TW201249542A - Plastic container, elongated flow path member, and coating apparatus - Google Patents

Abstract

This invention provides a plastic container, in which when a main body of the plastic container is crushed, there is completely no undesirable situation that viscous liquid flow path is blocked and it will eliminate the contamination of circumstances due to the scattering of viscous member attached to a tube member when the tube member is reused. The solution is that the plastic container main body is soft and has an opening part, and is filled with viscous liquid in its interior, where the viscous fluid can be discharged from the opening part when the container is pressurized and crushed; and an elongated flow path member is installed on the opening part and extending into to the interior of the main body of the plastic container for serving as a discharging path of the viscous fluid that allows the viscous fluid to be discharged sideways when the viscous fluid is pressurized and discharged. When the main body of the plastic container is pressurized and crushed, the crushed plastic container main body can be discarded together along with the elongated flow member.

Description

201249542 VI. Description of the Invention: [Technical Field] The present invention relates to a plastic container, a long flow path member, a coating device, a plastic cap with an inner cap, a sealed state, and a plastic container in a bundled state. It can be effectively used in the case where a viscous liquid, in particular, a curable composition having a moisture-curing type and a curable composition having an oxygen-curing type, is contained in a flexible one. The bag or the container is deformed by applying pressure from the outside to deform the bag or container and to discharge the internal viscous liquid to the outside for coating. 【first. [Previous Art] Conventionally, in a coating device to which a moisture-curing adhesive or an oxygen-curable adhesive is applied, since the adhesive hardens when it comes into contact with air, it is scattered when the adhesive scatters. There is a problem such as direct solidification and cause of contamination, so it is necessary to apply an adhesive without bringing it into contact with air. A general discharge state of the viscous liquid in the conventional coating apparatus will be described based on Figs. 25 to 27. In Figs. 25 to 27, reference numeral 100 is a conventional coating apparatus, and has a pressurizing tank 102 and a compressed air supply means (not shown) for supplying compressed air through the air supply pipe 104. And the plastic container 106 is disposed in the pressure tank 102; and the liquid delivery tube means 110 has one end connected to the opening 108 of the plastic container 106; and a coating nozzle means (not As shown in the figure, it is provided at the other end of the liquid feeding tube means 1 1 . Symbol -5- 201249542 1 12 is a viscous liquid and is filled in the plastic container l6. Fig. 25 shows a state in which the viscous liquid 112 is filled in the plastic container 106 in a full tank state; Fig. 26 shows that the plastic container 106 is pressurized from the outside to be deformed and reduced, and the viscous liquid 112 is discharged. The intermediate state at the outside: Fig. 2 shows the final state in which the plastic container 106 is further pressurized and the central portions are in contact with each other such that the viscous liquid 1 12 is not discharged to the outside. On the other hand, although the liquid delivery tube means 110 is passed through the opening 108 of the plastic container 106 and extended to the inside of the plastic container 106, in this case, the liquid delivery tube means 110 is to be reused. Therefore, at the end of the liquid feeding process, since the viscous liquid adheres to the tip end portion of the liquid feeding pipe means 110, the adhered viscous liquid is scattered to the periphery of the coating device, causing contamination. s reason. Devices for coating such liquids that do not like contact with air have also been proposed since the prior art. For example, a device that accommodates a viscous liquid or the like in a flexible bag or container and that deforms the bag or container by applying pressure from the outside and discharges the internal viscous liquid to the outside is applied. It is widely known that "an adhesive coating device includes: a sealed container which is deformed by an adhesive and can be deformed; and a pressure tank for accommodating the sealed container; and a discharge portion and a closed container which are provided on the outer side of the pressure tank. And a pressurizing device for pressurizing the pressurizing tank, wherein the aqueous adhesive is filled in the sealed container, and the front end of the hose connected to the sealed container is coupled to the spray gun, and The wall surface on the outer side of the hose mounting portion of the sealed container is provided with a ridge-shaped reinforcing portion that restricts deformation at the time of contraction (Patent Document No. 1 of Patent Document 1). The adhesive agent -6-201249542 cloth device of Patent Document 1 is a conventional coating device of this type, as described in the paragraph [0 0 0 4] of Patent Document 1, although in the case of performing the discharge operation of the adhesive agent, At the beginning, the discharge can be smoothly performed. However, the connection between the membrane body and the hose near the attachment portion of the hose of the bag is closed. Therefore, an accident that cannot be discharged occurs, and the outside of the hose attachment portion of the sealed container is eliminated in order to eliminate the accident. The wall surface is provided with a crocodile-shaped reinforcing portion that restricts deformation at the time of contraction. In the device of Patent Document 1, it is possible to surely eliminate the incapable discharge accident in the vicinity of the hose attachment portion, but it is impossible to discharge the portion of the other bag or container, for example, the bag or the center portion of the container shown in Fig. 27 The accident is not fully functional, and it is also known as a coating device: "a coating device characterized by having any one of claims 1 to 7 of the patent application scope. a liquid accommodating container; and a fluid introduction means connected to a liquid discharge port constituting the inner container of the accommodating container, and introducing a pressure fluid therein; and a spraying means coupled to the pump unit, and The liquid which is pressurized and sent out by the pump unit is sprayed toward the object to be coated" (Patent Document No. 8 of Patent Document 2). Further, in the coating apparatus, as a liquid accommodating container, it has been disclosed that: a liquid accommodating container accommodates a liquid which does not like to be in contact with air, and does not invade the air as much as possible when discharging the liquid. A container for discharging inside the container, comprising: an inner container which is a flexible bag shape capable of freely changing a volume, and a liquid discharge port connected to a pump unit that discharges the liquid; and an outer container The volume is constant, and can be sealed in a state in which the inner container is accommodated, and a pressure fluid is introduced therein while being accommodated in a state in which the inner container is sealed, and is accommodated in the inner container. The liquid is discharged and squeezed by the pressure fluid introduced into the outer container to narrow the air region formed inside the inner container, and discharge the liquid from the inner container in such a manner as not to invade the inner container as much as possible. (Patent Document 2, Patent Application No. 1). Further, in the above-described inner container, it is described that "the inside of the inner container 1 is provided with a suction hose 6 connected to the paint discharge port 5, and the length of the suction hose 6 is It is slightly longer than the height of the inner container 1 when it is bulged and becomes a cubic shape. Therefore, the front end portion of the suction hose 6 always comes into contact with the bottom surface portion of the inner container 1, and the water contained in the inner container 1 can be accommodated. The paint P is all inhaled (Patent Document 2, paragraph [0025]), and the use of the suction hose 6 is taught. In the device of Patent Document 2, since the suction hose 6 is to be repeatedly used, it is directly taken out in a state where the viscous liquid adheres to the distal end portion of the suction hose 6 at the end of the liquid delivery process. The adhered viscous liquid (the aqueous coating material in Patent Document 2) is scattered to the periphery of the coating device to cause contamination. This is the same as in the case of Patent Document 1, and the suction port of the suction hose 6 is only When it is formed in the front end portion of the suction hose 6, when the suction port is closed by the contact of the wall portion or the like of the inner container 1, there is a disadvantage that an accident of inhalation of the viscous liquid cannot occur. (Patent Document 1) Japanese Laid-Open Patent Publication No. 2010-247073 (Patent Document 2) Japanese Laid-Open Patent Publication No. 2010-247878 (Draft of the Invention) -8-201249542 (Problems to be Solved by the Invention) The present invention is based on the above-mentioned conventional knowledge. The problem of the coating device is developed, and the object of the invention is to provide a plastic container, a long flow path member for the plastic container, a coating device using the plastic container, and a container for sealing the plastic container. a plastic container with a cap and a sealed state, and a plastic container in a sealed state, the plastic container is a plastic which is pressed by a flexible plastic container body to pressurize the viscous liquid from the opening portion a container which has an opening and is internally filled with a viscous liquid, in particular, a hardening composition having a moisture-curing type adhesion or a hardening composition having an oxygen-curable type. And extending a long flow path member to the opening portion so as to extend to the inside of the plastic container body, the elongated flow path member being pressurized by the viscous liquid When it is discharged, it becomes a flow path of the viscous liquid, and when the plastic container body is crushed, there is no problem that the flow path of the viscous liquid is completely blocked, and the plastic container body is pressed by pressurization. The flattened plastic container body and the elongated flow path member can be discarded together after the viscous liquid accommodated in the interior thereof is pressurized and discharged, thereby eliminating the use of the pipe member such as the suction hose or the like. In the case of a viscous liquid adhering to the pipe member, in particular, a curable composition having a moisture-curing type and a curable composition having an epoxy-curable adhesive property, the surrounding material may be scattered. (Means for Solving the Problem) In order to solve the above problems, the plastic container of the present invention is characterized in that -9-201249542 has a soft-filled viscous liquid opening portion added to the plastic material to form the viscous viscosity as the viscous additive After being pressed out, the member can be at least from the road when the strip is continuously attached to the front strip-shaped flow path portion, and the length is preferably a tubular flow path member of the anterior hole. The flow path member of the container body is the viscous composition or the object constituting the plastic viscous liquid, and the adhesive member is attached to the side surface to discharge the entire plastic adhesive liquid from the side surface Preferably, the length is a mounting portion, and the liquid is discharged from the plastic container. The viscous liquid is assembled to the surface of the viscous liquid. Preferably, the viscous liquid is detachably attached to the mounting portion. The opening type is followed by the hardening property of the container body, and the internal inert liquid is extended from the front portion and the shaped discharge flow path body is pressurized by the strip-shaped flow path. Configured to: based detachably front opening; and an opening inside the body portion of the elongated body of the pressurized stream is discharged discharge thereof. More than one flow: the above-mentioned strip is installed on the front to the aforementioned plastic, and the long strip is constructed. The sclerosing property is applied as a soft, and the body is spit by pressure; the liquid in the container body is pressurized and the liquid is discharged to make it squashed and discarded. The path member is an opening portion which is configured to extend the strip-shaped flow path which is attached to the side surface of the side to form a long strip-shaped fluid. The system has a method in which the inside of the long strip is provided with a liquid to be discharged, and the aerobic hardening type is at least a flow path when being discharged and being squashed and inside the long strip flow, and is inside the inside. In the plastic container, the upper end is extended to the mounting portion at the center portion, and the discharge flow path is formed, and the flow path portion is attached to and detached from the road portion. The flow path portion is integrally mounted and airtight. Continually -10-201249542 The elongated flow path member of the present invention is used for a long flow path member of a plastic container having a plastic container body, the plastic container having a softness and being formed as: Wearing an opening and filling the inside with a viscous liquid and being crushed by pressurization. The aforementioned. The viscous liquid is pressure-extracted from the opening portion. The elongated flow path member has an upper end attachment portion that is detachably attached to the opening and has a liquid discharge port at a central portion. And a long strip-shaped flow path portion integrally attached to the mounting portion so as to extend inside the plastic container body, and forming a flow path that is discharged from at least the side surface when the viscous liquid is pressurized and discharged a flow path of the viscous liquid, the elongated flow path member being detachably attached to the opening and being stuck in the foregoing. When the liquid is pressurized and discharged, a flow path of the viscous liquid can be formed, and after the plastic container body is crushed by pressurization, the viscous liquid accommodated in the inside of the plastic container can be pressurized and discharged, and can be pressed. The flat plastic container body is discarded together. Preferably, the long flow path portion is a tubular body through which one or more flow path holes are opened on the side surface. A coating apparatus according to the present invention is characterized by comprising: a pressurizing tank; and a compressed air supply means for supplying compressed air to the pressurizing tank; and a plastic container of the present invention provided in the pressurizing tank; and one end a liquid feeding pipe means connected to the opening of the plastic container; and a coating nozzle means connected to the other end of the liquid feeding pipe means, when the compressed air is supplied into the pressurizing tank, The plastic container inside is pressurized and compressed, and the viscous liquid inside is discharged from the plastic container through the long flow path member, and then ejected from the coating nozzle means through the liquid feeding tube means. The viscous liquid is applied to a predetermined portion, and after the plastic body of the plastic -11 - 201249542 is crushed by pressurization so that all the inside of the container is filled and pressurized, the viscous liquid can be squashed. The plastic is discarded together with the long strip-shaped flow path member. In the coating device of the present invention, it is preferable that the long member has an upper end mounting portion that detachably attaches an opening of the body of the gel container, and a liquid discharge strip-shaped flow path portion is formed at a central portion thereof. And extending to the plastic container body integrally mounted to the mounting portion, the elongated flow path member being detachably mounted to the opening portion, and the elongated flow path member is embedded in the plastic container The upper end mounting portion is inserted into the liquid supply pipe means at the upper liquid discharge port, and is inserted into the liquid discharge port in a sealed state by a sealed insertion pipe feeding means. Preferably, the sealing insertion means includes: a solid structure having a lower surface shape corresponding to an upper end mounting portion of the elongated flow path member; and a receiving section portion formed on the lower portion and forming a male thread portion at a central portion An insertion opening is provided; and an attachment is formed in a central portion of the circular plate and is formed to be in contact with the through hole and formed on an annular side that is suspended from a peripheral edge portion of the circular plate: a female screw portion screwed by a male screw portion on an outer surface of the opening wall of the plastic container body; and a central hole that is fastened to the central portion and formed on the inner surface of the center hole and abuts the fixing member to the long strip flow The upper surface of the road member portion is inserted into the strip-shaped flow path of the viscous liquid glue container body inserted into the long flow through the center hole of the fastening member and the insertion opening, and is configured in the plastic port; And the long inner side is configured as a means for attaching the opening end of the body to the liquid-setting member, the upper surface of which is shaped to face the cylindrical side of the inner surface side of the wall of the upper end outer wall of the hole cover receiving portion The liquid discharge port of the upper -12-201249542 end attachment portion of the road member to which the fixing member is attached to the upper end of the female screw portion is in a state in which the through hole of the through hole cover member is brought into contact with the receiving section The female screw portion of the through-hole cover member is screwed to the male screw portion of the cylindrical side wall of the opening of the plastic container body and locked by a screw, and then the inner surface of the center hole of the fastening member is The female screw portion is screwed to the male screw portion on the outer surface of the upper portion of the fixing member and locked by a screw, whereby the liquid feeding tube means can be inserted into the upper end mounting portion of the elongated flow path member in a sealed state. Liquid spit out. The first aspect of the inner cap of the present invention is an inner cap for sealing the opening of the plastic container body of the plastic container of the present invention, which is characterized by having: a cap body which is tied from a circle An inner surface side of the annular side wall that is provided at a peripheral portion of the shape plate is formed with a female screw portion that can be screwed with a male screw portion formed on an outer surface of the cylindrical side wall of the opening of the plastic container body; and an inner plug member. The bottom portion of the circular plate is suspended from the liquid discharge port of the elongated flow path member. According to a second aspect of the present invention, in the second aspect, the inner plug member has a cylindrical hanging portion that is suspended from a central portion of the lower surface of the circular plate, and is suspended from the cylindrical portion. A flexible cylindrical fitting portion having a lower peripheral edge portion at the lower end of the lower portion. Since the lower end portion of the flexible cylindrical fitting portion is a free end, it has extremely high flexibility. In the case where the inner plug member that is fitted into the liquid discharge port of the long-length flow path member is removed from the liquid discharge port, and only the columnar hanging portion is provided as the inner plug member, the cylindrical lower portion is suspended. The upper part is fixed, and the lower end portion is hard, and the mobility is extremely small. Therefore, there is a problem that the cylindrical hanging portion is not easily pulled out due to being tightly fitted in the liquid discharge port-13-201249542 Pull out together with the long flow path member. On the other hand, when the cylindrical fitting portion having the flexibility at the lower end of the cylindrical lower portion is formed as the structure of the inner plug member, the following advantages are obtained: the liquid fitted to the elongated flow path member When the inner plug member in the state of the discharge port is removed from the liquid discharge port of the elongated flow path member, the liquid fitting outlet is not tightly fitted by the soft action of the cylindrical fitting portion, even if there is a lot of molding. The unequality can also be easily removed from the liquid discharge port. The plastic container of the sealed state of the present invention is characterized in that the viscous liquid is filled in the inside of the plastic container body, and the plastic container of the present invention is obtained by closing the opening of the plastic container body by a cover. It is contained in a moisture or oxygen non-penetrating bag formed by moisture or oxygen non-penetrating material and formed into a sealed state. As the aforementioned cover, the aforementioned inner cap of the present invention is suitably used. Preferably, the inner cap of the present invention is used as the cap, and the inner plug member closes the liquid discharge port of the elongated flow path member. As the moisture or oxygen non-penetrating material, a multilayer sheet-like material containing at least one aluminum foil layer is suitably used. The plastic container in a packaged state according to the present invention is characterized in that the above-described sealed plastic container of the present invention is bundled by corrugated cardboard and formed into a bundled state. (Effect of the Invention) According to the plastic container of the present invention, the flexible plastic container body is crushed by pressurization to pressurize the viscous liquid from the opening portion, and the plastic container is opened. An sturdy composition having an opening and having a viscous liquid, in particular, a moisture-curing type adhesion or a sclerosing composition having an oxy-hardening type, is extended in the interior-14-201249542 a long flow path member is attached to the opening in the interior of the plastic container body, and the elongated flow path member becomes a flow path of the viscous liquid when the viscous liquid is pressurized and discharged, and When the plastic container body is flattened, there is no problem that the flow path of the viscous liquid is completely blocked, and the plastic container body is crushed by pressurization so that the viscous liquid accommodated inside is completely pressurized. After the discharge, the flattened plastic container body and the long-length flow path member can be discarded together, whereby the following effects can be achieved: the tube in which the suction hose or the like is repeatedly used can be eliminated When the curable composition by attaching the member to the pipe member viscous liquid, in particular halo having moisture-curing adhesive property of the curable composition or an oxygen-curable adhesive properties of the scattering caused by the surrounding circumstances of contamination reasons. The elongated flow path member of the present invention is attached to the opening of the plastic container body in the plastic container of the present invention, and is used in or attached to a plastic container of a type in which the liquid contents are squeezed and discharged by the existing pressurization. By using the opening, it is possible to achieve the effect of efficiently squeezing the liquid contents of the plastic container without leaving a residue. According to the coating apparatus of the present invention, since the plastic container of the present invention is disposed, the extrusion discharge of the liquid content can be efficiently squeezed without leaving a residue, and the following effects can be achieved: the coating can be improved. The cloth efficiency can eliminate the cause of the surrounding contamination caused by the viscous liquid as the content, in particular, the curable composition having the adhesion of the moisture-curing type or the curable composition having the adhesiveness of the oxygen-curing type. situation. -15- 201249542 Normally, when storing a plastic container filled with a viscous liquid or when transporting it at the site where the coating operation is performed, the opening of the plastic container is closed by a lid. In this case, when the lid of the general structure is used for the opening of the plastic container of the structure of the present invention and the liquid discharge port of the elongated flow path member, the viscous liquid adheres to the contact when the cover is removed. The inner surface portion of the circular plate of the liquid discharge port is located at the upper end portion of the inner peripheral surface of the elongated flow path member. In this state, the liquid supply pipe means is connected to the long flow path member, and the fixing member, the through hole cover member and the fastening member are attached to perform the pressure discharge operation of the viscous liquid, and then the pressurizing discharge operation ends. When the liquid feeding means, the fixing member, the through-hole cover member, and the fastening member are removed, the outer peripheral surface of the tapered portion of the lower end of the cylindrical base of the fixing member is contaminated by the adhesion of the viscous liquid. When the adhered viscous liquid hardens as time passes, it is difficult to perform fitting of the lower end tapered portion and the tapered end portion of the elongated flow path member, and when the situation becomes severe, the fitting is impossible. The state of the problem, which occurs when the next use occurs a bad situation, or can not be used. In order to eliminate the disadvantages caused by the use of the cover of the general construction as described above, the inventors propose an inner cap having the first aspect of the cap body and the inner plug member, the cap system being in a circular plate The inner surface side of the annular side wall which is provided at the peripheral edge portion is formed with a female screw portion which can be screwed to the male screw portion formed on the outer surface of the cylindrical side wall of the opening of the plastic container body, and the inner plug member is suspended from the female screw portion The lower central portion of the circular plate is fitted to the liquid discharge port of the long flow path member. When the opening of the plastic container of the structure of the present invention and the liquid discharge port of the elongated flow path member are closed, the inner plug member is embedded in the inner plug cap of the first aspect of the present invention-16-201249542. In the state in which the elongated flow path member penetrates the upper end portion of the flow path, the viscous liquid does not intrude into the upper end portion of the through flow path, and the viscous liquid does not adhere to the upper end portion of the through flow path. Therefore, when the inner cap is removed, there is no viscous liquid at the upper end portion of the through flow path, and contamination does not occur, and the state is clean. In this state, the liquid feed pipe means is connected to the long flow path member, and the fixing member, the through hole cover member and the fastening member are attached to perform the pressure discharge operation of the viscous liquid, and then the pressurizing discharge operation is completed. And after removing the liquid feeding pipe means, the fixing member, the through hole cover member and the fastening member, the cone is lower than the cylindrical base of the fixing member. The outer peripheral surface of the shape does not have a viscous liquid, but is in a clean state. Therefore, there are the following advantages: Even in the next use, the same use as the first use can be used without any disadvantages. Furthermore, the present inventors have proposed a structure having a cylindrical hanging portion and a flexible cylindrical fitting portion as the second aspect of the inner plug member as a better inner cap. The cylindrical hanging portion is suspended from a central portion of the lower surface of the circular plate, and the flexible cylindrical fitting portion is suspended from a lower end circumferential edge portion of the cylindrical hanging portion. When the opening of the plastic container of the structure of the present invention and the liquid discharge port of the elongated flow path member are closed, the inner plug member is embedded in the strip shape when the inner plug cap according to the second aspect of the present invention is used. The flow path member penetrates the upper end portion of the flow path without invading the viscous liquid at the upper end portion of the through flow path, and the viscous liquid does not adhere to the upper end portion of the through flow path. Therefore, when the inner cover is removed, -17-201249542, there is no viscous liquid at the upper end portion of the through flow path, and no contamination occurs, and it becomes a clean state. In this state, the liquid feed pipe means is connected to the long flow path member, and the fixing member, the through hole cover member and the fastening member are attached to perform the pressure discharge operation of the viscous liquid, and then the pressurizing discharge operation is completed. In the state in which the liquid feeding pipe means, the fixing member, the through-hole cover member, and the fastening member are removed, the outer peripheral surface of the tapered portion of the lower end of the cylindrical base of the fixing member is free from viscous liquid, and is in a clean state. status. Therefore, there are the following advantages: Even in the next use, the same use as the first use can be used without any disadvantages. In the case where the inner plug member that is fitted in the liquid discharge port of the elongated flow path member is removed from the liquid discharge port, the cylindrical lower portion is provided as the inner plug member. Since the upper portion of the cylindrical lower portion is fixed and the lower end portion is hard and the mobility is extremely small, there is a problem that the cylindrical hanging portion is not easily pulled out due to being tightly fitted in the liquid discharge port. In the inner cover of the second aspect of the present invention, the inner plug member is formed with a flexible cylinder at the lower end of the cylindrical lower portion. Since the flexible cylindrical fitting portion has a lower end portion that is a free end, the flexible fitting portion has extremely high flexibility, and therefore has the following advantages: It is fitted to the elongated flow path member. When the inner plug member in the state of the liquid discharge port is removed from the liquid discharge port of the elongated flow path member, the liquid fitting outlet is not tightly fitted by the soft action of the cylindrical fitting portion, even if it exists somewhat Inequality during forming The liquid discharge from the outlet simply removed. -18- 201249542 Normally, when storing a plastic container filled with a viscous liquid or when transporting it at the site where the coating operation is performed, the opening of the plastic container is closed by a lid. However, since the plastic container of the plastic container is formed of a polyethylene film (moisture or moisture, oxygen can pass through), moisture or moisture present in the air will intrude into the plastic container. Although there is no problem in the case of being placed in the air for a short period of time, when it is left in the air for a long time, the following inferior situation occurs: in the case of moisture and oxygen-curing type viscous liquid, the hardening reaction will be borrowed. It is carried out by moisture or moisture invading the inside and oxygen. The plastic container in the sealed state of the present invention is not contained in moisture or oxygen which is formed by, for example, a multilayer sheet material containing at least one layer of an aluminum foil which does not pass moisture or moisture or oxygen. The plastic bag of the present invention is sealed in a sexual bag, so that the viscous liquid filled in the plastic container does not come into contact with moisture or oxygen in the air, and can avoid the accident of hardening by contact with moisture or oxygen. event. The plastic container in the bundled state of the present invention protects the plastic container of the sealed state of the present invention by the corrugated cardboard, and has the following advantages: the plastic container in the sealed state can be plastic container or wet on the way. The manner in which the gas or oxygen non-penetrating bag body is not broken or broken is safely carried in the state of protecting the bale to the site where the coating operation is performed. [Embodiment] Hereinafter, embodiments of the present invention will be described with reference to Figs. 1 to 23 and Figs. 28 to 42 of the drawings, but these are exemplified by -19-201249542 as long as they are not separated. The technical idea of the present invention can of course be variously changed. Fig. 1 is a cross-sectional explanatory view showing an embodiment in which the plastic container of the present invention is placed inside the pressure tank, and shows a state in which a viscous liquid full tank is filled in the plastic container body. In Fig. 1, reference numeral 10 is a plastic container of the present invention and has a plastic container body 12. The plastic container body 12 is formed of a flexible plastic material such as polyethylene or polypropylene so as to be crushed by pressurization, but in terms of flexibility, economy, and ease of formation. It is especially suitable for soft polyethylene. An opening portion 14 is opened in an upper portion of the plastic container body 12. The viscous liquid 16 can be filled inside the plastic container body 12. When the inside of the plastic container body 12 is filled with the viscous liquid 16, when the pressure is applied from the outside of the plastic container body 12, the plastic container body 12 is deformed and reduced by the pressurization, and functions. Therefore, it is finally crushed, and the internal viscous liquid 16 is pressurized and discharged from the opening portion 14 through the liquid delivery tube means 20. The material of the liquid supply pipe means 20 is preferably Teflon (registered trademark). As the viscous liquid 16, the viscosity can be applied to a viscosity of 5 to 50 Pa · s / 2 3 ° C, preferably 10 to 100 Pa.  A viscous liquid of s/23 ° C, more preferably 15 to 60 Pa · s / 3 ° ° C. As the viscous liquid 16 , a curable composition having an adhesive property is particularly preferably used as a curable composition having such an adhesive property, and examples thereof include an adhesive, a sealing material, a potting material, and the like. . The tack-free time (TFT) of the viscous liquid is suitably in the range of 0 to 60 minutes, preferably 〇 to 〇 -20 to 201249542 minutes, more preferably 〇 to 3 minutes. In the present invention, when the viscosity and the tack-releasing time are applied to the viscous liquid in the above range, it is possible to achieve a very large effect which is less likely to be contaminated than the conventional product. The curable composition having the above-mentioned adhesive property is preferably a room temperature curing type curable composition which can be cured at room temperature by contact with air such as a moisture curing type or an oxygen curing type, and is more preferably used. A moisture-curing adhesive such as a modified silicone, a polyurethane, or a sand oxide. Reference numeral 18 is a long-length flow path member, and is configured to have a function of being attached to the opening portion 14 so as to extend inside the plastic container body 12 and to pressurize the viscous liquid 16 A flow path for securing the viscous liquid 16 is formed at the time of discharge. The long-length flow path member 18 may be configured to function as a flow path for forming a viscous liquid, and various forms may be considered as will be described later. However, in the example of the first FIG. The upper end mounting portion 24 and the elongated flow path portion 26a are formed of an elongated cylindrical tubular body 30a integrally attached to the mounting portion 24 so as to extend inside the plastic container body 12. One or a plurality of (in the illustrated example, a plurality of) flow path holes 32 are opened in the side wall of the elongated cylindrical pipe body 30a. Reference numeral 28 is a lower end opening end portion of the elongated flow path member 18. Although the material of the long strip flow path member can be formed without special selection, from the viewpoint of ease of integration, a flexible plastic material such as polyethylene or polypropylene, nylon, fluororubber, silicone rubber, EPDM can be used. , SBS, SIS, SEBS, etc., and from the point of view of easy injection molding, cheaper - 201249542, olefin resin such as polyethylene or polypropylene is better, especially soft and cheap soft Polyethylene is preferred. The elongated flow path member may be a simple mold structure as long as the shape of the elongated flow path portion is appropriately selected when the upper end attachment portion is formed of a simple cylindrical (rotary body) structure, and the above-described A combination of materials is selected to produce a long strip-shaped flow path member at low cost. In Fig. 1, reference numeral 22 denotes a pressurizing groove, and is configured to introduce pressurized air into the air from a compressed air supply means (not shown) through the air supply pipe 21. The plastic container 10 of the present invention is used in a state of being placed in the pressurizing tank 22 when it is used, and as shown in Fig. 2, the following action is taken: pressure is applied from the outside of the plastic container 10 (for example) , pressurization conditions 0. 3 to 0. 6MPa), the plastic container body 12 is press-deformed to discharge the internal viscous liquid 16 from the opening portion 14 through the liquid delivery tube means 20, and finally, as shown in Fig. 3, the plastic container body 12 is subjected to addition. The pressure is completely flattened so that the viscous liquid 16 accommodated therein can be completely discharged. Further, as shown in Fig. 3, the completely flattened plastic container 10, in other words, the plastic container body 12 and the above-mentioned elongated flow path member 18 are no longer used, and can be disposed of in a state where the flattened state is maintained. For example, when the long-length flow path member 18 is reused, the long-length flow path member 18 after use is removed from the plastic container body 12, but the viscous liquid attached to the elongated flow path member 18 at that time is used. In the present invention, since the elongated flow path member 18 can be directly discarded together with the plastic container body 12, there is an advantage that such contamination does not occur at all. -22-201249542 Fig. 4 is an explanatory view showing a first example of the elongated flow path member used in the plastic container of the present invention; (a) is a top view; (b) is a cross-sectional explanatory view. Fig. 5 is a view showing a long flow path member similar to Fig. 4; (a) is a perspective explanatory view showing the entire portion; (b) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed. . As shown in FIGS. 4 and 5, the long-length flow path member 18' has an upper end attachment portion 24 that is attached to the opening portion 14 of the plastic container body 12 and has a liquid discharge at the center portion. The outlet 23 and the elongated flow path portion 26a are integrally attached to the mounting portion 24 so as to extend inside the plastic container body 12, and a through flow path 25a is formed in the center portion. The upper end attachment portion 24 has an inner peripheral wall 27 that forms a liquid discharge port 23, and an outer peripheral wall 31 that is provided at a position separated from the inner peripheral wall 27 by a predetermined interval by a support wall 29. The inner peripheral wall 27 has an inner diameter such that the upper portion has a larger diameter than the lower portion and the upper end surface of the inner peripheral wall is formed as a tapered portion 33 which is inclined toward the inner side. The upper end portion of the outer peripheral wall 31 is bent outward to form an outer peripheral portion 35. The long-length channel member 18 is detachably attached to the opening portion 14 by fitting the outer peripheral portion 35 to the outer peripheral edge portion of the opening portion 14 of the plastic container body 12. Since the opening portion 14 of the plastic container main body 12 is formed into a wide opening, when the long flow path member 18 is detachably attached to the opening portion 14, the long strip may not be fitted. In the state of the flow path member 18, when the viscous liquid 16 is injected into the plastic container body 1 2, the viscous liquid 16 is injected from the wide opening portion 14 and is provided at the end of the injection. Then, the long flow path member 18 is fitted in the order of -23-201249542 of the opening portion 14, and there is an advantage that the viscous liquid can be injected without any hindrance. On the other hand, when the elongated flow path member 18 is attached to the opening portion 14 in advance, the viscous liquid 16 is injected into the viscous liquid through the opening of the elongated flow path member 18 into a narrow liquid discharge port 23 The liquid 16 is injected, and the injection operation is inferior to the case of using the wide opening portion 14 to cause an obstacle in the injection operation. The long flow path member 18 must function as follows: even in a state where the plastic container body 12 is finally crushed, the viscous liquid 16 remaining inside the plastic container body 12 can be discharged or discharged. In the example of the first to fifth figures, the long flow path portion 26a as the long flow path member 18 is shown on the side wall of the elongated cylindrical pipe body 30a having the lower end as the open end portion 28. There are one or a plurality of (multiple in the example of the figure) configuration of the flow path hole 3 2 . According to the elongated flow path member 18 of this structure, even if the plastic container body 12 is crushed, the open end portion 28 of the lower end and one or a plurality of flow path holes 32 can maintain the open state and rise. The action of the discharge flow path of the viscous liquid 16 is ensured. In the above configuration, since the flow path hole 32 is in an open state, the viscous liquid 16 first passes through the flow path hole 3 2 and then passes through the liquid discharge port 2 3 and the opening portion 14 to finally permeate the liquid. The pipe feeding means 20 is pressurized and discharged. Further, as long as the flow path hole 32 is sufficiently opened, the opening of the lower end opening portion 28 is of course unnecessary, and sufficient flow path can be secured even if the opening is blocked. Even in the state in which the above-described plastic container main body 12 is finally crushed, the structure of the long flow path portion capable of discharging or discharging the viscous liquid 16 remaining inside the plastic container main body 12 is provided. In addition to the structures shown in Figs. 4 and 5, which are shown in Figures 4 and 2012495, various aspects can be considered and described below. Fig. 6 is a view showing a second example of the elongated flow path member; wherein (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed: (b) the plastic container body is displayed by adding The above description of the state in which the flow path is formed in a state of being crushed and pressed. The elongated flow path portion 26b of the elongated flow path member 18 shown in Fig. 6 shows that the through flow path 25b is opened in the center portion, and the lower end is regarded as the open end portion 28 and the lower end side portion is formed. The structure of the elongated cylindrical pipe body 30b having the cutout portion 37 is opened. The slit portion 37 is provided with one or a plurality of slits. Even in the case of this configuration, as shown in Fig. 6(b), the flow path can be formed even in a state where the plastic container body 12 is crushed by pressurization, and even the plastic container body 12 is formed. The flattened end portion 28 of the lower end and one or a plurality of slit portions 37 are also capable of maintaining the open state and functioning as a discharge passage for securing the viscous liquid 16. Further, as long as the slit portion 37 is sufficiently opened, the opening of the lower end opening portion 28 is of course unnecessary, and sufficient flow path can be secured even if the opening is blocked. Fig. 7 is a view showing a third example of the elongated flow path member; wherein (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed; (b) the plastic container body is displayed by adding The above description of the state in which the flow path is formed in a state of being crushed and pressed. The elongated flow path portion 26c of the elongated flow path member 18 shown in Fig. 7 shows that the through flow path 25c is opened in the center portion, and the lower end is regarded as the open end portion 28 and the lower end side portion is formed. The structure of the elongated corner column body 30c having the cutout portion 37 is opened. Even in the case of the structure of the present invention, as shown in Fig. 7(b), the flow path can be formed even in a state where the plastic container body 12 is crushed by pressurization, and even if The plastic container body 12 is crushed, and either one of the open end portion 28 of the lower end and one or a plurality of slit portions 37 can maintain the open state and function as a discharge passage for securing the viscous liquid 16. Further, as long as the slit portion 37 is sufficiently opened, the opening of the lower end opening portion 28 is of course unnecessary, and sufficient flow passage can be ensured even if the lock is closed. Fig. 8 shows the elongated flow path member. In the drawing of the fourth example, a perspective view in which only the long portion is displayed is omitted. The long flow path portion 26d of the elongated flow path member 18 shown in Fig. 8 shows a strip shape in which the through flow path 25d is opened in the center portion and the lower end is regarded as the open end portion 28. The side wall of the cylindrical pipe body 30d is provided with one or a plurality of slits 39. According to the elongated flow path member 18 of this configuration, even if the plastic container body 12 is crushed, the open end portion 28 of the lower end and one or a plurality of slits 39 can maintain the open state and ensure adhesion. Further, as long as the slit 39 is sufficiently opened, the opening of the lower end opening portion 28 is of course unnecessary, and sufficient flow path can be secured even if the slit is closed. Figure 9 is a view showing a fifth example of the elongated flow path member; (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed; The above description of the formation state of the flow path in a state of being pressed and crushed; and (c) is the same pattern as (b), but it is formed by four points of the peripheral portion acting on the flow path. The above diagram is illustrated. The strip-shaped flow path portion 26e of the long-length flow path member 18 shown in Fig. 9 is formed by radially extending from the center portion at equal intervals (a state intersecting with a right angle). The sheet-like body 36 has a shape in which the plate-like body 36 is disposed in a cross shape. According to the elongated flow path member 18 of this configuration, even if the plastic container body 12 is crushed, as shown in Fig. 9(b), the four spaces 38 formed by the four plate-like bodies 36 can be omitted. The opening state is maintained in an occluded state and functions to ensure the discharge flow path of the viscous liquid 16 . Although Fig. 9(b) shows the shape in which the upper cross-shaped plate-like body is disposed, it is not necessary to necessarily arrange the upper cross-shaped plate-like body as shown in Fig. 9(c), even from above. It can also be seen that the flow path forming point 3 6a having only four points in the peripheral portion can form a flow path. Fig. 10 is a view showing a sixth example of the elongated flow path member; although (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed; (b) is a display of the plastic container body. The above description of the formation state of the flow path in a state of being crushed by pressurization; and (c) is the same pattern as (b), but it is formed by four points of the peripheral portion only in the flow path. The above illustration. The elongated flow path portion 26f of the elongated flow path member 18 shown in Fig. 10 is provided with two plate-like bodies 40 facing the both ends of the plate-shaped support column 42, and has a plate-like body 40. The plate-shaped support column 42 is disposed in a U shape. According to the elongated flow path member 18 of this configuration, even if the plastic container body 12 is crushed, as shown in Fig. 10(b), 2 formed by the two plate-like bodies 40 and the plate-like support columns 42 The space 44 can also maintain the open state without being blocked and function to ensure the discharge flow path of the viscous liquid 16. In the first diagram (b), the plate-like body 40 and the plate-like support column 42 are arranged in a U-shaped shape. However, it is not necessary to have the plate-like body 40 and the plate shape. The support column 42 is arranged in a U-shaped shape as shown in FIG. 1(C), and even if there is only a flow path forming point 4 0 a of the peripheral portion, the flow path can be formed from the above. The figure shows a pattern of the seventh example of the long-shaped flow path member, and shows a state in which the flow path of the plastic container body is crushed by pressurization, and shows only the peripheral portion. The above diagram is applied to the formation of the flow path. In the ninth and first drawings, it has been described that by forming a flow path forming point at four points in the peripheral portion, even if the plastic container body 12 is crushed, it can be formed by the four-point flow path. The flow path is ensured by the presence of a dot, but in the figure, a case where the flow path forming point 45 of 6 points is formed is taken as an example. Further, the number of points for securing the flow path is not limited to four or six. As long as the polygonal shape is formed, it is of course possible to secure the flow path by forming more flow path forming points. Fig. 12 is a perspective view showing an eighth example of the elongated flow path member, and showing only the long portion in order to omit the upper end portion. The long-length flow path portion 26g of the long-length flow path member 18 shown in Fig. 12 is a spiral-shaped linear body 46 in which a linear body is formed into a spiral shape, and the spiral-shaped linear shape is used. The central portion cavity 48 of the body 46 serves as a flow path space, and has a structure in which the opening end portion 50 is formed at the lower end and a predetermined gap 52 is formed between the linear bodies. In the case of this configuration, even if the plastic container body 12 is crushed by pressurization, the central portion cavity 48 formed by the spiral linear body 46 is not blocked, and the lower end open end portion 50 is closed. The gap 52 can maintain the open state and function to ensure the discharge flow path of the viscous liquid 16. -28-201249542 Fig. 1 is a perspective view showing a ninth example of the elongated flow path member, and showing only the long portion in order to omit the upper end portion. The long-length flow path portion 26h of the long-length flow path member 18 shown in Fig. 13 shows a mesh cylinder 53 in which a mesh body is formed into a cylindrical shape, The central portion cavity 54 of the mesh cylinder 53 serves as a flow path space, and an open end portion 56 is formed at the lower end, and a plurality of mesh voids 58 are formed in the mesh cylindrical body 53. In the case of this configuration, even if the plastic container body 12 is crushed by pressurization, the central portion cavity 54 formed by the mesh cylinder 53 is not blocked, and the lower end opening portion 56 is closed. The mesh gap 58 can maintain the open state and function to ensure the discharge flow path of the viscous liquid 16. The viscous liquid 166 is an oxy-curing type which is cured by contact with a moisture-curable adhesive which is hardened by contact with moisture in the air or hardened by contact with oxygen in the air. When the curable composition is used as a target, it is possible to completely prevent the occurrence of contamination due to the scattering of the viscous liquid as described above and to simplify the coating operation of the curable composition described above. The coating operation enables a large work improvement. Next, a coating apparatus of the present invention using the plastic container of the present invention and applying a viscous liquid will be described based on Fig. 14. Fig. 14 is an explanatory view showing a schematic configuration of a coating apparatus of the present invention. In Fig. 14, reference numeral 60 denotes a coating apparatus of the present invention, and has a pressurizing tank 22» in which the plastic container 10 of the present invention is provided. The plastic container 1 has a plastic container body 12 and an elongated flow path member 18. No. -29-201249542 is a compressed air supply means, and supplies compressed air to the pressurizing tank 22 through the air supply pipe 2i. Reference numeral 20 is a liquid feeding means for supplying a viscous liquid, and one end of the liquid feeding means 20 is communicated with the opening portion 14 of the plastic container body 12, and the other end of the liquid feeding tube means 20 is connected and coated. The nozzle means 64 serves to supply the viscous liquid filled in the plastic container 10 to the coating nozzle means 64. Symbols 66 and 68 are an open-side air supply pipe and a closed-side air supply pipe that connect the compressed air supply means 62 and the coating nozzle means 64, and turn on/off (ΟΝ/OFF) of the coating nozzle means 64, respectively. As described above, the long-length flow path member 18 of the plastic container 10 has an upper end attachment portion 24 that is detachably attached to the opening portion 14 of the plastic container body 12 and has a liquid at the center portion. The discharge port 23; and the elongated flow path portion 26a are integrally attached to the mounting portion 24 so as to extend inside the plastic container body 12, and the elongated flow path member 18 is configured The opening portion 14 is detachably attached to the opening portion 14. A method of fitting the upper end mounting portion 24 of the elongated flow path member 18 to the opening portion 14 of the plastic container body 12 and inserting the liquid feeding tube means 20 into the upper end mounting portion 24 is suitable. The liquid discharge port 23 is inserted into the liquid discharge port 23 in a sealed state by the sealing insertion means 70 having the configuration shown in Fig. 15. The above-described seal insertion means 70 will be described with reference to Figs. 15 and 16. The seal insertion means 70 has a fixing member 72. The fixing member 72 has a cylindrical base 74 having an insertion opening 73 at a central portion thereof, and a ring 30-201249542-shaped crotch portion 75 is formed on the outer surface of the lower portion of the cylindrical base 74. The cylindrical base body 74 and the lower surface shape of the annular flange portion 75 are formed to have a shape corresponding to the upper shape of the upper end mounting portion 24 of the elongated flow path member 18 and above the annular flange portion 75. A receiving portion 76 is formed and a male thread portion 78 is formed on the outer portion of the upper portion of the cylindrical base 74. A tapered portion 79 that is inclined toward the inner side is formed at a lower end portion of the cylindrical base body 74. Reference numeral 80 is a through-hole cover member, and a through-hole 84 that abuts against the receiving section 76 is opened at a central portion of the circular plate 82 and an annular side wall is provided from a peripheral portion of the circular plate 82. A female thread portion 88 that can be screwed to the male screw portion 14b formed on the outer surface of the cylindrical side wall 14a of the opening portion 14 of the plastic container body 12 is formed on the inner surface of the inner surface 86. Reference numeral 90 is a fastening member, and has a cylindrical member 91 through which a center hole 92 is bored at a center portion, and a lower portion of the inner peripheral surface of the cylindrical member 91 is formed with a fastening female thread portion 94. The upper portion of the center hole 92 of the fastening member 90 is formed so as to gradually decrease in diameter toward the upper portion as shown in Fig. 16. The liquid supply pipe means 20 is inserted into the liquid discharge port 2 3 in a sealed state by the above-described sealing insertion means 70. The fixing member 72 abuts on the upper surface of the upper end mounting portion 24 of the elongated flow path member 18, and transmits the liquid feeding tube means through the center hole 92 of the fastening member 90 and the insertion opening 73 of the fixing member 72. 2〇 is inserted into the liquid discharge port 2 3 of the upper end mounting portion 24 of the long-length flow path member 18, and the through hole 84 of the through-hole cover member 80 is inserted into the receiving section 7 6 In the state, the female screw portion 8 of the through-hole cover member 8 is screwed to the cylindrical side wall of the opening portion 14 of the plastic container body 1 -31 - 201249542, and is fixed in the shape of > 94 The end portion and the upper portion of the upper portion 27 are seen to be locked by the male thread portion 14b of the square 14a, and then the fastening female thread portion 94 of the inner surface of the center hole of the tightening member 90 is screwed to the foregoing The male screw portion 78 on the outer surface of the upper portion of the member 72 is locked by a screw, whereby the liquid feed pipe means 20 can be inserted into the liquid discharge port 23 of the upper end mounting portion 24 of the long flow path member 18 in a sealed state. Further, as described above, since the diameter of the center hole 92 is gradually reduced toward the upper portion, the upper portion of the insertion opening 73 of the fixing member 72 is locked by screwing the female thread portion at the male screw portion 78. As a result, it is pinched, and as a result, the fixed liquid supply means 20 is locked, thereby functioning as a sealing member 72 between the fixing members 72. The upper mounting portion 24 of the elongated flow path member 18 shown in Figs. 15 and 16 has an inner peripheral wall 27 that forms a liquid discharge port 23, and is provided to be partitioned from the inner peripheral wall 27 by a support wall 29. The outer peripheral wall 3 1 at a predetermined interval therebetween is formed, and the inner peripheral wall 27 has an inner diameter which is larger than the lower portion and the upper end surface of the inner peripheral wall 27 is tapered toward the inner side. . On the other hand, the lower end portion of the cylindrical member 74 of the fixing member 72 is a tapered portion 79 which is inclined toward the inner side. Therefore, when the fixing member 72 abuts against the end fitting portion 24 of the elongated flow path member 18. In the case of Fig. 15, the upper end tapered portion 33 of the inner peripheral wall and the lower end tapered portion 79 of the cylindrical base 74 abut each other to form a sealed state. The material of the fixing member 72 is preferably 6-nylon from the viewpoint of toughness, and it is suitable to use high-density polycondensation from the viewpoint of ease of wiping of the adhered viscous liquid. Ethylene (HDPE). The material of the through-hole cover member 80 of the above-mentioned attachment-32-201249542 is only required to use a rigid polyethylene, and the material of the fastening member 90 is preferably a polyacetal having a lubricating property. Further, in the example of the drawing of Fig. 15, the lower end portion of the liquid feeding tube means 20 is set to be flush with the lower end surface of the cylindrical base 74 of the fixing member 72, but the liquid supply is configured as described above. The lower end portion of the pipe means 20 is suspended downward from the fixing member 72 without being a free end, and there is an advantage that since the viscous liquid 16 is restricted from scattering at the lower end of the liquid feeding pipe means 20, the occurrence of contamination is largely eliminated. In addition, the liquid feeding pipe means 20 may be suspended until the lower end portion of the liquid feeding pipe means 20 is inserted into the liquid discharge port 23 of the elongated flow path member 18, but the length of the hanging down is formed. Small, the less the pollution occurs. In the following example, the setting of the lower end portion of the liquid feed pipe means 20 is performed in the same manner as in the fifth embodiment, but the description thereof will be omitted. The combination of the shape of the upper surface of the upper end mounting portion 24 and the shape of the lower surface of the fixing member 72 of the elongated flow path member 18 shown in Fig. 15 can be considered from the 17th to the 21 to make further explanation. The structural example shown in Fig. 7 is the upper end tapered portion 33 of the inner peripheral wall 27 of the upper end mounting portion 24 of the elongated flow path member 18 and the lower end tapered portion 79 of the cylindrical base 74 of the fixing member 72. The direction in which the taper is inclined is the same as that in Fig. 5 except that the inversion in Fig. 5 is reversed and the inner diameter of the inner peripheral wall 27 is the same as the diameter of the upper portion and the lower portion. In this case, as in the case of FIG. 15, when the fixing member 72-33-201249542 is brought into contact with the upper end mounting portion 24 of the elongated flow path member 18, as shown in FIG. The upper end tapered portion 33 of the inner peripheral wall 27 and the lower end tapered portion 79 of the cylindrical base 74 abut against each other to form a sealed state. In the structural example shown in Fig. 18, the inner peripheral wall 27 of the upper end mounting portion 24 of the elongated flow path member 18 can be omitted, and the diameter of the liquid discharge port 23 is larger than the diameter of the through flow path 25a. Further, the length of the lower end portion of the cylindrical base 74 of the fixing member 72 is extended to the lower side of the support wall 29, and the rest has the same configuration as that of Fig. 15. In this case, the lower end tapered portion 79 of the cylindrical base 74 abuts against the inner peripheral edge portion of the support wall 29 to form a sealed state. In the structural example shown in Fig. 19, the structural example of Fig. 17 is further changed, and the lower end tapered portion 79 of the cylindrical base 74 of the fixing member 72 is omitted and the lower surface of the cylindrical base 74 is integrally formed with the same surface. The upper end of the upper end tapered portion 33 of the inner peripheral wall 27 of the upper end attachment portion 24 of the elongated flow path member 18 is in contact with the lower surface of the cylindrical base 74. The structural examples shown in Figs. 20 and 21 (a) and (b) show an example in which the auxiliary annular member 95 is used to further improve the sealing action. The auxiliary annular member 95 has a through hole 96 at the center portion, and an annular tapered portion 98 is provided on the outer peripheral surface of the lower end portion. The structural examples shown in Figs. 20 and 21 (a) and (b) are basically similar to the structural examples shown in Fig. 7 and 7, but differ in the structural examples of Fig. 17 When the fixing member 72 and the fastening member 90 are screwed together, the above-described auxiliary annular member 95 is interposed. Further, in the structural example of -34-201249542 of Fig. 17, the insertion tapered portion 74a is formed on the outer surface of the upper end portion of the cylindrical base 74 of the fixing member 72, and the front end portion of the cylindrical base 74 is formed. It is easy to be inserted into the center hole 92 of the fastening member 90, but in Figs. 20 and 21, the upper end portion of the cylindrical base 74 of the fixing member 72 is intended to receive the ring of the lower end portion of the above-described auxiliary annular member 95. The tapered tapered portion 98 is formed with a receiving tapered portion 74b on the inner surface of the upper end portion of the cylindrical base 74. Further, a configuration is adopted in which an inner peripheral portion 91a is formed on the inner peripheral surface of the upper end of the cylindrical member 91 of the fastening member 90, and the auxiliary annular member 95 is inserted into the center hole 92 of the fastening member 90. The inner circumferential portion 91a abuts against and is fitted to the upper side of the annular tapered portion 9 8 . Further, the auxiliary annular member 95 may be formed of a plastic material, but is preferably formed of nylon. In the structural examples shown in FIGS. 21(a) and (b), although the configuration in which the auxiliary annular member 95 is inserted into the center hole 92 of the fastening member 90 has been shown, except for the auxiliary annular member 95. As long as it is a member that plays the same function, it can be used, and a one-touch joint mechanism can also be applied, and an example thereof is shown in Fig. 21(c). In Fig. 21(c), reference numeral 120 is a fastening member provided with a one-touch joint mechanism, and has a stepped cylindrical member 222. A center insertion hole 124 is bored in the attachment differential cylindrical member 122. A small-diameter cylindrical portion 丨26 is formed in a lower portion of the stepped cylindrical member 12, and a large-diameter cylindrical portion 128 is provided at an upper portion thereof. A mother is formed on an inner peripheral surface of the small-diameter cylindrical portion 126. Threaded portion 1 300. Reference numeral 1 3 2 is a packing disposed in the annular segment space of the upper portion of the stepped cylindrical member 122. A lock claw 134 is attached to the pad -35 - 201249542 132. Symbol 136 is a sleeve and acts to press the locking pawl 134. The symbol 138 is a compression block and the effect of the compression sleeve 136 occurs. The liquid delivery pipe means 20 is inserted into the center insertion hole 124 of the fastening member 120 provided with the one-touch joint mechanism in a sealed state. In addition, the structure of the one-touch joint is variously known, and in addition to the above-described structure, it is also applicable to Japanese special Kaiping 1-206196, Shikaiping 4-35669, Practical new case registration No. 2575755, and practical use. The construction of the one-touch joint described in the publication No. 2524012 or the like is incorporated. The action of the coating apparatus of the present invention will be described by the above configuration. First, when compressed air is supplied from the compressed air supply means 62 through the air supply pipe 21 to the pressurizing tank 22, as shown in Fig. 1, it is provided in the pressurizing tank 22 and is full (full) In the tank state, the aforementioned plastic container 1 filled with the viscous liquid 16 is pressurized. Next, as shown in Fig. 2, the plastic container 10 is reduced in deformation by pressurization, and the viscous liquid 16 inside is discharged through the long flow path member 18 from the plastic container. Then, the discharged viscous liquid 16 is discharged from the coating nozzle means 64 by the liquid supply pipe means 20, and the viscous liquid 16 is applied to a predetermined portion. In the coating operation, in a state where all of the viscous liquid 16 is discharged and used, as shown in Fig. 3, the plastic container 10 is crushed by pressurization. At this time, the viscous liquid 16 which has been filled in the inside of the plastic container 10 is all discharged by pressure without being present, and becomes only the plastic container body 12 and the long flow path member which remain after being crushed. The state of 1 8 . Then, as shown in Fig. 22, the lid body 22b is removed from the body - 22a of the groove - 36 - 201249542 of the pressurizing tank 22, and then the used plastic container 10 in the form of a flattened shape, in other words, the plastic container body The combination of the 12 and the elongated flow member 18 is removed and the fixed member 72, the through-hole cover member 80, the fastening member 90, and the liquid delivery tube means 20 are separated and separated (Fig. 23). The composite of the plastic container body 1 2 and the elongated flow path member 18 in the groove body 22a can be disposed of by disposal. When the long flow path member 18 is to be taken out from the plastic container 1 in the squashed state and reused, the viscous liquid adhering to the long path member 18 may be scattered to cause contamination. The cause of the work site is unfavorable, but in the present invention, since the plastic container 10 that has been crushed, in other words, the plastic container body 12 and the elongated flow path member 18 are formed in a wasteable manner, there is a direct It is discarded and does not have the advantages of dyeing as described above. Further, in the apparatus in which the elongated flow path member of the present invention is not disposed in the plastic device 106, the liquid delivery tube means 11 is extended into the plastic container 106 and inserted into the viscous liquid 112 for use. In this case, the following accident occurs: when the tip end of the liquid feed pipe means 1 10 is closed, the flow path can be easily closed, so that the viscous liquid 1 1 2 in the plastic container 106 cannot be discharged in its entirety, but Even if the viscous liquid 1丨2 can be completely discharged, as shown in Fig. 24, when the tank body 102b' from the tank body l〇2a of the pressurizing tank 1〇2 is removed, and the liquid feeding means is removed from the plastic container 1〇6 1 1 〇 〇 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 附着 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' Viscous liquid 1 12, and there are many troublesome problems, 22, when the flow is made, the container is dirty, sometimes the volume is removed. -37- 201249542 More, at that time, as long as it is wiped clean, but when In the case of repeated use, the scum of the viscous liquid 1 1 2 (for example, the hardened adhesive) may adhere to the liquid feeding means, and the slag may be easily mixed when the liquid feeding means 110 is used again. In the viscous liquid 112, causing a coating nozzle Blockage of the respective segment members and the like, etc., and can not occur inconvenience viscous fluid 112 (e.g., adhesive) of the coating or the like. In particular, in the case of the moisture-curing type adhesive, the scum of the adhesive agent tends to occur, and clogging of each member such as the coating nozzle means becomes remarkable. More specifically, it is used when applying a viscous liquid such as a moisture-curing adhesive. In the pressurized tank, the pressure is generally 0. 3 to 0. About 6MPa. Therefore, in order to withstand the pressure and maintain a high sealability, the lid system of the pressure-tight tank is formed to be thick and has a weight (for example, a weight of about 6 to 10 kg). Therefore, the switching operation of the plastic container is usually borrowed. It is carried out by the exchange of the plastic containers in which the other two are in the process of picking up the lids and picking up the lids. When the plastic container containing the viscous liquid is exchanged after the end of the coating operation, as shown in Fig. 24, it is necessary to perform the following operations: removing the cover body and removing the liquid supply pipe means from the plastic container to discard the old one. Plastic container, secondly, the new plastic container is stored in the pressurized tank and the long liquid feeding tube means is inserted into the plastic container, and the viscous liquid, such as an adhesive, is often used to send the tube from the liquid. The front end is scattered and causes pollution to occur. In addition, when a type of moisture-curing adhesive having a high curing speed (3 minutes to 10 minutes hardening) is used as the viscous liquid, the operation is required to be carried out because of the special speed -38-201249542 speed. It is difficult. Thus, various problems in the case of using only the conventional liquid feeding means can be completely eliminated by the use of the plastic container 1 provided with the elongated flow path member 18 of the present invention. For example, the above-described switching operation of the plastic container is performed by three people as described above, and by using the plastic container of the present invention, it is possible to have two (one in the other one during the period in which the lid is lifted up) The plastic container, the elongated flow path member and the coating device of the present invention can be effectively eliminated in the industry by performing the exchange of the plastic container containing the long liquid feeding means. Knowing this is the above problem of a larger problem, and has a very large advantage. As a means for eliminating the problem of contamination caused by the viscous liquid 16 scattering from the front end portion of the liquid delivery tube means 20, the liquid delivery tube is used as described in the description of the example of Fig. 15 It is effective that the front end portion of the means 20 does not protrude downward from the fixing member 72. In the following, the cover used to close the opening of the plastic container body when the plastic container of the present invention is stored or transported in a state in which the viscous liquid is contained is described in the drawings. Figs. 28 to 30 show the case where the opening portion 14 of the plastic container body 12 is closed by a cover of a general configuration. Fig. 28 is a view showing the structure of a general cover used for occluding the opening of the plastic container body of the plastic container of the present invention; wherein (a) is a top perspective view; (b) is a cross-sectional explanatory view. Fig. 29 is a view showing a state in which the opening portion of the plastic container body is closed by the cap shown in Fig. 28; (a) is a top view; (b) is a cross-sectional explanatory view. Fig. 30 is an exploded view showing the decomposition of each member of Fig. 29 - 39- 201249542. In Figs. 28 to 30, reference numeral 200 is a cover of a general configuration. The cover 200 has a cover body 208 that forms a female screw portion 206 on the inner surface side of the annular side wall 204 that is suspended from the peripheral edge portion of the circular plate 202. The female screw portion 206 can be formed on the plastic body. The male screw portion 14b on the outer surface of the cylindrical side wall 14a of the opening portion 14 of the container body 12 is screwed. As shown in Fig. 29(b), in the state in which the elongated flow path member 18 is attached to the upper end attachment portion 24 in the opening portion 14 of the plastic container body 12, the male thread portion of the plastic container body 12 is attached. The female screw portion 206 of the lid body 208 is screwed and fastened, whereby the lid 200 functions to be attached to the opening portion 14 of the plastic container body 12 and closes the opening portion 14. The plastic container 10 in which the viscous liquid 16 is sealed is closed by filling the inside of the plastic container body 12 with the viscous liquid 16 and closing the opening 14 with the lid 200. The action of the case where the opening portion 14 of the plastic container 1 of the present invention is closed by the cover 200 of the above-described general configuration will be described with reference to Fig. 37. Figure 37 is a cross-sectional explanatory view showing a state in which contamination is caused by a viscous liquid when the opening of the plastic container of the present invention is closed by a cover having a general structure; wherein (a) shows a cover for occluding the plastic container (b) shows the state after the cover is removed from the state of (a): (c) shows that the liquid feed pipe means is connected to the elongated flow path member, and the fixing member and the through hole are attached. The lid member and the fastening member are in a state in which the viscous liquid 16 is pressurized and discharged; (d) the state in which the pressurizing and discharging operation is completed, the fixing member is removed, and the through-hole cover member and the fastening member are attached. 40-201249542 As shown in Fig. 37(a), when the cover portion 200 of the above-described general structure is used for occluding the opening portion 14 of the plastic container 10 of the present invention, when the cover 200 is removed, as in the 37th The viscous liquid 16 shown in Fig. (b) adheres to the inner surface portion of the circular plate 202 that abuts against the liquid discharge port 23, and is positioned at the upper end portion of the inner peripheral surface of the elongated flow path member 18. From this state, as shown in Fig. 3(c), the liquid feed pipe means 20 is communicated with the elongated flow path member 18, and the fixing member 72, the through hole cover member 80, and the fastening member 90 are attached. The pressurizing and discharging operation of the viscous liquid 16 is performed, and when the pressurizing and discharging operation is completed and the liquid feeding pipe means 20, the fixing member 72, the through hole cover member 80, and the fastening member 90 are removed, as in the third 7 As shown in Fig. (d), the outer peripheral surface of the tapered portion 79 at the lower end of the cylindrical base 74 of the fixing member 72 is contaminated by the adhesion of the viscous liquid 16. When the adhered viscous liquid 16 hardens as time passes, the fitting of the lower end tapered portion 79 and the upper end tapered portion 33 of the elongated flow path member 18 becomes difficult, or when the situation becomes serious At this time, there is a state in which it is impossible to be fitted, and there is a disadvantage that the next use is unfavorable or unusable. In order to eliminate the disadvantages caused by the use of the cover of the above-described general configuration, the inventors propose an inner cap 200A having the first aspect of the cap body 208A and the inner plug member 210, which is attached to the cap body 208A. The inner surface side of the annular side wall on which the peripheral portion of the circular plate is suspended is formed by a female screw portion that can be screwed to a male screw portion formed on the outer surface of the cylindrical side wall of the opening of the plastic container body, and the inner plug member is A central portion of the lower surface of the circular plate is fitted to the liquid discharge port of the elongated flow path member. A configuration example of the first to fourth to fourth embodiment of the present invention is described with reference to Figs. 31 to 33. Fig. 31 is a view showing an example of the structure of the inner cap of the present invention used for sealing the opening of the plastic container body of the plastic container of the present invention; wherein (a) is a top perspective view; ) is a cross-sectional illustration. Fig. 32 is a view showing a state in which the opening of the plastic container body is closed by the inner cap shown in Fig. 31; (a) is a top view; (b) is a cross-sectional explanatory view. Fig. 33 is an exploded explanatory view showing the decomposition of each member of Fig. 32. In the 31st to 33rd drawings, reference numeral 200A denotes an inner cap of the first aspect of the invention. The inner cap 200A has a cap body 208A formed with a female screw portion 206 on the inner surface side of the annular side wall 204 that is suspended from the peripheral edge portion of the circular plate 202, and the female screw portion 206 is capable of The male screw portion I4b formed on the outer surface of the cylindrical side wall 14a of the opening portion 14 of the plastic container body 12 is screwed. Reference numeral 210 is an inner plug member, and has a cylindrical hanging portion 210a which is suspended from a central portion of the lower surface of the circular plate 202, and the cylindrical suspended lower portion 210a is connected to the elongated flow path member 18 As shown in FIG. 32 (b), the elongated flow path member 18 is attached to the upper end mounting portion 24 in the opening portion 14 of the plastic container body 12, and is attached. The cylindrical hanging portion 210a of the inner plug member 210 is placed in a state of being fitted to the liquid discharge port 23 of the elongated flow path member 18, and the male screw portion 14b of the plastic container body 12 is screwed into the cover. The female screw portion 206 of the main body 208A is fastened, whereby the cover 200A functions to be attached to the opening portion 14 of the plastic container body 12 and closes the opening portion 14 and the liquid discharge port 23. The plastic container 1 in which the viscous liquid 16 is sealed is closed by clogging the liquid 16 in the inside of the plastic container body 12 and closing the opening 14 and the liquid discharge port 23 with the lid 200A. The action of the case where the opening portion 14 of the plastic container 1 of the present invention is closed by the inner cap 200A of the first aspect described above will be described with reference to Fig. 38. FIG. 3 is a cross-sectional explanatory view showing a state in which contamination is caused by a viscous liquid when the opening of the plastic container of the present invention is closed by the inner cap of the first aspect of the present invention; wherein (a) is a The state in which the opening of the plastic container is closed by the inner cap is displayed; (b) shows the state after the cap is removed from the state of (a); (c) shows that the liquid feeding means is connected to the long a strip-shaped flow path member, in which a fixing member, a through-hole cover member and a fastening member are attached, and a pressurized discharge operation of the viscous liquid 16 is performed; (d) showing that the pressurizing discharge operation is completed and the fixing member is removed, The state after the through hole cover member and the fastening member are attached. When the opening portion 14 of the plastic container 10 of the present invention and the liquid discharge port 23 of the elongated flow path member 18 are closed, the inner cap 200A of the first aspect of the present invention is used, as shown in Fig. 38. (a), the inner plug member 210 is in a state of being embedded in the upper end portion of the long flow path member 18 through the flow path 25a, and does not invade the viscous liquid 16 at the upper end portion of the through flow path 25a, and The viscous liquid does not adhere to the upper end portion of the through flow path 25a. Therefore, as shown in Fig. 38(b), when the inner cap 200A is removed, the viscous liquid 16 does not exist at the upper end portion of the through flow path 25a, and contamination does not occur, and the state is clean. From this state, as shown in Fig. 3(c), the liquid feed pipe means 20 is communicated with the elongated flow path member 丨8, and the fixing member 72 is attached, and the through-43-201249542 hole cover member 80 is tightly attached. The solid member 90 is subjected to the pressure discharge operation of the viscous liquid 16 and the state after the pressurization discharge operation is completed and the liquid feed pipe means 20, the fixing member 72, the through hole cover member 80, and the fastening member 90 are removed Next, as shown in Fig. 3(d), the viscous liquid 16 is not present on the outer peripheral surface of the tapered portion 79 at the lower end of the cylindrical base 74 of the fixing member 72, and is in a clean state. Therefore, there is an advantage that it can be used without any disadvantages even in the case of the first use even in the next use. Next, the present inventors propose a structure having a cylindrical hanging portion 212a and a flexible cylindrical fitting portion 212b as the second aspect of the inner plug member 212 as a better inner cap. The structure, the cylindrical hanging portion 21 2a. The flexible cylindrical fitting portion 212b is suspended from the peripheral portion of the lower end 0 of the cylindrical lower portion. A configuration example of the second aspect of the inner cap of the present invention will be described with reference to Figs. 34 to 36. Fig. 3 is a view showing another example of the structure of the inner cap of the present invention used for sealing the opening of the plastic container body of the plastic container of the present invention: (a) is a top perspective view; b) is a cross-sectional illustration. Fig. 35 is a view showing a state in which the opening of the plastic container body is sealed by the inner cap shown in Fig. 34; (a) is a top view; (b) is a cross-sectional explanatory view. Fig. 36 is an exploded explanatory view showing the decomposition of each member of Fig. 35. In Figs. 34 to 36, reference numeral 200B is an inner cover of the second aspect of the present invention. The inner cover 20B is provided with a cover main body 208B which is formed with a female screw portion 206 on the inner surface side of the annular side wall 204 which is provided from the peripheral edge portion of the circular plate 202, and the female screw portion 206 is attached. The male screw portion 14b formed on the outer side of the cylindrical side wall 14a of the opening portion 14 of the plastic container body 12 can be screwed with -44 - 201249542. Reference numeral 212 denotes an inner plug member, and a central portion of the lower surface of the circular plate 202 of the cover main body 208B is fitted into the liquid discharge port 2 of the elongated flow path member 18. The inner plug member 2 1 2 has a cylindrical hanging portion 212a that is suspended from a central portion of the lower surface of the circular plate 202, and a flexible cylindrical fitting portion 212b that is suspended from the cylindrical shape. The lower end circumferential edge portion of the lower portion 212a. The flexible cylindrical fitting portion 2 1 2b is provided to be fitted to the liquid discharge port 23 of the elongated flow path member 18. As shown in Fig. 35(b), the elongated flow path member 18 is attached to the upper end mounting portion 24 in the opening portion 14 of the plastic container body 12, and the cylindrical plug portion of the inner plug member 212 is suspended. 212a is screwed into the female screw portion 206 of the cap body 208A in the male screw portion 14b of the plastic container body 12 in a state in which it is fitted into the liquid discharge port 23 of the long-length flow path member 18. When the cover 200B is fastened, the cover 200B is attached to the opening portion 14 of the plastic container body 12 and closes the opening portion 14 and the liquid discharge port 23. The plastic container 16 is filled with the viscous liquid 16 by squeezing the inside of the plastic container body 12 with the viscous liquid 16 and closing the opening 14 and the liquid discharge port 23 with the lid 200B. The action of the case where the opening portion 14 of the plastic container 1 of the present invention is closed by the inner cap 20 0B of the second aspect described above will be described with reference to Fig. 39. FIG. 39 is a cross-sectional explanatory view showing a state in which contamination is caused by a viscous liquid when the opening of the plastic container of the present invention is closed by the inner cap of the second aspect of the present invention; wherein (a) is a The state in which the opening of the plastic container is closed with the inner plug-45-201249542 cover is displayed; (b) shows the state after the inner cap is removed from the state of (a); (c) shows the liquid feeding tube The means is connected to the long-length flow path member, and the fixing member, the through-hole cover member and the fastening member are attached to perform the pressure discharge operation of the viscous liquid 16 : (d) shows that the pressure discharge operation is completed and removed The state after the fixing member and the through-hole cover member and the fastening member are attached. When the opening 14 of the plastic container 10 of the structure of the present invention and the liquid discharge port 23 of the elongated flow path member 18 are closed, the inner cap 200B of the second aspect of the present invention is used, as in the 39th. As shown in (a), the inner plug member 212 is fitted into the upper end portion of the long flow path member 18 through the flow path 25a, and does not invade the viscous liquid 16 at the upper end portion of the through flow path 25a. The viscous liquid 16 does not adhere to the upper end portion of the through flow path 25a. Therefore, as shown in Fig. 39 (b), when the inner cap 200B is removed, the viscous liquid 16 does not exist at the upper end portion of the through flow path 25a, and contamination does not occur, and the state is clean. From this state, as shown in Fig. 39 (c), the liquid feed pipe means 20 is communicated with the elongated flow path member 18, and the fixing member 72, the through hole cover member 80 and the fastening member 90 are attached and adhered. The pressurization discharge operation of the liquid 16 is followed by the state in which the liquid discharge pipe means 20, the fixing member 72, the through hole cover member 80, and the fastening member 90 are removed after the pressurizing discharge operation is completed, as shown in Fig. 39. As shown in (d), the viscous liquid 16 is not present on the outer peripheral surface of the tapered portion 79 at the lower end of the cylindrical base 74 of the fixing member 72, and is in a clean state. Therefore, there is an advantage that it can be used without any disadvantages even in the case of the first use even in the next use. In the inner plug member 200B in the second aspect of the present invention, a structure in which a flexible cylindrical fitting portion 212b is provided at the lower end of the cylindrical hanging portion 212a is formed as an inner plug. In the member 212, since the flexible cylindrical fitting portion has a lower end portion which is a free end, it has extremely high flexibility. Therefore, there is an advantage in that the liquid is fitted to the elongated flow path member 18. When the inner plug member 2 1 2 in the state of the discharge port 23 is removed from the liquid discharge port of the elongated flow path member 18, the liquid fitting is not tightly fitted by the soft action of the cylindrical fitting portion 212b. The outlet 23 can be easily removed from the liquid discharge port 2 3 even if there is a large amount of unevenness during molding. Further, in the example shown in Figs. 28 to 39, the opening portion 14 and the strip of the plastic container body 1 shown in Fig. 15 are shown by the covers 200, 200A, and 200B. The combined opening structure of the liquid discharge port 23 of the flow path member 18 is closed. The opening structure shown in FIGS. 7 to 20 can be similarly closed by the covers 200, 200A, and 200B. However, since the same blocking structure is used, the illustration is omitted in order to avoid being too redundant. instruction of. The plastic container of the sealed state of the present invention will now be described with reference to Figs. 40 and 41. Fig. 40 is a cross-sectional explanatory view showing an example of a state in which the plastic container of the present invention is closed by a cover having a normal structure. Fig. 4 is a cross-sectional explanatory view showing an example of a plastic container in a sealed state of the present invention. As shown in Fig. 40, in the case of storing the plastic container 1 filled with the viscous liquid 16, or in the case of carrying it at the site of the coating operation, the cover 200, 200A, 200B is usually used (in the example) The opening 14 of the plastic container 10 is closed for 200B). However, since the plastic body of the plastic container 10 is formed of a polyethylene film (moisture or moisture, oxygen can pass through), moisture or moisture present in the air may invade. In the plastic container 10. Although there is no problem in the case of being placed in the air for a short period of time, when it is left in the air for a long time, the following inferior situation occurs: in the case of moisture and oxygen-curing type viscous liquid, the hardening reaction will be borrowed. It is carried out by moisture or moisture invading the inside and oxygen. As shown in Fig. 41, the sealed plastic container i〇A of the present invention accommodates the plastic container 1 湿 in a moisture or oxygen-impermeable bag formed by moisture or oxygen-impermeable material. 214, the upper end portion is formed by a heat seal to form a heat seal portion 215, and the plastic container 10 is filled with the viscous liquid 16 to the plastic container body of the plastic container 1 of the present invention. Inside the 12, the opening portion 14 of the plastic container body 12 and the liquid discharge port 23 of the elongated flow path member 18 are closed by the covers 200, 200A, and 200B (200B in the illustrated example). The moisture or oxygen non-penetrating bag 214 formed as the above-mentioned moisture or oxygen non-penetrating material can be exemplified by an aluminum foil layer containing at least one layer which does not allow moisture or moisture to pass through. A moisture or oxygen non-penetrating bag made of a multilayer sheet material or the like. The plastic container 10A in the sealed state of the present invention is filled in the plastic container 1 because the plastic container 10 of the present invention is housed in the moisture or oxygen-impermeable bag body 2 1 4 and formed into a sealed state. The viscous liquid 16 does not come into contact with moisture or oxygen in the air, but avoids accidents that are hardened by contact with moisture or oxygen. The plastic container in the assembled state of the present invention will be described below with reference to Fig. 42. Fig. 42 is a cross-sectional explanatory view showing an example of -48 to 201249542 of a plastic container in a packaged state according to the present invention. As shown in Fig. 42, the plastic container 10B in the packaged state of the present invention protects the plastic container 10A of the sealed state of the present invention by the corrugated cardboard 216, and has the following advantages: the sealed state can be obtained. In order to prevent the plastic container 10 or the moisture or oxygen non-penetrating bag 214 from being broken or broken, the plastic container is safely transported to the site where the coating operation is performed in a protected package state. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional explanatory view showing an embodiment in which a plastic container of the present invention is placed inside a pressurizing tank, and shows a state in which a viscous liquid is filled in a tank and filled with a plastic container body. . Fig. 2 is a cross-sectional explanatory view showing an intermediate state in which the plastic container body is pressurized from the outside and deformed and contracted from the state of Fig. 1 and the viscous liquid is discharged to the outside. Fig. 3 is a cross-sectional explanatory view showing a state in which the state of Fig. 2 is further pressurized and the plastic container body is completely flattened so that the total amount of viscous liquid is discharged to the outside. Fig. 4 is an explanatory view showing a first example of the elongated flow path member used in the plastic container of the present invention; (a) is a top view; (b) is a cross-sectional explanatory view. Fig. 5 is a view showing a long flow path member similar to Fig. 4, wherein (a) is a perspective view showing the entire display; (b) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed. . Fig. 6 is a view showing a second example of the elongated flow path member; wherein -49-201249542 (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed; The above description of the state of formation in a state of being pressed and crushed. Fig. 7 is a view showing a third example of the elongated flow path member; Φ (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed; <b) The above is a view showing a state in which the plastic container main body is formed in a state of being crushed by pressurization. Fig. 8 is a perspective view showing a fourth example of the elongated flow path member. & Stomach A description of a long portion is omitted except that the upper end portion is omitted. Fig. 9 is a view showing a fifth example of the elongated flow path member; although (a) is a perspective explanatory view in which the upper end portion is omitted and only the long strip portion is displayed; (b) The above description of the formation state of the flow path in a state of being crushed by pressurization; and (c) is the same pattern as (b), but it is formed by four points of the peripheral portion only in the flow path. The above illustration. Fig. 10 is a perspective view showing a sixth example of the strip-shaped flow path member, although (a) is a perspective explanatory view in which the upper end portion is omitted and only the long portion is displayed: (b) the plastic container body is shown to be borrowed. The above description of the formation state of the flow path in a state of being crushed by pressurization; and (c) is the same pattern as (b), but it is formed by four points of the peripheral portion only in the flow path. The above illustration. Fig. 1 is a view showing a seventh example of the elongated flow path member, and showing a state in which the flow path of the plastic container body is crushed by pressurization, and showing only the periphery. The 6 points of the part are applied to the flow path to form the above -50-201249542. Fig. 1 is a perspective view showing an eighth example of the elongated flow path member, and showing only the long portion in order to omit the upper end portion. Fig. 13 is a perspective view showing a ninth example of the elongated flow path member, and showing only the long portion in order to omit the upper end portion. Fig. 14 is an explanatory view showing a schematic configuration of a coating apparatus of the present invention. Fig. 15 is a view showing that the upper end attachment portion of the elongated flow path member shown in Fig. 4 is attached to the opening of the plastic container body, and one end portion of the liquid delivery tube means is inserted into the upper end of the elongated flow path member. The main part of the state in which the liquid discharge port of the mounting portion is inserted into the liquid discharge port of the upper end mounting portion of the elongated flow path member in a sealed state by the sealing and inserting means; ) is the above description; (b) is a cross-sectional explanatory diagram. Fig. 16 is an exploded explanatory view showing the components of Fig. 15(b). Fig. 17 is a view similar to Fig. 15 showing another example of the joined state of the mounting portion of the elongated flow path member and the sealing insertion member; wherein (a) is the above explanatory view; (b) is the sectional explanatory view. . Fig. 18 is a view similar to Fig. 5 showing still another example of the joined state of the mounting portion of the elongated flow path member and the sealing insertion member; wherein (a) is the above-described drawing; (b) is Section illustration. Fig. 19 is a view similar to Fig. 5 showing another example of the state in which the attachment portion of the elongated flow path member and the insertion auxiliary member are joined; wherein (a) is the above description; (b) is the profile Illustrating. -51 - 201249542 Fig. 20 shows still another example of the joined state of the elongated flow path member, and (a) is the above-described illustration; (b) is the sectional view of Fig. 21 and is exploded. Fig. 20 (1: where a) is an exploded explanatory diagram; (fc perspective view; (c) shows an example in which the application of the one-touch and the auxiliary annular member is replaced. FIG. 22 shows the combination of the elongated flow path member shown in FIG. The combination of the fastening member and the liquid supply pipe means Fig. 23 is the main part of Fig. 22, and Fig. 24 shows the state after the combination of the fixing member and the liquid feeding pipe means is removed without using the plastic container body. Fig. 25 is a cross-sectional explanatory view showing a conventional plastic container body coated with flexibility. Fig. 26 is a cross-sectional explanatory view showing the deformation and contraction from the outside and the viscous state in the state shown in Fig. 25. Fig. 27 is a cross-sectional explanatory view showing a final state in which the central portion of the capsule body of Fig. 26 is in contact with each other. Fig. 28 is a view showing the same as the mounting portion for occluding the member and the insertion assisting Fig. 15. Figure; The figure of the drawing is a cross-sectional explanatory view of the pick-up joint mechanism of the auxiliary annular member as a piano solid member. In the state, the state of the plastic container body and the fixed member and the through-hole cover member are attached. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory view of a through-hole cover member and a fastening member in a long strip-shaped flow path member. A state in which a viscous liquid is disposed in a pressurizing tank The medium-capacity liquid of the plastic container is discharged to the outside and further pressurized to be plasticized so that the viscous liquid is not discharged from the opening of the plastic container of the invention. (a) is a perspective view of the above; (b) is a cross-sectional explanatory view. Fig. 29 is a view showing a state in which the opening of the plastic container body is closed by the cover shown in Fig. 28. : (a) is the above figure: (b) is a cross-sectional explanatory diagram. Fig. 30 is an exploded view showing the decomposition of each member of Fig. 29, which shows the example of the first type of the imager. Said plastic 5: face The creator is constructed as a capacity} The rubber cover (b) The plastic stencil of the smear of the smear of the smear of the smear of the smear is shown in the figure. Fig. 32 is a view showing a state in which the opening of the plastic container body is closed by the inner cap shown in Fig. 31: (a) is a top view; (b) is a cross-sectional explanatory view. FIG. 34 is a view showing another example of the structure of the inner cap of the present invention used for closing the opening of the plastic container body of the plastic container of the present invention. FIG. Wherein (a) is a top perspective view: (b) is a cross-sectional explanatory view. Fig. 35 is a view showing a state in which the opening of the plastic container body is closed by the inner cap shown in Fig. 34; wherein (a) is the upper view and (b) is a cross-sectional explanatory view. Figure 36 is an exploded view showing the decomposition of each member of Figure 35. Figure 53-201249542 Figure 37 illustrates the viscous liquid caused by the closure of the opening of the plastic container of the present invention by a generally constructed cover. A cross-sectional explanatory view of a state of contamination; wherein (a) shows a state in which the opening of the plastic container is closed by a cover: (b) shows a state after the cover is removed from the state of (a); (c) shows that The liquid feeding pipe means communicates with the elongated flow path member, and attaches the fixing member, the through-hole cover member and the fastening member to perform a state in which the viscous liquid 16 is pressurized and discharged, and (d) shows the pressure discharge. The state in which the fixing member is attached and the through-hole cover member and the fastening member are removed after the completion of the work. FIG. 38 is a view showing the opening of the plastic container of the present invention when the opening of the plastic container of the present invention is closed by the inner cap of the first aspect of the present invention. A cross-sectional explanatory view of a state in which contamination is caused by a viscous liquid; wherein (a) shows a state in which the opening of the plastic container is closed by attaching a cap; (b) shows a state in which the state is removed from (a) State after the inner cap; (c) The liquid supply pipe means is connected to the long flow path member, and the fixing member, the through hole cover member and the fastening member are attached to perform a pressurized discharge operation of the viscous liquid 16; (d) the display is pressurized. The state in which the discharge operation is completed and the fixing member, the through-hole cover member, and the fastening member are removed. FIG. 39 is a cross-sectional explanatory view showing a state in which contamination is caused by a viscous liquid when the opening of the plastic container of the present invention is closed by the inner cap of the second aspect of the present invention; wherein (a) is a The state in which the opening of the plastic container is closed by the inner cap is displayed; (b) shows the state after the cap is removed from the state of (a); (c) shows the means for sending the liquid to the tube - 54- 201249542 is connected to the long-length flow path member, and is attached with a fixing member, a through-hole cover member and a fastening member, and performs a pressurized discharge operation of the viscous liquid 16; (d) shows that the pressure discharge operation is completed and The state in which the fixing member, the through-hole cover member, and the fastening member are removed. Fig. 40 is a cross-sectional explanatory view showing an example of a state in which the plastic container of the present invention is closed by the inner cap of the second aspect of the present invention. Fig. 41 is a cross-sectional explanatory view showing an example of a plastic container in a sealed state of the present invention. Fig. 42 is a cross-sectional explanatory view showing an example of a plastic container in a bundled state of the present invention. [Explanation of main component symbols] 10: Plastic container of the present invention 10 A: Plastic container 10B of the sealed state of the present invention: Plastic container of the packaged state of the present invention 1 2: Plastic container body 1 4, 1 0 8 : Opening Part 1 4 a : cylindrical side wall 1 4 b : male thread portion 1 6 , 1 1 2 : viscous liquid 1 8 : elongated flow path member 2 0, Π 0 : liquid delivery tube means 21, 1 〇 4 : Air supply pipes 22, 102: Pressure tanks - 55 - 201249542 22a, 102a: Tank bodies 22b, 102b: Cover body 23: Liquid discharge port 24: Upper end mounting portion 2 5 a to 2 5 d : Through flow path 26a to 26h: long strip flow path portion 27: inner peripheral wall 2 8 : open end portion 29: support walls 30a to 30d: elongated cylindrical tube body 31: outer peripheral wall 3 2 : flow path hole 3 3 : upper end tapered portion 3 5: outer peripheral portion 36, 40: plate-like body 3 6 a, 4 0 a, 4 5 : flow path forming point 37: notched portion 3 8 , 4 4 : space 3 9 : slit 42 : plate-shaped support column 46 : spiral line body 4 8 : central portion cavity 5 0 : lower end open end portion 5 2 : gap - 56 - 201249542 5 3 : mesh-shaped cylindrical body 54 : central portion cavity 5 6 : lower end open end portion 5 8 : Mesh-like void 60: coating device of the present invention 62: compressed air supply means 64: coating nozzle means 66: opening side air supply pipe 68: closed side air supply pipe 70: sealing insertion means 72: fixing member 73: insertion opening 74: cylindrical base 74a: insertion Tapered portion 74b: receiving tapered portion 75: annular flange portion 76: receiving segment portion 7 8: male thread portion 79: lower end tapered portion 80: attached through-hole cover member 8 2: circular plate 8 4 : through Hole 8 6 : annular side wall 8 8 , 9 4 : female thread portion - 57 201249542 90 : fastening member 9 1 : cylindrical member 9 1 a : inner peripheral portion 9 2 : center hole 95 : auxiliary annular member 96 : through port 98 : tapered jaw 100 : conventional coating device 106 : conventional plastic container 120 : fastening member 122 with one-touch joint mechanism : attached differential cylindrical member 1 2 4 : center inserted Hole 1 2 6 : Small diameter cylindrical portion 1 2 8 : Large diameter cylindrical portion 1 3 0 : Female thread portion 132 : Liner 134 : Locking claw 136 : Sleeve 1 3 8 : Compression block 200 , 200A , 200B: cover 2 0 2 : circular plate 2 04 : annular side wall 206 : female thread portion 208 , 208 A, 20 8B : cover body - 58 - 201249542 2 1 0, 2 1 2 : inner plug members 210a, 212a: Cylindrical hanging 2 12b: the flexibility of the cylindrical fitting portion 214: no moisture or oxygen permeability of the bag body 215: sealed part 216: corrugated board -59

Claims (1)

201249542 VII. Patent application scope: 1·- a plastic container, characterized in that it has: a plastic container body, which has softness and is formed by: opening an opening and filling a viscous liquid inside and borrowing The viscous liquid is pressurized and discharged from the opening, and the elongated flow path member is attached to the opening so as to extend inside the plastic container body, and the aforementioned When the viscous liquid is pressurized and discharged, at least a discharge flow path discharged from the side surface is formed as a discharge flow path of the viscous liquid, and the plastic container body is crushed by pressurization so as to be viscous liquid accommodated therein. After all of the pressurized discharge is performed, the squashed plastic container body and the elongated flow path member can be discarded together. 2. The plastic container according to claim 1, wherein the elongated flow path member has an upper end attachment portion that is detachably attached to the opening and that has a liquid discharge at a central portion. And an elongate flow path portion integrally attached to the mounting portion so as to extend inside the plastic container body, and at least the discharge flow discharged from the side surface is formed when the viscous liquid is pressurized and discharged The road serves as a discharge flow path of the viscous liquid, and the elongated flow path member is detachably attached to the opening. 3. The plastic container according to claim 2, wherein the long strip-shaped flow path portion is a tubular body having one or more flow path holes formed in a side surface. The plastic container according to claim 1, wherein the viscous liquid is a curable composition having a moisture-curing adhesive property or a curable property having an oxygen-curable adhesive property. Composition. 5. A long strip-shaped flow path member for an elongated flow path member of a plastic container having a plastic container body, the plastic container having softness and being formed to have an opening and be inside The viscous liquid is filled and pressed by pressurization to allow the viscous liquid to be pressure-discharged from the opening, and the elongated flow path member has an upper end mounting portion. The detachable portion is attached to the opening, and a liquid discharge port is opened at a central portion; and a long flow path portion is integrally attached to the mounting portion so as to extend inside the plastic container body, and the viscous portion is attached When the liquid is pressurized and discharged, at least a flow path discharged from the side surface is formed as a flow path of the viscous liquid. The long flow path member is detachably attached to the opening, and the viscous liquid is pressurized and discharged. When the plastic container body is crushed by pressurization, and the viscous liquid accommodated in the inside of the plastic container is completely pressurized and discharged, the squashed plastic can be formed. Together with the container body waste. The elongated flow path member according to claim 5, wherein the elongated flow path portion is a tubular body having one or more flow path holes formed in a side surface. 7. A coating apparatus characterized by comprising: a pressure tank; and a supply air supply means for supplying compressed air to the pressure tank in -61 - 201249542; and a patent application provided in the pressure tank a plastic container according to the first aspect; and a liquid supply pipe means having one end connected to the opening of the plastic container; and a coating nozzle means connected to the other end of the liquid supply pipe means, in the pressure tank When compressed air is supplied, the plastic container disposed in the pressure tank is pressurized and flattened, and the viscous liquid inside is discharged from the plastic container through the long flow path member, and then the liquid is passed through The pipe feeding means ejects from the coating nozzle means and applies the viscous liquid to a predetermined portion, and the viscous liquid which is squashed in the inside of the plastic container body by pressurization is all added. After the pressure is discharged, the collapsed plastic container body can be discarded together with the long flow path member. The coating device according to claim 7, wherein the elongated flow path member has an upper end attachment portion that is detachably attached to an opening of the plastic container body and is centrally a liquid discharge port is provided in the portion, and a long flow path portion is integrally attached to the mounting portion so as to extend out to the inside of the plastic container body, and the elongated flow path member is configured to be detachably The upper end mounting portion of the elongated flow path member is fitted to the opening of the plastic container body, and the liquid discharge port of the upper end mounting portion is inserted into the liquid feeding tube means by sealing The means for inserting the liquid feed pipe means into the liquid discharge port in a sealed state is provided. 9. The coating apparatus according to claim 8, wherein the sealing insertion means comprises: -62-201249542 a fixing member having an upper end mounting portion with the elongated flow path member; The upper shape corresponds to the lower shape and the receiving section is formed on the lower portion and the male threaded portion is formed on the upper portion of the upper portion and the insertion opening is formed in the central portion: and the through-hole cover member is attached to the central portion of the circular plate. a through hole that abuts against the receiving section and is formed on an inner surface side of the annular side wall that is suspended from a peripheral edge of the circular plate: can be formed outside the cylindrical side wall of the opening of the plastic container body a female thread portion that is screwed by the male screw portion; and a fastening member that is formed with a center hole in the center portion and that has a female screw portion on the inner surface of the center hole, and the fixing member abuts against the long strip shape The upper surface of the upper end mounting portion of the flow path member is inserted into the upper end mounting portion of the elongated flow path member through the center hole of the fastening member and the insertion opening of the fixing member. In the discharge port, the female screw portion of the through-hole cover member is screwed to the cylindrical side wall of the opening of the plastic container body while the through hole of the through-hole cover member is brought into contact with the receiving portion. The male threaded portion is locked by a screw, and then the female screw portion of the inner surface of the center hole of the fastening member is screwed to the male thread portion on the outer surface of the upper portion of the fixing member and locked by a screw, whereby the liquid The pipe feeding means can be inserted into the liquid discharge port 10 of the upper end mounting portion of the long flow path member in a sealed state. The inner cap is attached to the plastic container according to the first aspect of the patent application. The inner cover cap-63-201249542 for the opening of the plastic container body is characterized in that it has a cover body formed on the inner surface side of the annular side wall which is suspended from the peripheral edge portion of the circular plate: a female threaded portion that can be screwed to a male threaded portion formed on an outer surface of the cylindrical side wall of the opening of the plastic container body; and an inner plug member that is suspended from a central portion of the lower surface of the circular plate and the strip Flow The liquid discharge port of the path member is fitted. [1] The inner plug cap according to the first aspect of the invention, wherein the inner plug member has a cylindrical hanging portion that is suspended from a central portion of the lower surface of the circular plate; a flexible cylindrical fitting portion of the lower end edge of the lower portion of the cylindrical lower portion. 12. A plastic container in a sealed state, characterized in that the viscous liquid is filled inside the plastic container body, and The plastic container of claim 1 which is closed by the cover to close the opening of the plastic container body is contained in a moisture or oxygen non-penetrating bag formed by moisture or oxygen non-penetrating material. The body is formed into a sealed state. The plastic container of the sealed state of the above-mentioned patent application, wherein the above-mentioned cover is the inner cover cap according to claim 10, and the aforementioned inner plug member is used to block the aforementioned The liquid discharge port of the long flow path member is formed. The plastic container of the sealed state as described in claim 12, wherein the moisture or oxygen non-penetrating material is a multilayer sheet material containing at least one aluminum foil layer. 15. A plastic container in a bundled state, characterized in that the sealed plastic-64 - 201249542 container according to claim 12 of the patent application is bundled by corrugated cardboard and formed into a bundled state. -65