The present application is based on, and claims priority from, International Application No. PCT/JP04/00178, filed on Jan. 14, 2004, titled COVERED CONTAINER, which is incorporated herein by reference.
The present invention relates to a container with a lid arranged such that an open/close type lid disposed on the top surface and the like of a container main body is opened by depressing an operation member.
There is known a push-once-type container with a lid as a container for wet tissues packed in a bag (refer to, for example, Japanese Patent Application Laid-Open (JP-A) No. 9-59725). The container has an operation member, which is attached to a container main body and depressed thereinto, and the lid, which closes a wet tissue take-out port, is restrained at a close position by meshing the operation member with the lid and opened by being released from the operation member meshed therewith. Further, there is known a container with a lid having an operation member molded together with a container main body, in which the container has a locking mechanism assembled therewith that makes it impossible to depress the operation member in order to prevent the lid from being opened by a misoperation (refer to, for example, JP-A 2001-146247). Further, there is known a container with a lid having an operation member molded together with a container main body, in which the operation member is provided with a push member that pushes the lid upward from the lower surface side thereof as the operation member is depressed (refer to, for example, JP-A 2000-25805).
The locking mechanism disclosed in JP-A 2001-146247 is a slider as a locking member that is made as a part other than the operation member to be depressed. The slider is attached to the container main body and engaged with and disengaged from the operation member to thereby selectively lock and unlock the operation member. However, since the slider does not directly act on the lid, there is a possibility that the lid is opened because the lid meshed with the operation member is released therefrom depending on the degree of elastic deformation of the operation member. Further, when the operation member is provided with the container main body as a different part, the operation member and the locking member must be separately assembled to the container main body, which makes it troublesome to assemble the container.
Accordingly, an object of the present invention is to provide a container with a lid which can securely prevent the lid from being opened by a misoperation and in which an operation member and a locking member can be easily attached to a container main body.
A container with a lid of the present invention, which includes a container main body having a take-out port for a content, a lid attached to the container main body so as to open and close the take-out port, a lid urging device interposed between the container main body and the lid for urging the lid in an opening direction, and an operation member attached to the container main body in the state that the operation member can be operated between a close position at which it is meshed with the lid and keeps the lid in a closed state against the lid urging device and an open position at which the operation member is released from the lid meshed therewith, solves the above problems by a locking member attached to the operation member, the locking member being movable between a locking position, at which the locking member is meshed with the lid that is in the closed state as well as is abutted against a locking surface of the container main body as to an operating direction of the operation member to thereby make it impossible for the operation member to be operated from the close position to the open position, and a release position, at which the locking member is separated from the lid that is in the closed state and from the locking surface of the container main body, respectively and permits the operation member to be operated from the close position to the open position.
According to the present invention, moving the locking member to the locking position makes it impossible for the operation member to be operated to the open position, by which the lid can be prevented from being unintentionally opened. Since the locking member is meshed with the lid at the locking position, an effect of preventing the opening of the lid can be enhanced in comparison with the case that the locking member merely restrains the operation member. Since the locking member is attached to the operation member, the operation member can be assembled to the locking member before they are attached to the container main body, by which a trouble can be reduced, when they are attached to the container main body.
In a container with a lid of the present invention, an operation surface, which is exposed to an outside surface side of the container main body, may be formed to the operation member, and the locking member may be disposed so as to be movable between the locking position and the release position on a back surface side of the operation surface. In this case, it is possible to conceal the locking member behind the operation surface so that it is indistinctive. Since the operation surface can be sufficiently exposed to the outside surface side of the container, the operability thereof is not degraded.
The operation member may be disposed so as to move from the close position to the open position by depressing the operation surface, and the locking member may be disposed so as to move between the locking position and the release position in the state that it is supported by the operation member as to the direction in which the operation surface is depressed. In this case, the operation member and the locking member can be displaced (moved) together as to a direction in the operation member is depressed. Accordingly, the operation member can also be depressed to the open position through the locking member.
A guide surface, which is in contact with the locking member, may be formed on the back surface side of the operation member as well as a spring portion, which protrudes from the guide surface and urges the operation member to the close position, is disposed to the back surface side thereof, and the locking member may be supported so as to be slidable between the locking position and the release position while being in contact with the guide surface by being inserted into a groove formed in the spring portion. When a groove portion is formed in a part of the spring portion disposed on the back surface side of the operation member and the locking member is inserted into the groove portion, the locking member is held so as to be slidable along the guide surface on the back surface side with respect to the operation surface.
An extraction prevention device may be disposed to prevent the locking member from being extracted from the groove portion of the operation member. The extraction prevention device can prevent the locking member from being dropped off by a misoperation.
A shaft portion, which is divided by a slit, may be disposed on the back surface side of the operation member, a groove portion, which is engaged with the shaft portion, may be formed to the locking member so as to open in the direction in which the locking member is inserted into the groove portion of the operation member, and a pawl portion as the extraction prevention device, which reduces the width of the groove, may be disposed in the groove. According to this mode, when the locking member is inserted into the groove of the operation member, the shaft portion is elastically deformed in a diameter reducing direction by narrowing the slit of the shaft portion by causing the pawl portion on the locking member side to come into contact with the shaft portion, and after the operation member gets over the pawl portion, the shaft portion can be returned to its original diameter by an elastically restoring force. To extract the locking member from the operation member, the shaft portion must be elastically deformed so that the slit is narrowed, thereby the shaft portion is appropriately prevented from being extracted.
The groove portion of the locking member may be partitioned by the pawl portion to a first holding portion, to which the shaft portion is fitted when the locking member is located at the release position, and a second holding portion to which the shaft portion is fitted when the locking member is located at the locking position. In this case, the locking member can be held at the release position or the locking position with an appropriate force depending on whether the shaft portion is engaged with the first holding portion or with the second holding portion.
A stepped portion may be disposed on the back surface side of the operation member, and a protruding stopper as the extraction prevention device may be disposed on the surface of the locking member confronting the operation member, the stopper may be capable of being engaged with the stepped portion as to the direction in which the locking member is extracted from the groove portion of the operation member as well as extending in a wedge state as to the direction in which the locking member is inserted into the groove portion of the operation member. According to this mode, when the locking member is inserted into the groove portion of the operation member, the groove portion of the operation member is gradually enlarged by the wedge-shaped stopper, thereby the stopper can be passed through the groove portion. Thereafter, when the locking member is moved in a direction in which it is extracted from the operation member, the stopper is engaged with the stepped portion, thereby the extraction of the locking member can be prevented.
A pawl portion as the extraction prevention device may be disposed to the locking member, the pawl portion more protruding laterally with respect to the extracting direction in which the locking member is extracted from the groove portion of the operation member as it more advances in the extracting direction. According to this mode, when the locking member is inserted into the groove portion of the operation member, the lock member passes through the groove portion because the pawl portion is elastically deformed inward. Thereafter, when the locking member is moved in the direction in which it is extracted from the operation member, the locking member cannot pass through the groove portion of the operation member because pawl portion is elastically deformed outward.
A finger-placing portion may be disposed to the locking member, the finger-placing portion being located at the end of the operation member in the extracting direction thereof with respect to the groove portion and protruding from the operation surface of the operation member. When the finger-placing portion is disposed as described above, the locking member can be easily operated from the outside surface side of the container. Further, when the finger-placing portion protrudes beyond the outside surface of the container main body, the locking member can be more easily operated. When the locking member is moved from the locking position to the release position, the locking member is away from the lid, and the finger-placing portion is more largely drawn out from the operation member. Accordingly, the lid can be opened with a small force by reducing the depressing force of the operation member by the action of a lever by depressing the finger-placing portion.
The container main body may be formed in a constricted shape in which the central portion thereof is constricted when it is viewed from the take-out port side, and the operation member may be disposed in the constricted portion. The container main body can be easily grasped by providing it with the constricted shape. Further, when the container is packaged by a shrink film that wraps the container main body around the outside periphery thereof so as to include the constricted portion, the film is risen from the container main body in the constricted portion, thereby the operation member and the locking member disposed inside of the film is away from the film so that the film can be prevented from being damaged by being rubbed. When the locking member is held at the locking position, even if the finger-placing portion of the locking member and the operation member are depressed by the film, there is not a possibility that the operation member is moved to the open position. In particular, when the spring portion is disposed on the back surface side of the operation member, the operation member is prevented from moving to the open position in the packaged state, thereby the spring performance can be prevented from being deteriorated by the setting thereof.
A leg portion, which is a butted against the locking surface of the container main body at the locking position, may be disposed on the back surface side of the locking member. It is made impossible for the operation member to be depressed when the locking member is located at the locking position by causing the leg portion to come into contact with the locking surface.
A locking concave portion may be disposed to the front edge of the lid that confronts the operation member when the lid is in the closed state, and a locking portion may be disposed to the locking member, the locking portion being inserted into the locking concave portion when the lid is closed and the locking member is moved to the locking position and removed from the locking concave portion when the locking member is moved to the release position. When the locking portion is inserted into the locking concave portion of the lid in association with the movement of the locking member to the locking position, the locking member can securely prevent the lid from being opened. Even if the lid and the operation member are elastically deformed, the lid can be kept in a closed state by securing a sufficient amount of insertion.
A push-up member may be disposed to the operation member or the locking member, the push-up member coming into contact with the lid and pushing up the lid in a direction where it is opened when the operation member is operated from the close position to the open position. According to this mode, even if a resistance is increased because the content is caught between the lid and the container main body, the lid can be securely opened by pushing it upward.
A strap attachment portion, to which a strap can be attached, may be disposed to the container main body. The container main body can be kept in a mode in which it is hung on a wall and the like by attaching the strap thereto, in addition to the mode in which the container main body is placed on a horizontal surface.
Any one of the operation member and the locking member may contain a luminous material. When these members contain the luminous material, an operating portion for opening the lid emits light in a dark place, so that a user is allowed to open the lid easily. Further, since the sizes and the volumes of the operation member and the locking member are smaller than those of the container main body, even if the light emitting material is mixed therewith, it is mixed in a small amount, which is advantageous in cost.
In another container with a lid of the present invention including a container main body having a take-out port for a content, a lid attached to the container main body so as to open and close the take-out port, a lid urging device interposed between the container main body and the lid for urging the lid in an opening direction, and an operation member attached to the container main body in the state that the operation member can be operated between a close position at which it is meshed with the lid and keeps the lid in a closed state against the lid urging device and an open position at which the operation member is released from the lid meshed therewith, the container main body may be formed in a shape in which the central portion thereof is constricted when it is viewed from the take-out port side, and the operation member may be disposed in the constricted portion.
Further, in still another container with a lid of the present invention including a container main body having a take-out port for a content, a lid attached to the container main body so as to open and close the take-out port, a lid urging device interposed between the container main body and the lid for urging the lid in an opening direction, and an operation member attached to the container main body in the state that the operation member can be operated between a close position at which it is meshed with the lid and keeps the lid in a closed state against the lid urging device and an open position at which the operation member is released from the lid meshed therewith, the container main body may include a strap attachment portion to which a strap can be attached.
As shown in these figures, a container with a lid 1 includes a container main body 2, a bottom lid 3 for closing the opening of the container main body 2 on the bottom surface side thereof, an upper lid 4 disposed on the top surface 2a side (upper surface side in
The package will be explained here. As shown in
As apparent from
Next, the characteristics of the external appearance of the container 1 will be explained. As apparent from
As apparent from
Next, the arrangements of the portions relating to the upper lid 4 and to the opening and closing thereof will be explained. The upper lid 4 is disposed so as to open and close the take-out port 10 by turnably engaging turning shafts 4c (refer to
As shown in
A first concave portion (top surface side concave portion) 21 is formed on the top surface 2a of the container main body 2 in conformity with the shape of the outside periphery of the upper lid 4, and a second concave portion 22 is disposed in the first concave portion 21 at a position one step lower than it. The take-out port 10 and the flaps 1 described above are formed on a bottom plate 22a of the second concave portion 22. As shown in
As shown in
In contrast, as shown in
Lock portions 44 are formed on both the sides of the inlet of the groove portion 42. Further, a pair of stoppers 45 are formed on the upper surface 40a of the main body 40, and a pair of leg portions 46 are formed on the lower surface 40b thereof. The amount of protrusion of the leg portions 46 from the lower surface 40b is approximately the same as the amount of protrusion of the finger-placing portion 41 from the lower surface 40b. As shown in
As shown in
When the lock 7 is further depressed in the inserting direction in the state that the shaft portion 35 is engaged with the first holding portion 42a, the shaft portion 35 gets over the pawl portions 43b of the lock 7 and is engaged with the second holding portion 42b. As described above, the lock 7 can slide along the guide surface 30b of the push button 6 between a release position (position shown by a solid line in
Although the push button 6 and the lock 7 can be composed of the resin molded products as described above, a luminous material may be mixed with the material of any one of them so that the location of the container 1 can be found in a dark place. When the push button 6 and lock 7 emit light, the operating portion of the container 1 can be easily discriminated even in the dark place. Since the size and the volume of the push button 6 and the lock 7 are smaller than those of the container main body 2 and the upper lid 4, the amount of the luminous material to be mixed is small, by which an increase in cost resulting from mixing of the luminous material can be minimized.
The push button 6 and the lock 7 arranged as described above are attached to the container main body 2 in the state that they can be turned about the support shafts 31 by, first, attaching the lock 7 to the push button 6 and then engaging the support shafts 31 of the push button 6 with non-illustrated bearing portions opened to a button attachment groove 25 of the container main body 2 (refer to
Next, the operations of the push button 6 and the lock 7 will be explained. As apparent from
When the lock 7 is depressed to the locking position in the state that the upper lid 4 is closed, the leg portions 46 of the lock 7 are abutted against the locking surface 25b of the button attachment groove 25 (
In contrast, when the lock 7 is drawn out from the push button 6 in an extracting direction (the direction of an arrow B of
Note that, as shown by an imaginary line in
Since the finger-placing portion 41 of the lock 7 protrudes from the operation surface 30a, the finger-placing portion 41 can be operated with a finger put thereon not only when the lock 7 is slid between the locking position and the release position but also when the upper lid 4 is opened by depressing the push button 6. When the upper lid 4 is opened, the lock 7 is drawn out to the release position and the distance from the support shafts 31 to the finger-placing portion 41 is increased, thereby an operation force for opening the upper lid 4 is reduced by the action of a lever.
The lock 7 is restrained (supported) by the push button 6 as to the depressing direction of the push button 6 by the main body 40 of the lock 7 that is inserted into the groove portion 37 of the push button 6. Thus, even if only the finger-placing portion 41 is depressed, the lock 7 and the push button 6 are turned together about the support shafts 31 without being away from each other, thereby the upper lid 4 can be securely opened.
In the container 1 with the lid described above, as shown in
Further, since the container main body 2 and the bottom lid 3 are formed in the constricted shape, if the width of the shrink film is so large that the shrink film reaches the swelled portion of the container main body 2, the film may be risen from the container main body 2 on the front and rear side surfaces 2b and 2c of the container main body 2, and the push button 6 and the lock 7 may be away from the inside of the shrink film. In this case, the push button 6 and the lock 7 are prevented from being damaged by being rubbed against the shrink film at the portion thereof in contact with the film.
The constricted shape of the container main body 2 and the ring portion 14 disclosed in the embodiment described above can be also applied to a container with a lid in which the lock 7 is omitted. The push-up portions 34 may be disposed to the lock 7 in place of the operation member. The shape of the spring portion 32 is not limited to the bow shape and may be formed in a cantilever state. The shapes of the push button 6 and the lock 7 may be appropriately modified according to the shape of the container main body 2 and the like. The push button 6 and the lock 7 may be disposed so as to be back away into the button attachment groove 25 in their entireties beyond the outside surface (top surface 2a and side surface 2b) of the container main body 2.
In the above embodiment, the terms of the top surface, the bottom surface, the side surfaces, and the upper lid only specifies the positions of the respective portions relatively on the basis that the container is disposed with the take-out port facing upward, and when the container is actually used, the positions of the respective portions are not limited by these terms. For example, the container with the lid of the present invention may be used in the state that the take-out port faces laterally.
The present invention is by no means limited to the above embodiment and may be embodied in various modes. For example, the content is not limited to the wet tissues. The container with the lid of the present invention is not limited to the arrangement that the content is loaded and unloaded by detaching the bottom lid, and the content may be loaded, unloaded, and replaced by any appropriate mode.
As described above, according to the present invention, moving the locking member to the locking position makes it impossible to operate the operation member to the open position, and furthermore the locking member is meshed with the lid at the locking position, thereby the lid can be securely prevented from being unintentionally opened by a misoperation and the like. Since the locking member is attached to the operation member, the operation member can be assembled to the locking member before they are attached to the container main body, which reduces a trouble when they are attached to the container main body. Thus, the operation member and the locking member can be easily attached to the container main body.
Further, when container main body is formed in the shape constricted at the central portion thereof when it is viewed from the take-out port side, the container can be easily gripped. In addition to the above, when the film is wrapped around the outside periphery of the container, the container can be prevented from being damaged by being rubbed with the film by raising the film from the operation member and the like at the constricted portion. Further, when the strap attachment portion is provided, the container with the lid can be kept by being hung down.
Number | Date | Country | Kind |
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2003-006443 | Jan 2003 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2004/000178 | 1/14/2004 | WO | 00 | 7/13/2005 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/063041 | 7/29/2004 | WO | A |
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