TW201221125A - Composite container with an inner reservoir of 60 liters and chemical discharging tube - Google Patents

Abstract

The purpose of the present invention is to provide a composite container with an inner reservoir of 60 liters capable of reducing complicity of operations, and a chemical discharging tube for the composite container with the inner reservoir of 60 liters. The composite container with the inner reservoir of 60 liters includes an interior container which is made of resin, receives 60 liters of a chemical liquid requiring high purity, and is disposed with a liquid inlet and outlet part; an exterior container made of steel, which the interior container is received along an inner surface of an receiving part formed by seaming a bottom board to a body; and a top board further seamed to the body.

Description

201221125 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to an inner bag composite container having a capacity of 60 liters in which a resin-made inner container is provided in a steel outer container, and the inside of the 60 liter The liquid medicine discharge pipe for the bag composite container. I. Prior Art 3 Background Art For example, in a steel container for accommodating a food or a liquid medicine, in order to prevent corrosion of the food or liquid directly contacting the inner surface of the steel container, a resin for accommodating the food or liquid is used. The inner container is housed in a form of the inner bag composite container 10 as shown in Fig. 11 in a steel outer container. In the inner bag composite container 10, the inner container 1 has a main body portion 1a made of polyethylene and formed in a bag shape, and an inlet and outlet lb for allowing the filling material to enter and exit is integrally formed with the container main portion at the upper portion thereof. Further, the outer peripheral surface of the inlet and outlet lb is formed into a male thread shape. On the other hand, the outer container 2 of the inner bag composite container 10 is formed by enclosing a body 2a made of a cylindrical steel plate and a bottom plate 2b made of a steel plate. Then, after the inner container 1 is placed in the accommodating portion, the rim 2b and the top plate 2c are wound in a state in which the inlet lb is protruded from the opening formed in the top plate 2c of the steel sheet, and is formed in the outer container 2 made of steel. The inner bag composite container 10 of the inner container 1 made of resin is housed. After the filling of the inner bag composite container 10 is carried out, the opening and closing door lb protruding from the top plate 2c is screwed into the cover 201221125, and the filling of the filling is attempted. Examples of the chemical liquid include, for example, a CMP slurry, a photoresist, a developing solution, an etching solution, a cleaning solution, and the like in the field of semiconductors, and are a photoresist, a color resist, and a color in the field of liquid crystal. Filter material, etc. Further, in the chemical liquids, there is also a need for shading, and the outer container 2 made of steel has a light-shielding property, so that the inner bag composite container 10 is advantageous in this point. In the case of handling a chemical liquid in the semiconductor field or the like, the inner container 1 does not need to have a high-definition clarity for the inner composite container 10. Further, even when the chemical liquid is discharged, high-definition purity is required, and as a discharging method, a method in which the lid body 3 is removed and attached, and a dispenser having a discharge tube is used for discharging can be employed. This method has a pumping method of pumping a chemical solution by a pump, or a pressurizing method of pressurizing a chemical solution by injecting a gas or the like into a can. OBJECT OF THE INVENTION PROBLEMS TO BE SOLVED BY THE INVENTION As an inner bag composite container for a chemical liquid used in the semiconductor field and the like as described above The so-called use of cans is widely used in which the amount of content is 2 liters. On the other hand, as described above, since the dispenser is used for the discharge of the chemical liquid, it is necessary to carry out the loading and unloading of the dispenser on the container every time the liquid medicine of about 2 liters is discharged. Worry. Further, the chemical liquid used in the semiconductor field and the like is very expensive, and from the viewpoint of the cost of 201221125, there is also a demand for the user side to reduce the amount of residual liquid in the inner bag composite container as much as possible. The present invention has been made to solve the above problems, and an object thereof is to provide a 6G liter inner bag composite container which can reduce the number of workable operations, and a liquid medicine discharge pipe for providing the 60 liter inner bag composite container. Means for Solving the Problems In order to achieve the above object, the present invention has the following constitution. In the first aspect of the present invention, the 6-inch liter inner bag composite container is provided with: a special inner container, which is made of a resin, and the storage operation requires a high-definition clarity of 2, and the collection is 60 liters. a liquid inlet/outlet portion is provided on the top surface, and the γ-mounting material is made of steel, and the inner container is accommodated along the inner surface of the cylindrical storage portion in which the cylindrical body is wound with a wide bottom plate, and the inner container is further formed to protrude The top plate of the opening (4) is disposed at the liquid inlet and outlet portion of the container outside the surface portion, and may have a concentric shape in the axial direction of the liquid inlet and outlet portion in the liquid inlet and outlet portion. Threading the cover body; the thread for holding the thread is close to the mouth; having the thread of the opening for the mouth through the outer stern container; the top plate is suspended for the thread diameter of the holding, == the top surface is formed] Further, the top plate may be surrounded by the opening for the mouth portion, and the top plate may be opened from the opening of the mouth of the above-mentioned 201221125 to the center of the old and the top plate. The area forms a recess "^ The above exterior The galvanized steel sheet which can be omitted may be omitted, and the liquid medicine used in at least the semiconductor field and the liquid crystal field may be omitted, and the above-mentioned internal container is a high-density polymer according to the specifications for the liquid medicine. It is made of B-ester fat, which is made by injection molding under the management of quality. Further, the chemical liquid discharge pipe according to the second aspect of the present invention is characterized in that: the liquid inlet/outlet portion of the 60-liter inner bag composite container installed in the first aspect is contained in the above-mentioned The liquid medicine discharge pipe for the above-mentioned 60 liter inner bag composite container discharged from the inside of the container; ', which is made of a flexible and resistant liquid resin, and is near the front end of the liquid suction port Some of the weights are placed in a container for discharging the liquid medicine, and the liquid suction port is directed toward the deformed portion of the bottom plate of the 60-liter inner bag composite container. Advantageous Effects of Invention According to the 60 liter inner bag composite container of the first aspect of the present invention, since the storage capacity is 60 liters, the capacity is increased relative to the previous 20 liters, and the troublesome work for discharging the chemical liquid can be reduced. . Further, in the above-described 60 liter inner bag composite container, the thread for holding and the thread for the lid are formed in the liquid inlet and outlet portion of the inner container. Therefore, the liquid inlet and outlet portion of the inner container which is protruded from the opening of the mouth of the top plate can be held by the top plate by the spreader screwed to the holding ridge. Therefore, the attachment and detachment of the lid member for screwing the lid body can be easily performed, and the workability of the chemical liquid discharge operation can be improved. 6 201221125 Further, a recessed portion is formed around the opening for the mouth portion of the top plate. Therefore, the ceiling expansion can be prevented or suppressed even in the case where the pressure is discharged. On the other hand, no pressure-resistant treatment was applied to the bottom plate. Therefore, the bottom plate, particularly the central portion of the bottom plate, can be expanded toward the outside of the container by the above-mentioned pressing force by the complementary effect with the above-mentioned concave portion. As a result, at the end of the discharge of the chemical liquid, the residual liquid can be collected in the deformed portion of the expansion, and the effective liquid chemical can be discharged, and the amount of the residual liquid can be reduced. Further, by molding the inner container with a high-density polyethylene resin, it is possible to have a liquid chemical property and a high cleanliness. The x' solution is used in at least the semiconductors used in the field of semiconductors and in the field of liquid crystals, and is formed by injection molding under the quality control. Therefore, the inner container has a cleanness and is suitable for the operation of the liquid medicine used at least in the field of the rich and the liquid crystal. In the case of •j» ’, the outer container is also formed of galvanized steel sheet, whereby the outer coating can be omitted. Therefore, the possibility of mixing foreign matter into the container can be reduced, and not only the inner bag can be installed, but also the high-definition clarity can be achieved. Further, the chemical liquid discharge pipe according to the second aspect of the present invention can be attached to the 6G liter (10) composite container of the first aspect, and has a weight at the end portion before the liquid discharge pipe. Therefore, the liquid suction port of the medicine (4) can be aligned toward the deformed portion of the bottom plate of the rice filling device, and complements the concave portion of the top plate, which can be used to carry out the efficient liquid discharge, and can also plot the residual liquid amount. reduce. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partial cross-sectional view showing the structure of a 60 liter inner bag complex sag in an embodiment of the present invention. 201221125 Fig. 2 is the plane of the 60 liter inner bag composite container shown in Fig. 1. Fig. 3 is a perspective view of the 60 liter inner bag composite container shown in Fig. 1. Fig. 4 is a cross-sectional view showing the liquid inlet and outlet portion of the 60 liter inner bag composite container shown in Fig. 1. Fig. 5 is a view showing the 60 liter inner bag shown in Fig. 1 Diagram of the state of the residual liquid at the time of liquid. ^ Fig. 6 is a plan view showing an example of a modification of the inner container provided in the 60-liter inner bag composite container shown in Fig. 1 (A), and (B) is a side view of the arrow B. (C) is a side view of the arrow C. " Fig. 7 is a view showing another modification of the inner container provided in the 60 liter inner bag composite container shown in Fig. 1, (A) is a plan view, and (B) is a side view. Fig. 8 is a view showing another modification of the inner container provided in the 6-inch liter inner bag composite container shown in Fig. 1, wherein (A) is a plan view and (B) is a side view. Fig. 9 is a view showing a chemical discharge pipe and a disperser mechanism which can be attached to the 60 liter inner bag composite container shown in Fig. 1. Fig. 1 is a perspective view showing a tilting table applicable to the 60 liter inner bag composite container shown in Fig. 1. Figure 11 is a diagram showing the construction of a prior 20 liter inner bag composite container. [Effective Example 5] A 60 liter inner bag composite container according to an embodiment of the present invention will be described below with reference to the drawings. Further, in the respective drawings, the same or similar components are denoted by the same reference numerals. The structure of the 6-inch liter inner bag composite 201221125 container 100 in the present embodiment is shown in Figs. 1 to 4 . In the same manner as the conventional 2 liter liter inner bag composite container, the 60 liter inner bag composite container 100 is provided with a resin inner lining container n 〇 and a steel outer casing 12 accommodating the inner container 110. The inner container 110 is made of a high-density polyethylene resin, and is formed into a bag shape by a blow molding, and has a capacity of 6 mils, and is formed on the top surface of the main body portion, and is formed with the present Mm-body. "The liquid inlet and outlet portion 112 of the chemical liquid. The liquid inlet/outlet portion 112 may be simultaneously molded at the time of injection molding of the main body portion (1)" or may be separately supplied to the main body portion (1) by the material or the like. The outer peripheral surface, as shown in Fig. 4, has two stages of holding threads 1121 and lid threads 1122 formed in a male thread shape concentrically along the axial direction 112 of the liquid-input portion 112. The retaining thread (4) is a male thread formed close to the top surface, and is suspended from the plate 123 of the mouth opening (10) of the top plate 123 of the outer container 12G: the liquid outlet portion 112 is held in the outer container 120. The top thread 盍: the thread 1122 is smaller than the above-mentioned holding thread 1121, and the male side of the diameter is used to harden the axial direction mu to be located above the holding thread 1121, and to close the mouth of the liquid inlet and outlet portion 112. U2b closed lid 115. To be grayed out: when the liquid medicine in the container is also contained, it is operated. In the upper field: the chemical solution of 1!, which is equivalent to the semiconductor field and the liquid crystal collar field, for example, (4). As described above, as a semiconductor liquid, washing, and night, for example, CMP material, Photoresist, developer, etching _ light: two: in the liquid crystal field, 'light _, color light · 9 201221125 Because the liquid medicine is contained, the inner container 11 is required to have high purity, so as described above, The container 110 is made of a high-density polyethylene resin of a chemical liquid specification, and is produced under high-quality management. Immediately after the production, the inner plug 114 is applied to the mouth portion 112b of the liquid inlet/outlet portion 112, and the inside is sealed and further covered. The cover 115 is screwed by the thread 1122 to seal the inner plug 114. Further, as will be described later, when the contained medical liquid is discharged, the cover 115 and the inner plug 114' are removed as shown in Fig. 9. The plug body 201 of the dispenser mechanism 2 is screwed to the cover thread 1122. The 6-liter liter inner bag composite container 100 has a container 12 made of a cylindrical steel plate and is made of a steel plate. The bottom plate 122 and the top plate 123 ° as described above 'the 6-inch liter inner bag composite Since the container of the device 1 is required to operate with a high-definition liquidity, the external container 12 is also required to be manufactured in a higher-definition manner than the article. Therefore, the outer container 12 is 12, The bottom plate 122 and the top plate 123 are made of an electroplated steel plate, and the outer coating can be omitted. This can reduce the possibility of foreign matter entering the container, and not only the inner container 110' but also the 60-liter inner bag composite container. The high-definition clarity is achieved. The moon-like body 121 has the same diameter at both ends. The accommodating portion 120a is formed by winding the body 121 and the bottom plate 122, and the inner container 110 is loaded in the accommodating portion 120a. Further, the size of the accommodating portion 120a is the size corresponding to the inner container 110 having a storage capacity of 60 liters, and the inner container 11 is housed in contact with the inner surface of the accommodating portion 120a. After the storage, the top plate 123 of the opening 123a of the size of the liquid inlet/outlet portion 112 in which the inner container 11 is formed is wound around the body 121. At this time, the liquid inlet/outlet portion 112 is screwed from the mouth opening 123a of the top plate 123 toward the container exterior 10201221125. The above-described spreader 113 is screwed to the holding screw 1121, whereby the liquid inlet and outlet portion 112 is used as a spreader. The il3 is held on the top plate 123. The spreader 113 is made of a resin or a metal, for example, a plate-like member, and a through hole 'having a male screw 113a that is engaged with the holding screw 1121 of the liquid inlet/outlet portion 112 on the inner peripheral surface has a mouth opening 123a that exceeds the top plate 123. The outer peripheral portion 113b of the size. Therefore, the male screw 113a of the spreader 113 is screwed to the outside of the container by the holding screw 1121 protruding from the mouth opening 123a of the top plate 123 toward the outside of the container, whereby the outer peripheral portion 113b of the spreader 113 and the top plate 123 are brought into contact with each other. The liquid ejector portion 112 of the inner container No. is held by the spreader 113 on the top plate 123 of the outer container 120. Moreover, the shape of the spreader 113 is not limited to the shape shown in the figure. Further, in the top plate 123, as shown in Fig. 2 and Fig. 3, a recess 123b is formed around the mouth opening 123a so that the top plate 123 is uniformly recessed from the outside of the container to the inside. Further, the concave portion 123b and the top plate 123 are connected to each other by the inclined surface 123d. However, the present invention is not limited thereto, and may be, for example, an arc shape or the like. Such a concave portion 123b is formed from the vicinity of the mouth opening 123a to a region 123c exceeding the center of the top plate 123. This is because the center portion of the top plate 123 is most easily deformed by being pressed in the container described below. Further, in the present embodiment, the concave portion 123b has a substantially egg-shaped shape in a narrow portion as compared with the liquid inlet/outlet portion 112 as shown in the drawing, but the shape is not limited to the shape, and may be, for example, an area. The 123c portion also has an oblong shape equal to the size of the liquid inlet and outlet portion 112. In the same manner as the conventional inner bag composite container, the discharge of the above-mentioned chemical liquid as the storage material in the 6 liter liter inner bag composite capacity HHK in the present embodiment can also be performed by injecting an inert gas into the container 1 加压. And proceed. The recess 12^201221125 is for preventing or suppressing the expansion deformation of the top plate 123 during the pressurization, and as described below, the bottom plate 122 is also deformed. On the other hand, as shown in Fig. 1, the bottom plate 122 is not subjected to the means for preventing deformation as in the concave portion 123b, and the flat plate is held. Further, the bottom plate 122 and the top plate 123 are made of the same material using the same thickness. Therefore, at the time of the above-described pressurization, the deformation of the top plate 123 of the concave portion 123b makes it possible to make the entire bottom plate 122, particularly the central portion of the bottom plate 122, more toward the outside of the container than in the case where the concave portion 123b is not provided. Swell. The expanded portion is described as the deformed portion 129 (the result of Fig. 9 is that the residual liquid can be collected in the deformed portion 129 of the bottom plate 122 during the end of the discharge of the chemical liquid. Therefore, efficient liquid discharge can be performed. Further, it is also possible to reduce the amount of the residual liquid. From this point of view, the "recessed portion 123b may be used to form the deformed portion 129 of the bottom plate 122" and further to reduce the amount of residual liquid. Further, in the present embodiment, as described above By providing the concave portion 123b, the deformation prevention of the top plate 123 and the deformation of the bottom plate 122 are promoted. However, for the purpose of achieving the above-described purpose, the concave portion 123b is not limited, and for example, a device such as a rib may be provided on the top plate 123. 1 and 3 clearly show that the top plate 123 is located at the lower one end with respect to the upper end 101 of the 6-inch liter inner bag composite container, and the mounting position of the spreader 113 is further lowered by the recess 123b. Therefore, by providing the concave portion 123b, as shown in Fig. 1, in the state in which the lid body of the liquid inlet/outlet portion 112 is screwed into the lid body 115, the upper surface of the lid body 115 can be placed in the 60-liter inner bag composite container. 1〇 The upper end is 1〇1 or less. Thus, for example, even in the case where the 60-liter inner bag composite container is stacked, the effect of preventing the damage of the cover 12 of the 201221125 can be prevented. As shown in Fig. 3, at least one outer surface of the top plate 123' is attached with a handle 124 for operation of the barn. In the second figure, the case where the handle 124 is provided at two places is illustrated, and in the third figure, the figure is set at three places. Further, as shown in Fig. 1, the surface of the body 121 is also formed at two places on the top plate side and the bottom plate side along the circumferential direction of the body 121 to increase the rigidity of the body 121 and prevent and suppress the body 121. The deformed wheel belt 121a is formed into a 60-liter inner bag composite container in which a resin-made inner container 110 is housed in a steel outer container 120. For such a 60-liter inner bag composite container, The chemical liquid is injected into the inner container u through the liquid inlet/outlet portion 112 protruding from the top plate 123. After the injection, the inner plug 114 is applied to the mouth portion 112b of the liquid inlet/outlet portion 112, and the lid 115 is screwed to the lid. Use thread 1122 to seal the liquid. By using such a structure In the 60-liter inner bag composite container 丨00, since the capacity is increased relative to the previous 20 liters, the frequency of discharge of the chemical liquid is reduced, and the troublesome work can be reduced. The above-mentioned liquid medicine contained in the 60-liter inner bag composite container 100 The discharge is usually performed by pressurizing the inside of the container from the viewpoint of weight and workability, but the residual amount of the chemical liquid is extremely small, etc. It is also considered that the liquid inlet/outlet portion U2 is turned downward to make the container 100 reverse. However, even in this case, as shown in Fig. 5, the shoulder portion of the inner container 110 near the liquid inlet/outlet portion 112 is liable to remain in the chemical liquid 108. In order to eliminate such residual liquid, the inner container may be constructed as follows. That is, as in the inner container 110-1 shown in Fig. 6, the shoulder portion of the inner container U0-1 near the liquid inlet/outlet port 13 201221125 is provided with a recess 130 recessed inward from the outer side of the inner container hoj. Further, in Fig. 6, (a) the plane circle '(B) of the inner container 110-1 is a side view seen from the direction of the arrow B in (A), and (C) is the arrow C from (A). Side view of the direction. Further, the numbers 131 and 132 are provided on the inclined surface formed on the top surface 111a of the inner container 110-1. The recess 130 is a shoulder portion of the top surface 111a and is disposed on both sides of a line segment passing through the center of the top surface 111a and the center of the liquid inlet and outlet portion U2. Such a recess 13 can be easily formed by blow molding when the inner container 110-1 is molded. By arranging the concave portion 130' to tilt the container and discharging the chemical liquid, since the concave portion 130 is formed in the portion where the chemical liquid is retained, the chemical liquid is not retained, and the liquid medicine is discharged from the liquid inlet/outlet portion to reduce the amount of the residual liquid. The angle between the connecting top surface 11 la and the slope 132 of the recess 130 is about 45 degrees. When the 60 liter inner bag composite container 100 is dropped or the hydraulic pressure in the container is lowered, the connection portion between the top surface 111a and the concave portion 130 is weakened. However, by making the portion a slope 132, the impact can be alleviated. Preferably, the upper end and the lower end of the inclined surface 132 are formed in an arc shape. The top surface iiia and the recess (4) 13 are formed by the arc shape. The strength of the town is increased to prevent or reduce damage to the inner container 110. It becomes more arc-shaped. The strength of the joint is made into a flat shape, and the corner portions 13〇a, 13〇b, 13〇c of the recess 130 are also shaped. With this configuration, the top surface 111a and the concave portion 130 are successively mentioned two. Although not shown,

The gap part of Uo, 3 polystyrene foaming problem. However, a spacer is preferably provided in the recessed portion of the outer container 120 and the inner container 110-1. As the spacer, for example, it can be used. When the recessed portion 设置3〇 is provided, the strength of the inner container 110-1 is lowered by 201221125 degrees, but it can be reinforced by the presence of the spacer in the gap portion. Further, as a modification of the concave portion 130, the concave portion 135 shown in Fig. 7 may be formed. Further, Fig. 7(A) is a plan view of the inner container 110-2, and (B) is a side view. The recessed portion 135 is formed by chamfering a shoulder portion (broken line portion) of the inner container 110-2 in the vicinity of the liquid inlet/outlet portion 112. The amount of residual liquid can also be reduced by the recess 135. Further, it is not limited to the inclined surface, and it has a considerable effect by increasing the arc portion of the shoulder portion from the previous one. Further, as a modification of the concave portion 130, a configuration shown in Fig. 8 may be employed. Further, Fig. 8(A) is a plan view of the inner container 110-3, and (B) is a side view. In the inner container 110-3, the liquid inlet/outlet portion 112 is close to the side wall side of the inner container 110-3, and the shoulder portion passing through the extension line of the line segment between the center of the top surface 111a and the center of the liquid inlet/outlet portion 112 is formed as The arc R is larger than the arc of the previous shoulder portion (dashed line), and the chemical liquid is not retained in the shoulder portion when the 60 liter inner bag composite container 100 is tilted to discharge the chemical. In such a configuration, the amount of the residual liquid can also be reduced. Further, instead of expanding the circular arc R, the portion may be a sloped surface. Further, in the case of this example, since the liquid inlet/outlet portion 112 is close to the side wall side of the inner container 110-3, the shape of the outer container 120 needs to be changed depending on it. Next, it can be attached to the liquid inlet/outlet portion 112 of the 60-liter inner bag composite container 100 configured as described above, and the chemical liquid discharge pipe for discharging the chemical liquid contained in the inner container 110 to the outside of the container, see Fig. 9. As explained below. The chemical liquid discharge pipe 150 is made of a resin which is flexible and chemically liquid, and is formed, for example, from Teflon (registered trademark), for example, having a diameter of about 8 mm, and has a length at the front end of the liquid inlet/outlet portion 112 in the container. The liquid suction port 151 is in contact with the bottom portion 111b of the inner container 110 which is in contact with the bottom plate 122, and the liquid suction 15201221125 port 151 is located to the extent of the central portion of the bottom plate 122 of the 60 liter inner bag composite container loo. Further, in the present embodiment, the liquid suction port 151 has a cross section which is obliquely intersected with respect to the axial direction of the chemical liquid discharge pipe 150 in the axial direction of the chemical liquid discharge pipe 150 as illustrated. Further, the cross section of the liquid suction port 151 may be formed as only a part of the above-mentioned diameter direction of the chemical discharge pipe 150, or a plurality of portions may be cut obliquely. Further, the chemical liquid discharge pipe 150 is attached to the front end portion 152 near the liquid suction port 151, and has a bottom plate 122 which is pressurized by the container for discharging the chemical liquid, and which is moved by gravity to the bottom plate 122 toward the outside of the container. The deformed portion 129 is aligned with the weight 153. The weight 153 is made of a metal material that does not chemically react with the chemical solution contained in the container. For example, a member that can be fitted into the through hole of the chemical liquid discharge pipe 150 is formed in a central portion of the square or circular plate material, or The cylindrical member is formed and held by the distal end portion 152 by the elastic force of the chemical discharge tube 150. Further, the shape and the mounting position of the weight 153 are attached by the weight 153. As a result, the liquid suction port 151 is not appropriately selected from the thickness of the bottom portion 11 ib of the inner container 110 to the thickness of the weight 153. As an example, in the present embodiment, the weight 153 has a cylindrical shape, and is inserted into the vicinity of the liquid suction port 151 by inserting the chemical liquid discharge pipe 15〇' in the inner diameter portion. Further, the weight of the weight 153 is preferably about 55 to 65 g, and is 60 g in the present embodiment. The other end of the chemical discharge pipe 150 opposite to the front end portion 152 is, for example, connected to the dispenser mechanism 200 shown in Fig. 9. The dispenser mechanism 20 is a mechanism for discharging the chemical liquid contained in the inner container 110 toward the outside of the container. In FIG. 9, it is shown that the inert gas of nitrogen gas or the like is injected into the 60-liter inner bag composite container 100. The composition of the pressurized method of the liquid medicine. 16 201221125 Grab the pumping method of pumping the liquid from a suction device such as a pump. The dispenser mechanism 200 of the pressurization type is roughly divided into a cylindrical plug-in body 2G1, a gas supply for supplying pressurized inert gas into the inner container (4), a device 202, and the above-mentioned drug solution discharge. Tube 15〇. The insertion main body 2G1 is obtained by, for example, resin insertion inspection attached to the liquid inlet and outlet, and is composed of an annular cover liquid, an annular spacer, and a seal ring 2G12. The ring-shaped Gass-shaped cylindrical member has a female thread 2 () u which is engaged with the body thread 1122 formed by the liquid inlet/outlet portion 112 at the inner peripheral surface of one end of the opening. Therefore, the plug body 2〇1=the cover 2Glr can be screwed to the cover of the liquid outlet portion i12, and the roll is formed on the circumference of the annular cover 2G1io, and the plug body 201 can be surely screwed. It is attached to the liquid inlet and outlet portion 112. One end is also opened to a circular shape. At the opening, an annular spacer 2Gis is rotatably embedded in the annular cover 2〇lr. That is, the spacer 2 〇 ls is a disc-shaped member forming a flange, and is inserted into the annular cover by a side opening, the flange abuts against the annular cover, and is embedded in the other end of the --shaped ridge: Opening. Further, in the annular cover 2〇ir, the annular cover is gradually screwed to the liquid inlet/outlet portion (1); the body thread 1122 is used, and the seal ring 2〇12 is the portion (10) of the seal liquid inlet/outlet portion (1) And the above-mentioned flange of the annular spacer paper is lost in the seal: between the crucible 12 and the annular cover. Thereby, the sealing ring 2〇12 is also sealed in a ring shape: aeration of the boundary between the 2〇lr and the annular spacer 2〇ls.第 The i-shaped joint 203 made of synthetic resin that detachably fixes the other end of the liquid medicine discharge pipe (10) and the second joint 204 that connects the gas supply device 202 to the 201221125 are screwed into the annular spacer. The first joint 203 can be slidably held in the axial direction with respect to the plug-in holder 201 by a commercially available straight support member, and can be fixed by locking the nut. Therefore, the length and position adjustment can be performed using the second joint 2〇3 so that the liquid suction port 151 of the chemical discharge pipe 15 is located at the central portion of the bottom plate 122 as described above. The second joint 204 is a synthetic resin joint that is connected to the opening of the annular cover 2〇ir of the plug body 2〇1 in the L-shape (bent shape) of 2013. A commercially available curved quick joint can be used. The pressurized inert gas is supplied to the inside of the inner container no. by connecting the hose connected to the gas supply device 202 to the second joint 204'. By using the dispenser mechanism 2〇〇 configured as above, the interior of the inner container 11 can be pressurized by the gas supply device 202 to a range of, for example, about i〇〇Kpa to about 150 kPa. The drug solution of 11 挤出 is extruded and discharged to the outside of the container through the drug solution discharge pipe 150. Further, when the dispenser mechanism 200 is used to discharge the drug solution to the outside of the container, a tilting table of the following description in which the 60-liter inner bag composite container 1 is tilted can be used. That is, the tilting table 25A shown in Fig. 10 includes a main body 251 and a pair of falling prevention columns 252. The main body 251 is formed of a metal plate such as a stainless steel plate, and a slope 251a inclined by about 1 〇 to 15 degrees is formed with respect to the ground surface. A 60 liter inner bag composite container was placed on the inclined surface 251a, and the liquid inlet/outlet portion 112 of the 6 liter inner bag composite container 100 was placed on the lower side of the inclined surface 251a. Here, when the angle of inclination of 201221125 exceeds 15 degrees, the possibility of overflow occurs, which is not preferable. Further, the pair of falling prevention columns 252 are formed of a metal round bar such as stainless steel, and are erected on the lower side of the inclined surface 25la. By using the tilting table 250 described above, the liquid inlet/outlet portion 112 is aligned to the lower side, and the 60-liter inner bag composite container 100 is tilted, whereby the liquid medicine in the inner container 110 can be collected in the liquid inlet and outlet portion when the liquid medicine is discharged. On the 112 side, the amount of the residual liquid can be reduced by the interaction with the above-described chemical liquid discharge pipe 150 in which the weight 153 is provided. Industrial Applicability The present invention is applicable to an inner bag composite container having a capacity of 60 liters in a resin inner container and a chemical liquid discharge pipe for the 60 liter inner bag composite container. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partial cross-sectional view showing the structure of a 6-inch liter inner bag composite dam in an embodiment of the present invention. Fig. 2 is a plan view of the 6-inch liter inner bag composite container shown in Fig. 1. Fig. 3 is a perspective view of the 6-inch liter inner bag composite container shown in Fig. 1. Fig. 4 is a cross-sectional view showing the liquid inlet and outlet portion of the inner container of the 6-inch liter inner bag composite container shown in Fig. 。. Fig. 5 is a view showing the state of the residual liquid when the 6 liter liter inner bag composite container shown in Fig. 1 is inverted and discharged. Fig. 6 is a view showing an example of a modification of the inner ridge of the 60 liter inner bag composite container shown in Fig. 1, (A) is a plan view, (8) is a side view of the arrow, (C) The arrow is viewed from the side view of C. 19 201221125 Fig. 7 is a view showing another modification of the inner container provided in the 60 liter inner bag composite container shown in Fig. 1, (A) is a plan view, and (B) is a side view. Fig. 8 is a view showing another modification of the inner container provided in the 60 liter inner bag composite container shown in Fig. 1, (A) is a plan view, and (B) is a side view. Fig. 9 is a view showing a chemical discharge pipe and a disperser mechanism which can be attached to the 60 liter inner bag composite container shown in Fig. 1. Fig. 10 is a perspective view showing a tilting table which can be applied to the 60 liter inner bag composite container shown in Fig. 1. Figure 11 is a diagram showing the construction of a prior 20 liter inner bag composite container. [Description of main component symbols] 1...Inside container 111: Main body part la... Main body part 11 la... Top surface lb·.·Outlet 111b...Bottom 2...Outside container 112.. Liquid inlet and outlet portion 2a, body 112a, axis direction 2b, bottom plate 112b, mouth portion 2c, top plate 113, spreader 3, lid body 113a, male thread, 10. Inner bag composite container 113b... outer peripheral portion 100...60 liter inner bag composite container 114... inner plug 101... upper end 115... cover 108... medicinal liquid 120... exterior Containers 110, 110-1, 110-2, 110-3, ..., 120a, accommodating portion, container 121, body 20, 201221125, 121a, ring, 122, bottom plate, 123., top plate 123a ... mouth opening 123b... recess 123c... area 123d... bevel 124.. handle 129.. deformation portion 130... recess 130a, 130b, 130c... corner 131, 132·. Inclined surface 135.. recessed portion 150.. chemical liquid discharge pipe 151.. liquid suction port 152.. front end portion 153.. weight 200.. . distributor mechanism 201.. . plug body 201r.. Annular cover 201s... annular spacer 202.. gas supply device 203.. first joint 204.. second joint 250.. tilting table 251.. body 251a... oblique 252 .. rollover prevention holding column 1121 .. 1122 .. screw threaded lid member 2011 .. 2012 .. female thread sealing ring 2013. ".... ... R & lt arcuate opening 21

Claims (1)

201221125 VII. Patent application scope: 1. Kind of 60, liter inner bag composite container is characterized by: - internal shame device, made of resin, and high-definition clarity required for containment operation "received volume of 6 liters, a liquid inlet/outlet portion is provided on the top surface, and the inner container is housed in the inner surface of the storage portion in which the bottom plate is wound around the cylindrical body, and the liquid inlet and outlet portion is formed. The protruding mouth portion is formed by crimping the top plate of the opening to the above-mentioned body. 2. The liter-liter inner bag composite container of the sixth item (i) of the patent application scope, wherein the above-mentioned liquid inlet and outlet portion of the inner fitting , outside the liquid inlet and outlet portion ° / 〇 ° ° Xuan liquid inlet and outlet portion of the axial direction concentrically in two sections with a holding (four) pattern and a cover (four) pattern; the above (four) thread system is close to the top surface to form ' a thread having a through hole for opening the mouth portion of the outer container for screwing a screw for holding the liquid outlet portion to the top plate; the cover thread is formed by being away from the top surface Zhuo father keeps the above thread a small diameter, and a screw for closing a lid of the mouth of the liquid inlet and outlet portion. 3. A 60 liter inner bag composite container according to the scope of claim 4, wherein the top plate is attached to the mouth opening. A recessed portion is formed from the opening for the mouth portion to a region beyond the center of the top plate. The 6 〇 liter inner bag composite container according to the first aspect of the patent application, wherein the outer container is made of an electrogalvanized steel sheet which can be omitted. In the molding, the chemical liquid is a chemical liquid used in at least one of a semiconductor field and a liquid crystal field, and the internal container is made of high-density polyethylene 22 201221125 resin of a chemical liquid specification, and is spray-formed under high quality management. 5. A liquid medicine discharge pipe, which is characterized in that it can be installed in a liquid inlet and outlet portion of a built-in container provided in a 60-liter inner bag composite container of claim 1 of the patent application, and is housed in the above-mentioned inner container a liquid medicine discharge pipe for the above-mentioned 60 liter inner bag composite container discharged from the outside of the container; the resin is made of a flexible and resistant liquid resin, and is in the vicinity of the liquid suction port. Having a solution discharge portion along with the pressurized container, so that the weight of the liquid suction port portion is allocated to the deformation toward the inner bag bottom plate 60 liters of the resulting compound container. 23