8 as shown in FIG.
The bag used as the deaeration bag 8 is formed by a bag film 81 made of a soft resin film or the like, and a bag whose inside can be sealed by a closing means 82 a such as a chuck attached to the opening 82 is used. A specific method for manufacturing the deaeration bag 8 will be described later.
[0036]
In order to use the deaeration bag 8, first, the tip of the suction pipe of the vacuum cleaner is pressed against the valve body cover 6 of the deaeration valve 1. Then, by operating the vacuum cleaner, the valve body 5 is pulled away from the valve body abutting surface 32a that has been in close contact, and the air passage 33 thus opened and the air hole 61 of the valve body cover 6 are used. Exhaust the air in the bag. When the discharge of the air is finished and the tip of the suction pipe of the vacuum cleaner is separated from the deaeration valve 1, the valve body 5 comes into close contact with the valve body abutting surface 32a and the air passage 33 is closed. At this time, since the valve body 5 is strongly adhered to the valve body abutting surface 32a by the atmospheric pressure of the outside air, the air passage 33 is not unexpectedly opened, and the state in which the inside of the bag is evacuated is maintained for a long time. Can be maintained over time.
[0037]
Next, the manufacturing method of the deaeration bag 8 of this example is described.
First, as a bag material, a soft resin film made of polyethylene or the like is used. In this example, a long bag film 81 wound in a roll shape is used, and processing is performed by sequentially feeding in the longitudinal direction.
As shown in FIG. 7B, the bag film 81 is slightly larger than the size of the valve portion 3, specifically, the outer diameter in the plan view of the side wall 31, at the position where the deaeration valve 1 is attached. Open the mounting holes 83 of the dimensions.
Here, in the manufacturing apparatus 100 for performing the manufacturing method of this example, as shown in FIG. 7A, the main body member 2, the valve body 5, and the valve body cover 6 are already combined in the server 102. The deaeration valves 1 are arranged beside the film 81 in a stacked state as shown in FIG. The lowermost one of the stacked deaeration valves 1 is taken out and slid in a direction overlapping the bag film 81 so that the valve part 3 of the deaeration valve 1 matches the mounting hole 83 described above. Overlapping. At this time, although not shown, the deaeration valve 1 is moved by an actuator that moves along a conveyance track 101 described later. And the base 4 of the deaeration valve 1 and the film 81 are fixed by heat welding.
Thereafter, the film 81 to which the deaeration valve 1 is attached and the film 81 on the other side are bonded together by means such as thermocompression bonding to form a bag shape. In accordance with this, a chuck 82a for closing the opening 82 is also attached to complete the deaeration bag 8.
Each process demonstrated above is an example, Comprising: You may change the order and may implement another process.
[0038]
As already described, the base ridge 41 formed in the long side direction is formed on the back side of the base 4 of the deaeration valve 1. Here, in the manufacturing apparatus 100 of this example, the linear conveyance track 101 is formed so as to be orthogonal to the longitudinal direction of the film 81. Although not shown in detail, the transport track 101 is formed by arranging a rail 101a composed of two or more rod-like bodies in a hollow manner or fixing on a flat plate, and each of the rails 101a is parallel to each other. Yes, when the deaeration valve 1 is placed on the transport track 101, the interval between the rails 101a is maintained on the rail 101a so that the portions between the base ridges 41 coincide. In the case of this example, as shown in FIG. 1 (B), the transport in which the two rails 101 a and 101 a are coordinated at the interval corresponding to the distance L between the outermost protruding ridges 42 in the base portion 4. A track 101 is formed.
Then, by placing the deaeration valve 1 on the rail 101 a of the transport track 101, the deaeration valve 1 can be slid along the transport track 101. Therefore, the base ridge 41 can be used as a guide for sliding, and a deaeration valve can be manufactured efficiently.
[0039]
【The invention's effect】
In the first invention of the present application, the valve body can be reliably brought into close contact with the inclined valve body abutment surface, thereby reliably closing the air passage and maintaining the deaerated state for a long period of time. can do. Moreover, it is not necessary to provide a separate member for closing the air passage such as a lid.
[0040]
In addition to the effect of the first invention, the second invention of the present application can store at least a part of the valve seat portion in the recess, so that the deaeration valves can be stacked. In addition, a deaeration valve that is not bulky and can be easily stored can be provided even when a deaeration bag is manufactured.
[0041]
In addition, the third invention of the present application can provide a deaeration bag capable of maintaining the deaerated state for a long period of time without providing a member such as a lid for closing the air passage.
[0042]
In addition, the fourth invention of the present application can provide a method for producing a deaeration bag capable of maintaining the deaerated state for a long period of time.
[Brief description of the drawings]
FIG. 1 shows a deaeration valve according to an embodiment of the present invention, in which (A) is a plan view and (B) is a bottom view.
2 is a cross-sectional view taken along the line II of FIG.
FIG. 3A is an explanatory view in cross-sectional view showing the configuration of each member of the deaeration valve of this example, and FIG. 3B is a plan view of the valve element.
FIG. 4 is a plan view showing a deaeration bag equipped with a deaeration valve of this example.
FIG. 5 is an explanatory view in cross-sectional view showing a state in which a plurality of deaeration valves of the present example are stacked.
FIGS. 6A and 6B are explanatory views showing that the protrusion acts as a spacer in the deaeration valve of this example, and FIG. 6B is an explanatory view showing the direction of airflow.
7A is an explanatory view showing an example of a deaeration bag manufacturing apparatus of the present example, and FIG. 7B is an explanatory view showing a relationship between a bag sheet and a deaeration valve at the time of manufacture.
[Explanation of symbols]
1 Deaeration valve
2 Body members
32 Valve seat
32a Valve element contact surface
32b Center (valve seat)
33 Air passage
5 Disc
7 recess
81 bag film
83 Valve mounting hole

Claims (4)

A body member (2) provided with an air passage (33) penetrating from the front side to the back side;
In the deaeration valve (1) provided with a film-like valve body (5) arranged so as to be able to open and close the air passage (33),
The main body member (2) includes a valve seat portion (32) for attaching the valve body (5), and the valve seat portion (32) is inclined toward the front side from the center portion toward the periphery. A contact surface (32a),
In the valve seat part (32), air passages (33) are formed radially in plan view,
The valve body (5) is fixed to the central part (32b) of the valve seat part (32),
The valve body (5) is capable of approaching and moving away from the valve body abutting surface (32a) by curving, except for the portion fixed as described above.
A deaeration valve that closes the air passage (33) when the valve body (5) comes into close contact with the valve body abutment surface (32a). It is provided with a recess (7) on the front side of the deaeration valve (1),
Thereby, at least a part of the valve seat (32) of the other deaeration valve (1) can be stored in the recess (7) of the one deaeration valve (1),
The plurality of deaeration valves (1) can be stacked such that the front side of one deaeration valve (1) and the back side of the other deaeration valve (1) are aligned. The deaeration valve as described in. A bag made of a soft resin film and having a structure capable of sealing the inside,
By attaching the deaeration valve (1) according to claim 1 or 2 so as to communicate the inside and outside of the bag through an air passage (33) formed in the valve seat (32) of the deaeration valve (1). ,
A degassing bag characterized in that the inside of the bag can be degassed and the state can be maintained. Opening the valve mounting hole (83) in the soft resin film (81);
Removing one of the deaeration valves (1) according to claim 1 or 2 in a stacked state;
Matching the positions of the deaeration valve (1) and the valve mounting hole (83);
Bonding the deaeration valve (1) to the film (81);
A method for producing a deaeration bag, comprising:

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