JP3161555U - Container for liquid - Google Patents

Abstract

An excellent liquid container that can hold an opening cover in an open state and can store and transport liquid with good workability. An opening formed in a side plate portion of a container in which a nozzle is installed so that liquid stored in an inner bag can be discharged out of the container from the nozzle, and a closed state covering the opening, or an opening An opening cover that is moved to an open state in which the nozzle can be installed, and a cover holding unit that holds the opening cover in the open state. The opening cover is rotated by the rotation mechanism and the radial movement mechanism of the cover holding means and is moved to the closed state or the open state. [Selection] Figure 1

Description

  The present invention relates to an assembly-type liquid container suitable for storing liquid in an inner bag for transportation or storage.

  Conventionally, liquid containers have been used for transporting or storing liquids (see, for example, Patent Documents 1 and 2). A container for liquid usually has a pallet, a side plate assembled on the pallet, an upper lid, and the like, and has an inner bag made of, for example, polyethylene film, and holds the liquid to be transported in the container by the inner bag. It is like that. In this type of liquid container, in order to discharge the transported liquid, the inner bag is equipped with a nozzle for discharging the liquid. When discharging the liquid, the nozzle is formed from the nozzle hole formed in the container side plate. In many cases, the liquid can be discharged from the inner bag while the inner bag is housed in the liquid container. The container from which the liquid is discharged is taken out of the inner bag and then folded and stored or forwarded.

No. 8-2102 JP-A-10-35778

  In the liquid container, various forms have been proposed as the form of the nozzle of the inner bag for discharging the liquid and the nozzle hole formed in the side plate or the like for drawing out the nozzle. For example, the liquid container disclosed in Patent Document 1 discloses a simple nozzle hole, but the inner bag nozzle is configured as a cylindrical body having a flange at one end. In addition, it is lightweight and easy to dispose of. Further, in the liquid container described in Patent Document 2, nozzle holes are formed by two upper and lower plate-like members that are slidable so that the nozzles can be appropriately held. Also, for the purpose of protecting the nozzle or nozzle hole part, reducing the possibility of liquid leaking through the nozzle or nozzle hole part, reducing the possibility of foreign matter adhering or entering when discharging the liquid, etc. In some cases, a cover or the like is provided in the nozzle hole portion.

  On the other hand, in such a liquid container, the operability of the nozzles, nozzle holes, or the configuration related thereto is very important, and there is a demand for a liquid container having nozzles or nozzle holes, etc., that are as easy to operate as possible. ing. When a cover or the like is provided, the structure tends to be complicated. Even in such a configuration, for example, handling of the nozzle hole or operation of the nozzle can be easily performed with one hand, and the nozzle or nozzle hole is related. If the operability of the constituent parts is good, the liquid can be efficiently stored and transported, which is effective.

  The present invention has been made in view of such problems, and its purpose is for a liquid that can appropriately contain and transport a liquid, and can accommodate and transport a liquid with good workability. To provide a container.

  In order to solve the above problems, a liquid container according to the present invention is a liquid container that contains an inner bag for liquid having a nozzle for discharging liquid, and the liquid contained in the inner bag is discharged from the nozzle through the nozzle. An opening formed in a side plate portion of the container where the nozzle is installed so that the nozzle can be discharged out of the container, and a cover that covers the opening, and a closed state that covers the opening, or the opening And an opening cover that is moved to an open state so that the nozzle can be installed in the opening, and a cover holding unit that holds the opening cover in the open state.

  Preferably, the opening cover is rotated by a rotation mechanism and moved to the closed state or the opened state, and the cover holding means is configured to open the opening portion at a position where the opening cover is in the opened state. A locking portion formed to interfere with the rotation of the cover; a locked portion that interferes with the locking portion defined in the opening cover; the locked portion of the opening cover; A radial movement mechanism that moves the opening cover in the radial direction of the rotation shaft so as to avoid interference with the locking portion, and the opening cover is moved in the radial direction by the radial movement mechanism. By being moved and rotated, the state is maintained in either the opened state or the rotatable state capable of moving to the closed state.

  According to the present invention, since the opening cover can be held in the open state, when the liquid is discharged by operating the nozzle, there is no need for the operator to hold the opening cover in the open state. The operation becomes very easy. As a result, it is possible to provide an excellent liquid container that can store and transport liquid with good workability.

FIG. 1 is a perspective view showing a configuration of a liquid container according to an embodiment of the present invention. FIG. 2 is a perspective view showing a basic structure (excluding a cover latching portion) in the vicinity of the nozzle gate portion of the liquid container shown in FIG. 3 is a perspective view showing the configuration of the cover installation portion of the nozzle gate portion shown in FIG. 2, and is an enlarged view of a region A in FIG. 4 is a diagram showing the configuration of the nozzle gate portion shown in FIG. 2, FIG. 4 (A) is a front view thereof, FIG. 4 (B) is a side view thereof, and FIG. It is the top view. FIG. 5 is a view for explaining the movement of the cover of the nozzle gate portion shown in FIG. 2, FIG. 5 (A) is a view showing a state in which the cover is closed, and FIG. FIG. 5C is a diagram illustrating a state where the cover is opened, and FIG. 5C is a diagram illustrating a state where the cover is held open.

An embodiment of a liquid container according to the present invention will be described with reference to FIGS.
The liquid container exemplified in this embodiment is a container for storing and transporting liquid in an inner bag, and by exposing the nozzle mounted on the inner bag to the outside from the gate portion at the bottom of the container. The container is capable of discharging liquid while the inner bag is accommodated in the container. Examples of the liquid to be stored include liquid foods (beverages) such as fragrances, milk, fruit juices, fruit juice processed products, liquor, soft drinks, and liquid medicines, but are not limited to these, and any It can be liquid.

FIG. 1 is an exploded perspective view showing a configuration of a liquid container 1 according to an embodiment of the present invention.
As shown in FIG. 1, the liquid container 1 includes a pallet 100, a lower metal frame 150, a bottom plate 180, first to fourth side plates 200, 240, 260 and 280, a nozzle gate unit 300, and an upper lid 400.

  The pallet 100 is a carrier for the liquid container 1. A lift hole 102 into which a forklift claw is inserted is formed on the side surface of the pallet 100. In this embodiment, the pallet 100 is made of resin, but may be made of metal such as stainless steel or aluminum.

  The lower metal frame 150 is a metal member that is installed along the peripheral edge of the upper surface of the pallet 100, and defines the positions of the first to fourth side plates 200, 240, 260, and 280, and stands them upright. Or it is a support member for folding. The lower metal frame 150 includes corner metal fittings 151 having L-shaped cross-sections standing at the four corners of the upper surface of the pallet 100 and frame portions installed along the four sides of the upper surface of the pallet 100 so as to connect the corner metal fittings 151. 152. In the frame portion 152, a nozzle gate portion 300 to be described later is disposed (a central portion of the frame portion 152 where the first side plate 200 having the nozzle gate portion is installed). A cutout 153 is formed for ease of operation.

On the upper side of the corner metal fitting 151 of the lower metal frame 150, a pin receiving recess 154 into which the engagement pin 265 and the engagement pin 285 formed on the third side plate 260 and the fourth side plate 280 are fitted is formed.
In addition, a band through metal fitting 155 to which a band 450 attached to the upper lid 400 is attached is installed at each central part of the frame part 152 on the other three sides excluding the frame part where the notch 153 is formed. . The banding metal fitting 155 installed on the lower metal frame 150 is used when the liquid container 1 is folded and stored or transported.

  Further, in the lower metal frame 150, although not shown in the frame portion 152 corresponding to two opposing sides where the third side plate 260 and the fourth side plate 280 are installed, the third side plate 260 and the fourth side plate 280 are not illustrated. A fitting pin that fits into a fitting hole formed in the lower frame (for example, the fitting hole 286 of the fourth side plate 280) is installed inward. When the fitting pins formed on the lower metal frame 150 are fitted into the fitting holes formed on the third side plate 260 and the fourth side plate 280, the third side plate 260 and the fourth side plate 280 are removed upward. It is latched by the lower metal frame 150 so that there is no.

As described later, the first side plate 200 and the second side plate 240 are further installed on the third side plate 260 and the fourth side plate 280 that are locked to the lower metal frame 150 in this manner, so that the first to fourth side plates are arranged. The entire side plates 200, 240, 260 and 280 are installed on the lower metal frame 150, that is, on the pallet 100 so as not to be detached.
In addition, when using the container 1 for liquids, the methods of fixing the 1st-4th side plates 200, 240, 260, and 280 to the lower metal frame 150 may be arbitrary methods other than the said method.

  The bottom plate 180 is a plate member that defines the lower surface of the storage space of the liquid container 1, and is placed in a range surrounded by the lower metal frame 150 on the pallet 100. The material of the bottom plate 180 is stainless steel in the liquid container 1 of the present embodiment, but may be other metal materials. Any material other than metal, such as a plastic corrugated board, a synthetic resin board (including a foamed synthetic resin board), a plywood board or a fiber board, may be used as long as it can withstand the load of the liquid stored in the liquid container 1.

The first to fourth side plates 200, 240, 260, and 280 are erected along the lower metal frame 150 on the upper surface of the pallet 100, and the internal storage space of the liquid container 1 that stores a desired article on the pallet 100. Form.
As shown in FIG. 1, among the four side plates, the first side plate 200 and the second side plate 240 are arranged so as to face each other on one side of the rectangular pallet 100, and the third side plate 260 and the fourth side plate 280 are connected to each other on the other opposite side of the pallet 100, and the first side plate 200 and one side edge of the second side plate 240 are connected to each other. Are arranged as follows.

Of the first to fourth side plates 200, 240, 260, and 280, the second side plate 240, the third side plate 260, and the fourth side plate 280 are all formed as one plate-like member. The side plate 200 is divided into two in the vertical direction, and the lower side plate 210 and the upper side plate 220 are arranged in the vertical direction to constitute the first side plate 200. The lower side plate 210 is provided with a nozzle gate portion 300, and the nozzle of the inner bag containing the liquid stored in the liquid container 1 from the nozzle opening (opening portion) 303 of the nozzle gate portion 300 is externally provided. To be derived.
Hereinafter, the lower side plate 210 may be referred to as a side plate 210 with a nozzle gate. The nozzle gate unit 300 will be described in detail later.

The side plate 210 with nozzle gate, the upper side plate 220, the second side plate 240, the third side plate 260, and the fourth side plate 280 are all mounted with frame members made of side edge frame materials and upper and lower edge frame materials around the surface members. It is a configuration. In the present embodiment, the material of the surface member and the frame material is stainless steel, but other metal materials may be used, and the metal material of the surface member and the frame material may be different. Further, as long as the strength allows, other materials may be used for the face member and the frame member. For example, a material other than a metal such as a plastic corrugated board, a synthetic resin board (including a foamed synthetic resin board), a plywood board, a fiber board, or the like may be used as the surface member.
In addition, when both the surface member and the frame material are the same metal as in this embodiment, the frame material is formed by bending the periphery of the surface member, and the surface member and the frame material are integrally formed. The structure to do may be sufficient.

  In the liquid container 1 of the present embodiment, each side plate is made of stainless steel for both the frame member and the surface member. However, in order to secure further strength, the side plate is arranged vertically on the outer surface of each side plate. The reinforcement part is provided. That is, as shown in FIG. 1, the reinforcing portions 211 and 212 are provided on the side plate 210 with nozzle gate, the reinforcing portions 221 and 222 are provided on the upper side plate 220, and the reinforcing portions 281 and 282 are provided on the fourth side plate 280. The second side plate 240 and the third side plate 260 are also provided with a reinforcing portion similar to the fourth side plate 280, although not shown.

Each of these reinforcing portions is a cylindrical member having a rectangular cross section or a columnar member having a U-shaped cross section, and the vertical direction (longitudinal direction) connects the upper frame material and the lower frame material in each side plate. The vertical direction) is set along the surface member as the longitudinal direction. Further, the horizontal position is set at a boundary position that divides each side plate into approximately three equal parts in the horizontal direction (horizontal direction).
In this embodiment, the material of each reinforcement part is the same stainless steel as the surface member and frame material of a side plate. Each reinforcement part is installed in the frame material and surface member of each side plate by welding or the like.

  The side plate 210 with nozzle gate is formed with a fitting pin (not shown) protruding downward on the lower surface, that is, the bottom surface of the lower frame, and the side plate 210 with nozzle gate is erected along the lower metal frame 150. In this case, the fitting pin is inserted into a fitting hole (not shown) or a notch for fitting formed in corresponding portions of the lower metal frame 150 and the bottom plate 180. Thereby, in a state where the side plate with nozzle gate 210 is erected, the lower part of the side plate with nozzle gate 210 is restricted from moving inward (inward of the accommodation space of the liquid container 1). Since the movement of the lower part of the pallet 100 in the outer direction is limited by the lower metal frame 150, as a result, the horizontal direction of the lower part of the side plate 210 with nozzle gate (the direction perpendicular to the plate surface of the side plate 210 with nozzle gate). Is defined as a position along the lower metal frame 150.

  Further, stoppers 213 and 214 are provided at both upper corners of the side plate 210 with nozzle gate. The fasteners 213 and 214 are configured as engaging portions by bending the tip outward from the upper part of the left and right side edge frame material of the side plate 210 with nozzle gate, that is, the upper part of the side surface of the side plate 210 with nozzle gate. This is a locking mechanism that allows the engaging pin to be taken in and out, and that the engaging pin can be anchored at the position where the engaging pin is pulled out and the position where the engaging pin is retracted.

  Engagement of fasteners 213 and 214 of the side plate 210 with the nozzle gate of the side edge frame material of the third side plate 260 and the fourth side plate 280 with which the side surface of the side plate 210 with the nozzle gate abuts vertically in a state where the liquid container 1 is assembled. An engagement hole (not shown) into which the engagement pin is inserted and engaged is formed at a position corresponding to the protruding position of the pin. Therefore, in the state where the side plate with nozzle gate 210, the third side plate 260, and the fourth side plate 280 are all erected, the engaging pins of the fasteners 213 and 214 of the side plate with nozzle gate 210 are connected to the third side plate 260 and the second side plate. By engaging with the engagement holes of the side edge frame member of the four side plate 280, the upper portion of the side plate 210 with nozzle gate is positioned at the third side plate 260 and the fourth side plate 280. Is defined at a predetermined position along the side edge frame member.

  As described above, the engagement pin formed in the lower metal frame 150 is engaged with the engagement hole formed in the third side plate 260 and the fourth side plate 280 (for example, the engagement hole 286 of the fourth side plate 280). Thus, in a state where the third side plate 260 and the fourth side plate 280 are installed so as not to be detached from the lower metal frame 150, the side plate 210 with the nozzle gate is thus installed on the third side plate 260 and the fourth side plate 280. Accordingly, the side plate 210 with the nozzle gate is also installed so as not to be detached from the lower metal frame 150.

  The upper side plate 220 is formed with a fitting pin (not shown) protruding downward on the lower surface of the lower frame, that is, the bottom surface. When the upper side plate 220 is installed on the side plate 210 with nozzle gate, The fitting pins are inserted into fitting holes (not shown) formed at corresponding positions on the upper surface of the upper frame of the nozzle gate side plate 210. Thus, in the state where the upper side plate 220 is placed on the side plate 210 with nozzle gate, the position of the lower side of the upper side plate 220 in the horizontal direction (direction perpendicular to the plate surface of the side plate 210 with nozzle gate) is the side plate 210 with nozzle gate. It is defined at a position along the upper frame.

In addition, at both upper corners of the upper side plate 220, fasteners 223 and 224 having the same configuration and function as the fasteners 213 and 214 of the side plate 210 with nozzle gate are provided.
Further, in a state where the liquid container 1 is assembled, the engagement pins of the fasteners 223 and 224 of the upper side plate 220 of the side frame material of the third side plate 260 and the fourth side plate 280 with which the side surfaces of the upper side plate 220 abut vertically. An engagement hole (not shown) into which the engagement pin is inserted is formed at a position corresponding to the protruding position. Therefore, in the state where the side plate 210 with nozzle gate, the upper side plate 220, the third side plate 260, and the fourth side plate 280 are all erected, the engaging pins of the fasteners 223 and 224 of the upper side plate 220 are connected to the third side plate 260 and By engaging with the engagement holes of the side edge frame members of the fourth side plate 280, the upper side plate 220 is positioned at the positions (surface direction and vertical direction) of the third side plate 260 and the fourth side plate 280. It is defined at a predetermined position along the side edge frame member.

  As a result, the upper side plate 220 is also integrated with the side plate with nozzle gate 210, the third side plate 260, and the fourth side plate 280. As a result, the first side plate 200 including the side plate with nozzle gate 210 and the upper side plate 220 is formed. The third side plate 260 and the fourth side plate 280 are installed so as not to be detached from the lower metal frame 150.

  Similarly to the side plate 210 with the nozzle gate, the second side plate 240 arranged to face the side plate 210 with the nozzle gate is formed so that a fitting pin (not shown) projects downward on the bottom surface. When 240 is erected along the lower metal frame 150, the fitting pins are inserted into fitting holes or fitting notches formed at corresponding locations of the lower metal frame 150 and the bottom plate 180. It has become. Accordingly, in a state where the second side plate 240 is erected, the lower part of the second side plate 240 is restricted from moving in the inner direction of the upper part of the pallet 100 (the storage space for the liquid container 1). Since the movement of the second side plate 240 toward the outer side of the lower portion of the pallet 100 is limited by the lower metal frame 150, as a result, the lower surface direction of the second side plate 240 (perpendicular to the plate surface of the second side plate 240). Position) is defined as a position along the lower metal frame 150.

  Further, although not shown in the drawings, fasteners having the same configuration and function as the fasteners 213 and 214 of the nozzle gate side plate 210 are provided at both corners of the upper portion of the second side plate 240. In addition, in the state where the liquid container 1 is assembled, the protrusion of the engaging pin of the stopper of the second side plate 240 of the side edge frame material of the third side plate 260 and the fourth side plate 280 where the side surface of the second side plate 240 abuts vertically is brought about. An engagement hole (not shown) into which the engagement pin is inserted is formed at a position corresponding to the position. Therefore, in a state where the third side plate 260 and the fourth side plate 280 are erected, the engagement pins of the fasteners of the second side plate 240 are engaged with the engagement holes of the side edge frame members of the third side plate 260 and the fourth side plate 280. As a result, the upper part of the second side plate 240 is defined at a predetermined position along the side edge frame members of the third side plate 260 and the fourth side plate 280. The

  Accordingly, when the third side plate 260 and the fourth side plate 280 are installed on the lower metal frame 150 as described above, the second side plate 240 is also installed on the third side plate 260 and the fourth side plate 280. The second side plate 240 is also installed integrally therewith. As a result, the second side plate 240 is installed together with the third side plate 260 and the fourth side plate 280 so as not to be detached from the lower metal frame 150. .

  As described above, the third side plate 260 is formed with a fitting hole in the lower frame in which a fitting pin (not shown) formed in the frame portion 152 of the lower metal frame 150 is fitted. As described above, when the fitting pin formed on the lower metal frame 150 is fitted into the fitting hole, the third side plate 260 is integrated so as not to be pulled upward from the lower metal frame 150. .

  In addition, on both side end surfaces of the third side plate 260, the direction is on the inner side (containment space side) of the liquid container 1 in a direction perpendicular to the plate surface of the third side plate 260 and parallel to the plate surfaces of the first side plate 200 and the second side plate 240. An overhanging portion 267 with a plate surface overhanging is formed. When the liquid container 1 is assembled, the overhanging portion 267 is disposed outside the first side plate 200 and the second side plate 240. Thereby, the inclination to the outer side of the 1st side board 200 and the 2nd side board 240 is prevented. As a result, one end surface of each of the first side plate 200 and the second side plate 240 is disposed in contact with both side edges of the inner surface of the third side plate 260, and the first side plate 200 and the second side plate 240 are arranged. In the state in which is installed, tilting inward of the third side plate 260 is prevented.

  Further, in such a state, one of the fastening plates of the side plate 210 with nozzle gate, the upper side plate 220 and the second side plate 240 on the inner surface of the side frame member of the third side plate 260 (the fastening plate of the side plate 210 with nozzle gate). 213, at the position where the engaging pin of the stopper 223 of the upper side plate 220 and one stopper (not shown) of the second side plate 240 protrudes, as described above, the figure engaged with the engaging pin. An engagement hole (not shown) is formed. Therefore, the engagement pins of the side plates are engaged with the engagement holes, and the side plates and the third side plate 260 are engaged with each other, thereby preventing the third side plate 260 from tilting outward.

  With such a configuration, the third side plate 260 is integrated with the first side plate 200, the second side plate 240, and the lower metal frame 150 so as not to be detached in a state where the liquid container 1 is assembled.

The fourth side plate 280 also has the same structure as the third side plate 260. That is, the lower frame is formed with a fitting hole into which the fitting pin formed in the frame portion 152 of the lower metal frame 150 is fitted, and the both side end surfaces are perpendicular to the plate surface of the fourth side plate 280. Thus, a protruding portion 287 extending inward and parallel to the plate surfaces of the first side plate 200 and the second side plate 240 is formed, and the side plate 210 with nozzle gate, the upper side plate 220 and the second side plate on the inner surface of the side frame member are formed. An engagement hole is formed at a position where the engagement pin of each stopper of the side plate 240 protrudes.
In a state where the liquid container 1 is assembled, these components are engaged or locked with the opposing members, so that the fourth side plate 280 is also the first side plate 200 in the same manner as the third side plate 260. The second side plate 240 and the lower metal frame 150 are integrated so as not to be detached.

  In addition, a band through metal fitting to which a band 450 attached to the upper lid 400 is attached at a substantially upper center of the outer surface of the upper side plate 220, the second side plate 240, the third side plate 260, and the fourth side plate 280 of the first side plate 200. (For example, the banding fitting 228 of the upper side plate 220 and the banding fitting 288 of the fourth side plate 280) are installed. When the upper lid 400 is installed in a state where the liquid container 1 is assembled, these banding metal fittings 228, 288 and the like installed on the side plate are used.

  The upper lid 400 is a member for closing the upper opening of the accommodation space of the liquid container 1 formed by the first to fourth side plates 200, 240, 260 and 280 erected on the pallet 100. In the liquid container 1 of the present embodiment, the upper lid 400 is also made of a metal such as stainless steel, like the first to fourth side plates 200, 240, 260, and 280.

  At the four corners of the upper surface of the upper lid 400, for example, rubber misalignment prevention members 410 are installed. The displacement prevention member 410 is a member for preventing displacement of the upper and lower liquid containers 1 when the liquid containers 1 are stacked. The slip prevention member 410 is effective in either the assembled state or the folded state of the liquid container 1.

  A band 450 is attached to the side surface of the upper lid 400 around the four sides. The band 450 is a member for mooring the upper lid 400 to the first to fourth side plates 200, 240, 260, and 280 or the pallet 100 so that the upper lid 400 is not easily opened or detached. In the state in which the liquid container 1 is assembled, the band 450 is passed through the band through fittings (228, 288, etc.) attached to the first to fourth side plates 200, 240, 260, and 280, Further, in a state where the liquid container 1 is folded, the liquid container 1 is used by being passed through a band-through fitting (155 or the like) attached to the lower metal frame 150.

Next, the configuration of the nozzle gate unit 300 will be described in detail with reference to FIGS.
2 to 4 are diagrams showing a configuration of the nozzle gate unit 300, FIG. 2 is a perspective view thereof, and FIG. 3 is an enlarged view of a region A in FIG. FIG. 4A is a front view thereof, FIG. 4B is a side view thereof, and FIG. 4C is a top view thereof.

FIG. 5 is a view for explaining the movement of the cover 370 of the nozzle gate unit 300, FIG. 5A is a view showing a state where the cover 370 is closed, and FIG. FIG. 5C is a diagram showing a state where the cover 370 is opened, and FIG. 5C is a diagram showing a state where the cover 370 is held in an open state.
2 is used for explaining the basic structure of the nozzle gate section 300, the structure of the hooking section 380 of the cover 370 is not shown.

The nozzle gate unit 300 is a structure for exposing the nozzle of the inner bag to the outside so that the liquid can be discharged in a state where the inner bag is accommodated in the liquid container 1. As shown in FIG. 1, the nozzle gate part 300 is installed in the lower part of the 1st side board 200 (side board 210 with a nozzle gate).
As shown in FIG. 2, the nozzle gate portion 300 is formed with a nozzle opening 303 communicating with the internal storage space of the liquid container 1, from which the nozzle of the inner bag is drawn. The nozzle of the inner bag is formed with a groove or a flange around the base so that it can be stably installed in the nozzle opening 303, and the groove or the flange fits into the nozzle opening 303 having a perfect circle shape. By combining, the nozzle is installed in the nozzle gate unit 300.

  The nozzle gate unit 300 includes a first gate member 310, a second gate member 320, a first guide member 330, two second guide members 361 and 362, and a cover (opening cover) 370.

  As shown in FIG. 4, the first gate member 310 is a thin plate-like member that has a semicircular cutout 313 that forms a part of the nozzle opening 303 on the upper side, and is slidably moved up and down. is there. The second gate member 320 is a thin plate-like member that has a semicircular cutout 323 forming a part of the nozzle opening 303 on the lower side and is slidably movable up and down.

  As will be described later, the first guide member 330 and the two second guide members 361 and 362 are arranged on both sides of the nozzle opening 303 and in parallel with the plate surface of the side plate 210 with nozzle gate. The two gate members 320 are installed so as to form a gap slightly larger than the plate thickness. Further, both sides of the first guide member 330 are bent toward the outer surface, and side surfaces (first guide portions) 333 and 334 that define the positions of both side end surfaces of the first gate member 310 and the second gate member 320. Is formed.

  In contrast to the first guide member 330 and the second guide members 361 and 362 configured as described above, the first gate member 310 and the second gate member 320 have both side portions of the plate surface thereof different from the first guide member 330, respectively. It is disposed in a gap between the second guide members 361 and 362, and both end surfaces are defined by the first guide portions 333 and 334 of the first guide member 330, and are vertically moved along the first guide portions 333 and 334. It is installed so that it can slide.

  Accordingly, the first gate member 310 and the second gate member 320 are slid up and down in the same plane. In a normal usage pattern, the first gate member 310 is disposed at the lowermost end of the slidable range, and is disposed so that the lower end side contacts the lower frame member of the side plate 210 with nozzle gate. Further, the second gate member 320 is placed on the upper side of the first gate member 310. In this state, the notch 313 of the first gate member 310 and the notch 323 of the second gate member 320 form a perfect circular nozzle opening 303.

  As shown in FIGS. 2 and 4, the upper side of the second gate member 320 is a gripping portion that is gripped by the operator when the second gate member 320 is slid up and down, and near the nozzle opening 303. A bent portion 326 that also serves as an upper cover is formed. The bent portion 326 is formed by bending the upper part of the second gate member 320 outward.

  The 1st guide member 330 is a member which makes the base material of the nozzle gate part 300, and when the board | substrate part 331 is affixed on the outer-surface center part of the side plate 210 with a nozzle gate by welding etc., the side plate 210 with a nozzle gate is attached. Fixed installation. In the side plate 210 with nozzle gate, an opening 215 is formed at a position corresponding to the nozzle opening 303 (see FIG. 4B), and the first guide member 330 is located at the position of the opening 215 in the side plate 210 with nozzle gate. Installed.

The first guide member 330 is formed on the first guide portions 333 and 334 that guide the sliding movement of the second gate member 320 in the vertical direction, as described above, by bending both sides of the substrate portion 331 in the outer surface direction. Yes.
Further, as described above, the second guide member 361 is formed in the first guide portions 333 and 334 on both the left and right sides so as to form a gap that holds the first gate member 310 and the second gate member 320 slidably. And 362 are installed by welding or the like.

The second guide members 361 and 362 are rod-shaped members each having an L-shaped cross section. The second guide members 361 and 362 are fixedly installed by sticking one side surface to the inside of the left and right side surfaces (first guide portions) 333 and 334 of the first guide member 330 by welding or the like. . At this time, each of the second guide members 361 and 362 faces the other plate surface extending inward (nozzle opening 303 side), and as described above, the plate surface of the substrate portion 331 of the first guide member 330. The first gate member 310 and the second gate member 320 are installed with respect to the first guide member 330 so as to form a slidable gap.
The second guide members 361 and 362 have a length corresponding to a range in which the first gate member 310 and the second gate member 320 are slid.

A cover installation portion (cover holding means) 350 on which a cover 370 to be described later is rotatably installed is formed on the first guide member 330 with an upper plate portion 336 interposed therebetween.
As shown in FIG. 3, the cover installation portion 350 has long holes (radial direction moving mechanisms) 351 formed on both sides in the horizontal direction. Moreover, it has an engagement protrusion part (locking part) 353 which is formed in at least one of the ends in the horizontal direction and holds the cover 370 in an opened state.

  The oblong holes 351 formed on both sides in the horizontal direction of the cover installation part 350 are openings through which the mandrel 390 attached to the cover 370 passes, and the mandrel 390 is held on both sides in a rotatable state. It is. The elongated hole 351 is also formed in a vertical direction substantially parallel to the plate surface of the side plate 210 with nozzle gate, or in a direction inclined slightly outward from the vertical direction, and rotates the mandrel 390. While holding freely, the mandrel 390 is held movably along the longitudinal direction.

Further, the engagement protrusion 353 is used to maintain the state when the cover 370 is rotated upward and the nozzle gate unit 300 is opened, that is, the cover 370 is opened. In addition, the engagement portion (the upper edge portion of the surface portion) (the hooked portion) 376 of the cover 370 is engaged.
The functions of the long hole 351 and the engagement protrusion 353 will be described in detail later.

As shown in FIGS. 2 and 4, the cover 370 is a member that covers the entire nozzle gate portion 300 including the nozzle opening 303.
The cover 370 has a configuration in which side portions 372 and 373 are formed by bending inward both sides of the surface portion 371 in the horizontal direction.
Further, the end of the upper side of the cover 370 (the upper side in the vertical direction when the cover 370 is disposed so as to cover the nozzle gate portion 300) is formed so that the width thereof is narrower than the width of the surface portion 371. Then, the narrowly formed end portion is wound inward to form a cylindrical shape, and is formed in a mandrel holding portion 375 that holds the mandrel 390.

  The both sides of the mandrel 390 inserted and held in the mandrel holding part 375, that is, the outside of the mandrel holding part 375, are passed through the elongated hole 351 of the cover installation part 350 of the first guide member 330 described above. . As a result, the cover 370 is mounted on the cover installation portion 350 so as to be rotatable about the mandrel 390 as a rotation center and to be movable along the longitudinal direction of the long hole 351.

As shown in FIG. 3, at least one of the members of the cover installation portion 350 in which the elongated hole 351 of the first guide member 330 is formed protrudes further upward in substantially the same direction as the longitudinal direction of the elongated hole 351. It is formed on the engagement protrusion 353.
In addition, an engaging portion 376 is formed at the edge portion of the portion where the mandrel holding portion 375 on the upper side of the cover 370 is formed, where the width is narrowed. This portion is an area corresponding to a member that is disposed outside the mandrel holding portion 375 and corresponds to the member in which the elongated hole 351 of the cover installation portion 350 is formed, and the engagement protrusion 353 of the cover installation portion 350 is formed. It is an area.

  In a state where the mandrel 390 is disposed below the elongated hole 351, the engagement protrusion 353 of the cover installation portion 350 interferes with the upper end edge 376 of the surface portion of the cover 370. Therefore, the upper end edge 376 of the surface portion is defined as an engagement portion 376 with the engagement protrusion 353. That is, when the cover 370 is rotated in a state where the mandrel 390 is disposed on the lower side of the elongated hole 351, the engaging protrusion 353 interferes with the engaging portion 376 of the cover 370, The movement is stopped.

However, if the cover 370 is pulled upward so that the mandrel 390 is disposed above the elongated hole 351, the engagement portion (upper edge portion of the surface portion) 376 of the cover 370 does not interfere with the engagement protrusion 353. The cover 370 can be further rotated to the side close to the plate surface of the side plate 210 with nozzle gate.
Then, when the cover 370 is rotated in such a manner, the position of the engaging portion (upper end edge portion of the surface portion) 376 is arranged closer to the plate surface side of the side plate 210 with nozzle gate than the position of the engaging protruding portion 353. Then, the state where the cover 370 is pulled up is released, and the mandrel 390 is returned to the position where it is positioned below the elongated hole 351. As a result, the engaging portion (surface portion upper end edge) 376 of the cover 370 again interferes with the engaging protrusion 353 of the cover installation portion 350.

  That is, in this state, the surface portion 371 (engagement portion (surface portion upper edge)) 376 of the cover 370 is disposed between the engagement protrusion portion 353 and the plate surface of the side plate 210 with nozzle gate. Even if the operator releases the hand holding the cover 370, the engaging portion (surface portion upper edge) of the cover 370 interferes with the engaging protrusion 353 and the engaging portion (surface portion upper edge). Part) 376 is maintained in a posture engaged with the engaging protrusion 353, and does not rotate downward. That is, the cover 370 is maintained in a state where the nozzle opening 303 of the nozzle gate unit 300 is opened.

In this state, when the nozzle gate unit 300 is closed again by the cover 370, the mandrel 390 is moved above the elongated hole 351 by pulling the cover 370 upward, and the engaging portion (the upper edge of the surface portion) ) The engagement state between 376 and the engagement protrusion 353 of the cover installation portion 350 is released. As a result, the cover 370 can be rotated downward, and the nozzle gate unit 300 can be closed.
In addition, the protrusion length and height of the engagement protrusion part 353 are prescribed | regulated to the length and height which produce such an effect | action and a function.

The locking portion 380 is configured to maintain a state where the cover 370 closes the nozzle opening 303 when the liquid container 1 is transported or the like.
The locking portion 380 is composed of two parallel flat plates arranged horizontally at a predetermined interval, and includes two pieces, a cover side horizontal plate member 381 and a cover side horizontal plate member 381 installed on one side surface portion 373 of the cover 370. Of the cover side horizontal plate member 381 installed on the locking pin 382 and the locking pin 382, which are arranged so as to pass through the holes formed in the parallel flat plates, and whose one end (head) is bent at a substantially right angle. A spring 383 which is disposed between the upper plate of the two parallel flat plates and the spring locking pin 384 of the locking pin 382 and presses the spring locking pin 384, that is, the locking pin 382 in a downward direction, and a cover The reinforcing portion 212 of the side plate 210 with nozzle gate is arranged so that the tip of the locking pin 382 passes through the hole below the cover side horizontal plate member 381 in parallel with the two parallel flat plates of the side horizontal plate member 381. And a shroud side lateral plate member 386 to be installed.

  In the locking portion 380, by holding the bent head of the locking pin 382 and moving the locking pin 382 upward against the spring force of the spring 383, The fitting state with the hole of the side plate side horizontal plate member 386 is released, and the cover 370 on which the locking portion 380 is installed is rotatable. That is, in this state, the cover 370 of the nozzle gate unit 300 can be opened.

  When the cover 370 is closed, the cover 370 is rotated to a position substantially covering the nozzle gate portion 300, the head of the locking pin 382 is gripped, and the locking pin is resisted against the spring force of the spring 383. 382 is moved upward, and the cover 370 is moved to a position where the nozzle gate portion 300 is completely covered in a state where the tip of the locking pin 382 and the hole of the side plate side horizontal plate member 386 do not interfere with each other. The gripping state of the head is released and the tip of the locking pin 382 is fitted into the hole of the side plate side horizontal plate member 386. Accordingly, the cover 370 is held in a state where the nozzle gate unit 300 is completely covered, and is maintained in a state where it cannot rotate, that is, a state where the nozzle opening 303 of the nozzle gate unit 300 is covered.

Finally, the operation of the cover 370 when the liquid is transported in the liquid container 1 having such a configuration will be described collectively with reference to FIG.
First, in the normal transportation state, as shown in FIG. 5A, the cover 370 is closed in the nozzle gate portion 300.

  When opening the cover 370, the cover 370 is rotated with the mandrel 390 as the center of rotation so that the cover 370 is opened in the vertical direction substantially parallel to the side plate 210 with nozzle gate. At this time, as shown in FIG. 5B, when the cover 370 is rotated while the cover 370 is pulled upward, the mandrel 390 is placed above the elongated hole 351 when the cover 370 is rotated upward. Moved. In this state, as shown in the figure, the engaging portion (upper edge portion of the surface portion) 376 of the cover 370 is in a position where it does not interfere with the engaging protruding portion 353 of the cover installing portion 350, and the cover 370 remains as it is. The engagement protrusion 353 can move toward the side plate 210 with nozzle gate.

  Then, when the engaging portion (upper end edge portion of the surface portion) 376 of the cover 370 moves to the side of the side plate 210 with the nozzle gate beyond the engaging protruding portion 353 of the cover installing portion 350, the state where the cover 370 is lifted is released. . As a result, the cover 370 moves downward as shown in FIG. 5C in a state where the mandrel 390 is guided by the elongated hole 351 of the cover installation portion 350. In this state, even if the force holding the cover 370 is released and the cover 370 is left as it is, the engagement portion (upper edge portion of the surface portion) 376 of the cover 370 is engaged with the cover installation portion 350 as shown in the figure. The cover 370 does not rotate downward, that is, in a direction to close the nozzle opening 303 of the nozzle gate portion 300, by engaging with the mating protrusion 353. That is, as shown in FIG. 5C, the state where the cover 370 is opened is maintained.

  In this state, the worker does not need to be involved in opening the cover 370, and the worker can concentrate on the operation of the nozzle.

  When the nozzle operation is completed and the cover 370 is closed, the cover 370 is pulled up to engage the engagement portion (upper edge portion of the surface portion) 376 and the engagement protrusion portion of the cover installation portion 350. As shown in FIG. 5B, the cover 370 is brought into a rotatable state as shown in FIG. 5B. By continuously rotating the cover 370, the cover 370 is moved to the state shown in FIG. As shown, the nozzle opening 303 is closed.

As described above, according to the liquid container 1 of the present embodiment, the cover 370 can be maintained in an open state, so that an operator does not need to maintain the cover in an open state. You can concentrate on the operation.
Therefore, for example, the liquid container 1 with good operability that can operate the cover 370 and the nozzle gate unit 300 with one hand can be provided.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the present invention.
For example, the container of the present invention is not intended to contain a specific article, but is a container that can contain any article, and may contain, for example, food or medicine, or an industrial product part. Etc. may be used for accommodation.
Moreover, an arbitrary bag may be used as the inner bag, and the nozzle may be in any form.

DESCRIPTION OF SYMBOLS 1 ... Liquid container 100 ... Pallet 102 ... Lifting hole 150 ... Lower metal frame 151 ... Corner metal fitting 152 ... Frame part 153 ... Notch 154 ... Pin receiving recessed part 155 ... Band through metal fitting 180 ... Bottom plate 200 ... First side plate 210 ... Side plate with nozzle gate (lower side plate)
211, 212 ... reinforcing part 213, 214 ... stop fitting 215 ... nozzle gate opening 220 ... upper side plate 221,222 ... reinforcing part 223,224 ... stop fitting 228 ... band-through fitting 240 ... second side plate 260 ... third side plate 265 ... engaging pin 267 ... projecting part 280 ... fourth side plates 281, 282 ... reinforcing part 285 ... engaging pin 286 ... engaging hole 287 ... projecting part 288 ... banding fitting 300 ... nozzle gate part
303 ... Nozzle opening 310 ... First gate member
313: Notch 320: Second gate member
323 ... Notch
326: bent portion 330 ... first guide member
331 ... Substrate part
333, 334 ... 1st guide part
336 ... Upper plate part
350: Cover installation part
351 ... slot
353... Engaging protrusions 361 and 362... Second guide member 370.
371 ... surface portion
372, 373 ... side surface
375 ... Mandrel holder
376... Engaging portion (upper edge of surface portion)
380 ... Locking portion
381 ... Cover side plate member
382 ... Locking pin
383 ... Spring
384 ... Spring locking pin
386: Side plate side horizontal plate member 390 ... Mandrel 400 ... Upper lid 410 ... Misalignment prevention member 450 ... Band

Claims (2)

A container for liquid containing an inner bag for liquid having a nozzle for discharging liquid,
An opening formed in a side plate portion of the container where the nozzle is installed so that the liquid contained in the inner bag can be discharged out of the container from the nozzle;
A cover that covers the opening, and is in a closed state that covers the opening, or an opening cover that is moved to an open state in which the opening is exposed and the nozzle can be installed in the opening;
Covering means for holding the opening cover in the opened state. The opening cover is rotated by a rotation mechanism and moved to the closed state or the open state,
The cover holding means is
A locking portion formed to interfere with the rotation of the opening cover at a position where the opening cover is in the open state;
A locked portion that interferes with the locking portion defined in the opening cover;
A radial movement mechanism that moves the opening cover in the radial direction of the rotation shaft so as to avoid interference between the locked portion and the locking portion of the opening cover;
The opening cover is moved in the radial direction by the radial movement mechanism and rotated, so that the opening cover is held in the opened state or is rotatable in the closed state. The liquid container according to claim 1, wherein the container is liquid.

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