JP6177600B2 - Sealed container - Google Patents

Description

  The present invention relates to a sealed container capable of sealing the inside of the container main body by attaching a lid to the container main body that accommodates an object.

  Conventionally, a sealed container is configured so that the inside of the container main body can be sealed by attaching a lid to the container main body that accommodates an object. In such a sealed container, “sealing performance of the sealed container” and “easy to attach / detach the lid to / from the container body” are regarded as important.

  As inventions related to the above-described closed containers, for example, the inventions described in Patent Document 1 and Patent Document 2 are known. For example, the hermetic container described in Patent Document 1 includes a lid body in which a central portion is molded with a hard synthetic resin and an outer peripheral portion is molded with a soft synthetic resin, and a container body. The inside of the container body is sealed by fitting the opening of the container body into the formed fitting groove.

  Further, the sealed container described in Patent Document 2 has a lid body formed of a hard synthetic resin and a container body formed in a cylindrical shape, and the lid body is attached to the opening of the container body. The inside of the container body is sealed by screwing. And the cover body of patent document description has the drooping part which hangs down gradually thinly below inside the outer peripheral part of the said cover body. The hanging portion is configured to be crimped to an inclined surface formed on the outer peripheral wall surface of the container body when the lid is attached to the container body, and to seal the container body.

JP 09-295655 A JP 2000-103448 A

  Here, in the closed container described in Patent Document 1, the inside of the container body is sealed by performing an operation of fitting the opening of the container body into the fitting groove formed in the lid. Therefore, in the sealed container described in Patent Document 1, the lid can be easily attached to and detached from the container main body. However, in the sealed container described in Patent Document 1, since the inside of the container body is sealed by sandwiching the opening of the container body by the fitting groove of the lid, in terms of hermeticity of the sealed container. It was not enough.

  On the other hand, in the closed container described in Patent Document 2, the drooping portion of the lid body is made to the inclined surface formed on the outer peripheral wall surface of the container body by screwing the lid body into the opening of the container body. Can be sufficiently sealed. The hanging part in Patent Document 2 is formed of a hard synthetic resin in the same manner as the lid body, and the lid body has a screw-fitting structure because the hanging part is deformed and brought into close contact with the inclined surface of the container body. Is attached to the container body. Therefore, in the sealed container described in Patent Document 2, the work of attaching and detaching the lid to the container body has been complicated.

  Further, in the case of the sealed container described in Patent Document 2, the tip of the hanging portion made of a hard synthetic resin, like the lid, is worn by rotation when the lid is screwed to the container body, and the sealed container It will reduce the sealing of the container. Furthermore, in the sealed container described in Patent Document 2, a heel due to secular change is attached to the tip of the hanging part, and the hanging part has a shape along the inclined surface formed on the outer peripheral side wall of the container body. There is. In this case, the drooping portion and the inclined surface cannot be sufficiently adhered to each other, and there is a possibility that the airtightness of the airtight container is deteriorated.

  The present invention relates to a sealed container capable of sealing the inside of the container main body by attaching a lid to the container main body that accommodates an object. The lid can be easily attached and detached and can maintain high sealing performance. Provide a container.

The sealed container according to claim 1 is a sealed container having a container main body that accommodates an object, and a lid body that is formed along an outer peripheral edge and has a fitting groove that is fitted to an opening edge of the container main body. The container main body has a flange portion that is formed to protrude toward the outer side of the container main body at the opening edge, and the lid body includes a lid main body portion that is located at the center of the lid body , An inner side wall of the fitting groove standing substantially vertically from an outer peripheral edge of the lid main body part, and the fitting groove extending from the upper end of the inner side wall of the fitting groove toward the outer side of the lid body of the ceiling portion, and the outer side wall of the fitting groove from an outer peripheral end is extended beneath the ceiling of the fitting groove, formed protruding from the inner wall surface of the ceiling portion of the front Kihamagomizo, the container body When it is attached to the container body, it is elastically deformed by contact with the end face of the flange portion constituting the opening edge of the container body Yes and stop portion, the formed projecting toward the inside of the inner wall or al the lid outer side wall of the fitting groove, and an engagement portion that engages the flange portion when attached to the container body The lid body portion and the inner side wall of the fitting groove are formed of a hard synthetic resin, the ceiling portion of the fitting groove, the sealing portion, the outer side wall of the fitting groove, and the engaging portion. It is characterized Rukoto formed by soft synthetic resin.

  And the airtight container which concerns on Claim 2 is the airtight container of Claim 1, Comprising: When the said cover body is attached to the said container main body, the said sealing part contacts the end surface of the said flange part. It is elastically deformed by contact with the end face of the flange portion.

  Further, the sealed container according to claim 3 is the sealed container according to claim 1 or 2, wherein the sealing portion is disposed outside the sealed container when the lid is attached to the container body. In this case, the flange portion is brought into contact with the end surface so as to form an acute angle.

  And the airtight container which concerns on Claim 4 is the airtight container in any one of Claim 1 thru | or 3, Comprising: The said sealing part is the inner side of the said cover body as the front end side of the said sealing part. An inclined surface that is inclined so as to be positioned is provided at a tip portion of the sealing portion.

  Further, the sealed container according to claim 5 is the sealed container according to any one of claims 1 to 4, wherein the sealing portion is positioned closer to the inside of the lid body as the tip of the sealing portion is. It is formed so that it may protrude from the back | inner side part of the said fitting groove in the direction inclined so.

The airtight container which concerns on Claim 1 has a container main body and a cover body, and is comprised. Lid has a fitting groove on the outer periphery of it. In addition, the lid body is formed of a hard synthetic resin, with a lid body portion located at the center of the lid body and an inner side wall of a fitting groove standing substantially vertically from the outer periphery of the lid body portion. Yes. Further, the fitting groove is formed to protrude from the ceiling portion of the fitting groove, the outer side wall of the fitting groove, the sealing portion protruding from the inner wall surface of the fitting groove, and the inner wall surface of the outer side wall of the fitting groove. The engaging portion is made of a soft synthetic resin.
Therefore, according to the closed container, the ceiling portion of the fitting groove, the sealing portion, the outer side wall of the fitting groove, and the engaging portion are formed of the soft synthetic resin. Thus, the flange portion of the container body can be fitted, and the lid can be easily attached and detached. In the sealed container, when the lid is attached to the container main body, the engaging portion of the lid engages with the flange portion of the container main body, so that the positional relationship between the lid and the container main body can be maintained. At this time, in the inside of the fitting groove of the lid, the sealing portion formed of the soft synthetic resin comes into contact with the end face of the flange portion that constitutes the opening edge of the container main body and elastically deforms. Higher sealing performance can be realized. As described above, since the positional relationship between the lid and the container main body is maintained by the engagement between the flange portion and the engaging portion, the sealing portion is pressed against the end surface of the flange portion with a certain tension or more. As a result, the sealed container can facilitate the attaching / detaching operation of the lid and can realize high sealing performance. And according to the said airtight container, when attaching a cover body to a container main body, since a cover body is only pressed to the opening part of a container main body, it wears like the case where a sealing body screw-fits a cover body. In other words, high sealing performance can be maintained. Furthermore, in the said airtight container, since the sealing part of a cover body is formed with soft synthetic resin, compared with the case where it forms with hard synthetic resin, a high restoring force can be provided to a sealing part. According to the said airtight container, a wrinkle is attached to a sealing part and it can prevent that airtightness falls. Furthermore, since the inner side wall of the fitting groove is formed integrally with the lid body portion from the hard synthetic resin in the same manner as the lid body portion, the rigidity of the lid body can be increased.

  According to the sealed container of the second aspect, when the lid is attached to the container body, the sealing portion formed of the soft synthetic resin includes the tension relating to the positional relationship between the lid and the container body, and the flange portion. Since it is elastically deformed by coming into contact with the end surface of the flange and is in close contact with the end surface of the flange portion, high sealing performance can be realized.

  The sealed container according to claim 3, wherein the sealing portion is formed on the outer side of the sealed container so as to make an acute angle with the end surface of the flange portion. Here, if the sealing part formed in the fitting groove of the lid body is elastically deformed toward the outside of the container body when it comes into contact with the end face of the flange part, the sealing performance by the sealing part is lowered. I will let you. According to the sealed container, the sealing portion is always elastically deformed toward the inside of the container body by bringing the sealing portion and the end surface of the flange portion into contact with each other at an acute angle outside the sealed container. And stable sealing can be realized.

  The sealed container according to claim 4, wherein the sealing portion has an inclined surface at a distal end portion of the sealing portion that is inclined so as to be positioned inside the lid body toward a distal end side of the sealing portion. Yes. According to the sealed container, by forming the inclined surface at the tip of the sealing part, the tip of the sealing part can be guided toward the inside of the container main body when it comes into contact with the end face of the flange part. As a result, when the lid is attached to the container body, the sealed container can always deform the sealing portion toward the inside of the container body, and can realize a stable sealing property.

  According to the sealed container of the fifth aspect, the sealing portion protrudes from the back side portion of the fitting groove in a direction inclined so as to be positioned on the inner side of the lid as the tip of the sealing portion is located. It is formed as follows. By making the projecting direction of the sealing portion incline so that the tip of the sealing portion is located inside the lid body, the sealed container has the tip of the sealing portion in contact with the end surface of the flange portion. At this point, the tip of the sealing portion can be guided toward the inside of the container body. As a result, according to the said airtight container, a sealing part can be always deformed toward the inner side of a container main body, and the stable airtightness can be implement | achieved.

It is an external appearance perspective view of the airtight container concerning a 1st embodiment. It is an external appearance perspective view which shows the airtight container of the state which removed the cover body. It is sectional drawing which shows the structure of the cover body which concerns on 1st Embodiment. It is an expanded sectional view showing the fitting slot neighborhood of the lid concerning a 1st embodiment. It is sectional drawing which shows the open state of the airtight container which concerns on 1st Embodiment. It is sectional drawing which shows the airtight state of the airtight container which concerns on 1st Embodiment. It is sectional drawing which shows the structure of the cover body of the airtight container which concerns on 2nd Embodiment. It is an expanded sectional view showing the fitting groove neighborhood of the lid concerning a 2nd embodiment. It is sectional drawing which shows the open state of the airtight container which concerns on 2nd Embodiment. It is sectional drawing which shows the airtight state of the airtight container which concerns on 2nd Embodiment. It is an expanded sectional view which shows the fitting groove vicinity of the cover which concerns on 3rd Embodiment.

  Hereinafter, based on the embodiment (the 1st embodiment) which applied the airtight container concerning the present invention to airtight container 1, it explains in detail, referring to drawings.

(First embodiment)
First, the structure of the airtight container 1 which concerns on 1st Embodiment is demonstrated, referring drawings. As shown in FIGS. 1 and 2, the sealed container 1 according to the first embodiment includes a container body 10 and a lid body 20, and the inside of the container body 10 can be sealed by attaching the lid body 20. It is configured.

  The container body 10 is formed of a hard synthetic resin (for example, polypropylene) in a box shape with the top opened, and is configured to be able to accommodate an object (for example, food) inside the container body 10. . The container body 10 includes a bottom plate (not shown) having a substantially rectangular shape, and a container side wall 11 erected substantially vertically on four sides of the bottom plate.

  A grip portion 12 is formed on each container side wall 11 of the container body 10. The gripping part 12 is formed on each container side wall 11 corresponding to the upper part of the container main body 10, and is a part that an operator grips when the sealed container 1 is transported.

  A flange portion 15 is formed in the opening of the container body 10. The flange portion 15 is formed by horizontally projecting the upper end portion of each container side wall 11 corresponding to the opening of the container body 10 toward the outside of the container body 10 (see FIG. 2 and the like). As will be described later, the flange portion 15 is fitted into a fitting groove 50 formed on the outer periphery of the lid body 20, and engages with an engagement protrusion 55 formed in the fitting groove 50. The upper end surface 16 of the flange portion 15 extends parallel to the bottom plate of the container body 10 and is parallel to the mounting surface of the sealed container 1.

  The lid 20 is formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, an olefin elastomer), and is attached to the opening of the container body 10 to seal the inside of the container body 10. Specifically, the lid 20 includes a main body portion 30 formed of a hard synthetic resin and an outer peripheral portion 40 formed of a soft synthetic resin, and is integrally formed.

  As shown in FIGS. 1 to 3, the main body 30 is formed in a flat plate shape by a hard synthetic resin (for example, polypropylene), constitutes a central portion of the lid body 20, and has an inner side wall 31. The inner side wall 31 is erected substantially vertically at the outer peripheral edge of the main body 30 formed in a flat plate shape, and is formed integrally with the main body 30. Here, since the main body 30 integrally molds the inner side wall 31 that is substantially perpendicular to the portion formed in a flat plate shape with a hard synthetic resin, the rigidity of the lid body 20 is increased. In addition, as shown in FIGS. 1-3, the predetermined uneven | corrugated process is formed in the part currently formed in flat form in the main-body part 30, and the rigidity of the cover body 20 is given by performing the said uneven | corrugated process. Is increasing.

  And the outer peripheral part 40 comprises the outer peripheral part in the cover body 20, and is formed with soft synthetic resin (for example, olefin type elastomer). As shown in FIGS. 3 and 4, the outer peripheral portion 40 has a ceiling portion 41 and an outer side wall 42. The ceiling portion 41 is a plate-like portion extending substantially horizontally from the upper end portion of the inner side wall 31 in the main body portion 30 toward the outer side of the lid body 20 and constitutes a part of a fitting groove 50 described later. The outer side wall 42 is integrally molded with the above-described ceiling 41 by a soft synthetic resin (for example, olefin elastomer), and extends downward from the outer peripheral end of the ceiling 41. The outer side wall 42 constitutes the outermost part of the lid 20 and constitutes a part of a fitting groove 50 described later.

  As shown in FIG. 1 to FIG. 4, the fitting groove 50 is formed on the outer periphery of the lid body 20 by the inner side wall 31 formed of a hard synthetic resin, the ceiling portion 41 and the outer side wall 42 formed of a soft synthetic resin. And is formed at a position corresponding to the opening edge of the container body 10.

  Next, the configuration of the fitting groove 50 in the lid 20 will be described in detail with reference to the drawings. As shown in FIGS. 3 and 4, the fitting groove 50 has an inverted U-shaped cross section by an inner side wall 31 formed of a hard synthetic resin, a ceiling portion 41 and an outer side wall 42 formed of a soft synthetic resin. It is formed in the groove shape which has. As described above, the fitting groove 50 is formed along the outer periphery of the lid body 20 and has a groove shape in which the lower side is opened, so that the flange portion 15 that is the opening portion of the container body 10 can be inserted. It is configured.

  A sealing rib 51 and an engaging protrusion 55 are formed on the inner wall surface of the fitting groove 50. As shown in FIGS. 3 to 6, the sealing rib 51 is formed so as to protrude from one surface of the ceiling portion 41 constituting the inner wall surface corresponding to the back side portion of the fitting groove 50 toward the open portion of the fitting groove 50. The container body 10 is hermetically sealed by closely cooperating with the upper end surface 16 of the flange portion 15. And since the sealing rib 51 is integrally formed with the ceiling part 41 which is the outer peripheral part 40, similarly to the ceiling part 41, it is comprised with soft synthetic resin. Since the sealing rib 51 is formed inside the fitting groove 50 over the entire outer periphery of the lid 20, similarly to the fitting groove 50, the lid 20 is attached to the container body 10, and the flange portion 15. Is inserted into the fitting groove 50, comes into contact with the upper end surface 16 of the flange portion 15 from the front end side of the sealing rib 51 and is elastically deformed, and comes into close contact with the upper end surface 16 of the flange portion 15.

  The engaging protrusion 55 is one surface of the outer side wall 42 and is formed so as to protrude from the one surface constituting the inner wall of the fitting groove 50 toward the inside of the lid body 20, and is made of a soft synthetic resin. And is integrally formed. When the lid 20 is attached to the container main body 10, the engagement protrusion 55 engages with the lower surface of the flange portion 15 and maintains the positional relationship between the container main body 10 and the lid 20. The engagement protrusion 55 is located at a position where the dimension from the tip of the sealing rib 51 to the engagement protrusion 55 is shorter than the thickness of the flange portion 15 (the thickness in the vertical direction) in the vertical direction of the sealed container 1. Is formed.

  Next, in the airtight container 1 which concerns on 1st Embodiment, the attachment or detachment operation | movement of the cover body 20 with respect to the container main body 10 is demonstrated in detail with reference to FIG. 5, FIG. As shown in FIGS. 5 and 6, when the lid 20 is attached to the container body 10 of the sealed container 1, the lid 20 is moved downward from above the container body 10. At this time, the flange portion 15 constituting the opening of the container body 10 enters the inside of the fitting groove 50 formed on the outer periphery of the lid body 20, and the sealing rib 51 formed in the fitting groove 50. Contact the tip. As described above, since the sealing rib 51 is formed of a soft synthetic resin, the sealing rib 51 is elastically deformed by being in contact with the upper end surface 16 of the flange portion 15.

  When the lid body 20 is further pressed against the container body 10 and the flange portion 15 further enters the fitting groove 50, the engagement protrusion 55 formed on the inner wall surface of the fitting groove 50 is formed on the container body 10. It engages with the lower surface of the flange portion 15 constituting the opening. As shown in FIG. 6, according to the sealed container 1, the positional relationship between the container body 10 and the lid body 20 can be maintained by the engagement of the flange portion 15 and the engagement protrusion 55.

  At this time, since the lid 20 is further pressed against the container body 10, the sealing rib 51 is elastically deformed, and at the same time when the flange portion 15 and the engagement protrusion 55 are engaged, the flange portion 15. It adheres to the upper end surface 16 of the. Thereby, according to the said airtight container 1, the sealing rib 51 of the cover body 20 can be closely_contact | adhered with respect to the upper end surface 16 of the flange part 15 in the container body 10, and the inside of the container body 10 is covered with the cover body 20. Can be sealed.

  As shown in FIG. 6, according to the sealed container 1, the flange portion 15 and the engagement protrusion 55 are engaged and elastically deformed in a state where the positional relationship between the container body 10 and the lid body 20 is maintained. The restoring force of the sealing rib 51 acts on the upper end surface 16 of the flange portion 15. That is, according to the sealed container 1, the sealing rib 51 can be more closely attached to the upper end surface 16 of the flange portion 15, and the sealing performance in the sealed container 1 can be improved.

  As described above, the sealed container 1 according to the first embodiment includes the container body 10 and the lid body 20. The lid 20 is formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, an olefin elastomer), and has a fitting groove 50 on the outer peripheral edge thereof. The fitting groove 50 includes an inner side wall 31 formed of a hard synthetic resin integrally with the main body portion 30, and a ceiling portion 41 and an outer side wall 42 formed of a soft synthetic resin integrally with the outer peripheral portion 40. Therefore, according to the sealed container 1, the outer peripheral portion 40 of the lid 20 including a part of the fitting groove 50 is formed of a soft synthetic resin. The flange portion 15 of the main body 10 can be fitted, and the lid 20 can be easily attached and detached.

  In the closed container 1, when the lid body 20 is attached to the container body 10, the engagement protrusion 55 of the lid body 20 engages with the flange portion 15 of the container body 10, and thus the positional relationship between the container body 10 and the lid body 20. Can hold. At this time, inside the fitting groove 50 of the lid 20, the sealing rib 51 formed of a soft synthetic resin comes into contact with the upper end surface 16 of the flange portion 15 constituting the opening edge of the container body 10 and elastically deforms. Therefore, the said airtight container 1 can implement | achieve higher airtightness. As described above, since the positional relationship between the container body 10 and the lid body 20 is maintained by the engagement between the flange portion 15 and the engagement protrusion 55, the sealing rib 51 is attached to the flange portion 15 with a certain tension or more. Pressed against the upper end surface 16. As a result, the sealed container 1 can easily attach and detach the lid 20 and can realize high sealing performance.

  And according to the said airtight container 1, since it only presses the cover body 20 to the opening part of the container main body 10, when attaching the cover body 20 to the container main body 10, like the case where the cover body is screwed, The sealing rib 51 is not worn, and high sealing performance can be maintained. Further, in the sealed container 1, since the sealing rib 51 of the lid 20 is formed of a soft synthetic resin, a higher restoring force can be imparted to the sealing rib 51 than when formed of a hard synthetic resin. Thereby, according to the said airtight container 1, it can prevent that the sealing rib 51 gets a wrinkle and a sealing performance falls.

(Second Embodiment)
Next, an embodiment (second embodiment) different from the above-described first embodiment will be described in detail with reference to the drawings. In the sealed container 1 according to the second embodiment, the configurations of the container main body 10 and the lid 20 are basically the same as those of the sealed container 1 according to the first embodiment. In this regard, in the second embodiment, the configuration of the sealing rib 51 formed in the fitting groove 50 of the lid 20 is different from that of the sealed container 1 according to the first embodiment. The description of the same configuration as in the first embodiment will be omitted, and the configuration related to the difference will be described in detail.

  As described above, the sealed container 1 according to the second embodiment is configured by the container main body 10 and the lid body 20, and the container main body 10 is internally attached by attaching the lid body 20 to the container main body 10. It is configured to be sealable. As shown in FIGS. 7 and 8, the lid 20 according to the second embodiment includes a main body 30 formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, as in the first embodiment). For example, it has the outer peripheral part 40 formed with the olefin type elastomer.

  An inner side wall 31 is erected on the outer peripheral edge of the main body 30 over the entire outer peripheral edge, and is integrally formed with the main body 30 by a hard synthetic resin. And the outer peripheral part 40 is comprised by the ceiling part 41 and the outer side wall 42, and comprises the outer periphery of the cover body 20 similarly to 1st Embodiment. As shown in FIGS. 7 and 8, also in the second embodiment, the fitting groove 50 of the lid body 20 is configured by the inner side wall 31 of the main body 30, the ceiling part 41 of the outer peripheral part 40, and the outer side wall 42. The

  Also in the second embodiment, the sealing rib 51 and the engaging protrusion 55 are formed on the inner wall surface of the fitting groove 50. As shown in FIGS. 7 and 8, the sealing rib 51 is formed so as to protrude from one surface of the ceiling portion 41 constituting the inner wall surface corresponding to the back side portion of the fitting groove 50 toward the open portion of the fitting groove 50. The container body 10 is hermetically sealed by closely cooperating with the upper end surface 16 of the flange portion 15. And since the sealing rib 51 is integrally formed with the ceiling part 41 which is the outer peripheral part 40, similarly to the ceiling part 41, it is comprised with soft synthetic resin.

  In the second embodiment, an inclined surface 52 is formed at the tip of the sealing rib 51. The inclined surface 52 is inclined so that the tip side of the sealing rib 51 (that is, the opening side of the fitting groove 50) is positioned inside the lid body 20. As shown in FIG. 8, the inclined surface 52 of the sealing rib 51 has a first inclined angle α with respect to the upper end surface 16 of the flange portion 15 when the lid body 20 is attached to the container body 10. And intersect at an acute angle.

  The engaging protrusion 55 is one surface of the outer side wall 42 and is formed so as to protrude from the one surface constituting the inner wall of the fitting groove 50 toward the inside of the lid body 20, and is made of a soft synthetic resin. And is integrally formed. When the lid 20 is attached to the container main body 10, the engagement protrusion 55 engages with the lower surface of the flange portion 15 and maintains the positional relationship between the container main body 10 and the lid 20.

  Next, in the airtight container 1 which concerns on 2nd Embodiment, the attachment or detachment operation | movement of the cover body 20 with respect to the container main body 10 is demonstrated in detail with reference to FIG. 9, FIG. When the lid 20 is attached to the container body 10 of the sealed container 1, the lid 20 is moved downward from above the container body 10. At this time, the flange portion 15 constituting the opening of the container body 10 enters the inside of the fitting groove 50 formed on the outer periphery of the lid body 20, and the sealing rib 51 formed in the fitting groove 50. Contact the tip. As described above, since the sealing rib 51 is formed of a soft synthetic resin, the sealing rib 51 is elastically deformed by being in contact with the upper end surface 16 of the flange portion 15.

  When the lid body 20 is further pressed against the container body 10 and the flange portion 15 further enters the fitting groove 50, the engagement protrusion 55 formed on the inner wall surface of the fitting groove 50 is formed on the container body 10. It engages with the lower surface of the flange portion 15 constituting the opening. As shown in FIG. 10, according to the sealed container 1, the positional relationship between the container body 10 and the lid body 20 can be maintained by the engagement of the flange portion 15 and the engagement protrusion 55.

  Further, since the lid 20 is further pressed against the container body 10, the sealing rib 51 is elastically deformed, and simultaneously with the engagement between the flange portion 15 and the engagement protrusion 55, the upper end surface of the flange portion 15. 16 is in close contact. At this time, since the inclined surface 52 is formed at the tip of the sealing rib 51, the force pressing the lid 20 comes into contact with the upper end surface 16 of the flange portion 15, so that the tip of the sealing rib 51 Acts on the inside of the sealed container 1. Therefore, the sealing rib 51 is reliably elastically deformed toward the inside of the sealed container 1 and is in close contact with the upper end surface 16 of the flange portion 15. Thereby, according to the said airtight container 1, the sealing rib 51 of the cover body 20 can be reliably contact | adhered with respect to the upper end surface 16 of the flange part 15 in the container main body 10, and the container main body is covered with the cover body 20. 10 The inside can be sealed.

  As shown in FIG. 10, according to the said airtight container 1, it is elastically deformed in the state with which the positional relationship of the container main body 10 and the cover body 20 was hold | maintained by engagement of the flange part 15 and the engagement protrusion 55. FIG. The restoring force of the sealing rib 51 acts on the upper end surface 16 of the flange portion 15. That is, according to the sealed container 1, the sealing rib 51 can be more closely attached to the upper end surface 16 of the flange portion 15, and the sealing performance in the sealed container 1 can be improved.

  As described above, the sealed container 1 according to the second embodiment includes the container main body 10 and the lid body 20 as in the first embodiment. The lid 20 is formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, an olefin elastomer), and has a fitting groove 50 on the outer peripheral edge thereof. The fitting groove 50 includes an inner side wall 31 formed of a hard synthetic resin integrally with the main body portion 30, and a ceiling portion 41 and an outer side wall 42 formed of a soft synthetic resin integrally with the outer peripheral portion 40. Therefore, according to the sealed container 1, the outer peripheral portion 40 of the lid 20 including a part of the fitting groove 50 is formed of a soft synthetic resin. The flange portion 15 of the main body 10 can be fitted, and the lid 20 can be easily attached and detached.

  In the closed container 1, when the lid body 20 is attached to the container body 10, the engagement protrusion 55 of the lid body 20 engages with the flange portion 15 of the container body 10, and thus the positional relationship between the container body 10 and the lid body 20. Can hold. At this time, inside the fitting groove 50 of the lid 20, the sealing rib 51 formed of a soft synthetic resin comes into contact with the upper end surface 16 of the flange portion 15 constituting the opening edge of the container body 10 and elastically deforms. Therefore, the said airtight container 1 can implement | achieve higher airtightness. As described above, since the positional relationship between the container body 10 and the lid body 20 is maintained by the engagement between the flange portion 15 and the engagement protrusion 55, the sealing rib 51 is attached to the flange portion 15 with a certain tension or more. Pressed against the upper end surface 16. As a result, the sealed container 1 can easily attach and detach the lid 20 and can realize high sealing performance.

  In the sealed container 1 according to the second embodiment, an inclined surface 52 is formed at the tip of the sealing rib 51. When the lid 20 is attached to the container body 10, the inclined surface 52 is a flange. The upper end surface 16 of the portion 15 is contacted so as to form an acute first inclination angle α. According to the sealed container 1, by forming the inclined surface 52 at the tip of the sealing rib 51, the sealing rib 51 is elastically deformed inward of the sealed container 1, and is in close contact with the upper end surface 16 of the flange portion 15. The sealing property can be further improved.

  And according to the said airtight container 1, since it only presses the cover body 20 to the opening part of the container main body 10, when attaching the cover body 20 to the container main body 10, like the case where the cover body is screwed, The sealing rib 51 is not worn, and high sealing performance can be maintained. Further, in the sealed container 1, since the sealing rib 51 of the lid 20 is formed of a soft synthetic resin, a higher restoring force can be imparted to the sealing rib 51 than when formed of a hard synthetic resin. Thereby, according to the said airtight container 1, it can prevent that the sealing rib 51 gets a wrinkle and a sealing performance falls.

(Third embodiment)
Next, an embodiment (third embodiment) different from the above-described first embodiment and second embodiment will be described in detail with reference to the drawings. In the sealed container 1 according to the third embodiment, the configurations of the container main body 10 and the lid 20 are basically the same as those of the sealed container 1 according to the first embodiment and the second embodiment. In this regard, in the third embodiment, the configuration of the sealing rib 51 formed in the fitting groove 50 of the lid 20 is different from the sealed container 1 according to the first embodiment and the second embodiment. The description of the same configuration as that of the first embodiment and the second embodiment is omitted, and the configuration related to the difference will be described in detail.

  The sealed container 1 according to the third embodiment is configured by a container body 10 and a lid body 20, and the container body 10 can be sealed by attaching the lid body 20 to the container body 10. ing. As shown in FIG. 11, the lid 20 according to the third embodiment includes a main body 30 formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, an olefin), as in the first embodiment. And an outer peripheral portion 40 formed of a system elastomer.

  An inner side wall 31 is erected on the outer peripheral edge of the main body 30 over the entire outer peripheral edge, and is integrally formed with the main body 30 by a hard synthetic resin. The outer peripheral portion 40 is composed of a ceiling portion 41 and an outer side wall 42 and constitutes the outer periphery of the lid body 20. As shown in FIG. 11, also in the third embodiment, the fitting groove 50 of the lid body 20 is configured by the inner side wall 31 of the main body 30, the ceiling portion 41 of the outer peripheral portion 40, and the outer side wall 42.

  Also in the third embodiment, the sealing rib 51 and the engaging protrusion 55 are formed on the inner wall surface of the fitting groove 50. As shown in FIG. 11, the sealing rib 51 according to the third embodiment is directed from one surface of the ceiling portion 41 constituting the inner wall surface corresponding to the back side portion of the fitting groove 50 toward the open portion of the fitting groove 50. The container body 10 is hermetically sealed by closely cooperating with the upper end surface 16 of the flange portion 15. And the sealing rib 51 is integrally formed with the ceiling part 41 which is the outer peripheral part 40, and soft synthetic resin.

  An inclined surface 52 is formed at the tip of the sealing rib 51 according to the third embodiment. The inclined surface 52 is inclined so that the tip side of the sealing rib 51 (that is, the opening side of the fitting groove 50) is positioned inside the lid body 20. As shown in FIG. 11, the inclined surface 52 of the sealing rib 51 has a first inclination angle α with respect to the upper end surface 16 of the flange portion 15 when the lid body 20 is attached to the container body 10. And intersect at an acute angle.

  As shown in FIG. 11, the sealing rib 51 according to the third embodiment is closer to the tip of the sealing rib 51 from the back side portion (that is, one surface of the ceiling portion 41) of the inner wall surface of the fitting groove 50. A protrusion is formed in an inclined direction so as to be located inside the lid body 20. The protruding direction of the sealing rib 51 forms an acute second inclination angle β with respect to the upper end surface 16 of the flange portion 15.

  The engaging protrusion 55 is formed on one surface of the outer side wall 42 and protrudes from one surface constituting the inner wall of the fitting groove 50 toward the inside of the lid body 20, and engages with the lower surface of the flange portion 15. Then, the positional relationship between the container body 10 and the lid 20 is maintained.

  Next, in the sealed container 1 which concerns on 3rd Embodiment, the attachment or detachment operation | movement of the cover body 20 with respect to the container main body 10 is demonstrated in detail. When the lid 20 is attached to the container body 10 of the sealed container 1, the lid 20 is moved downward from above the container body 10. At this time, the flange portion 15 constituting the opening of the container body 10 enters the inside of the fitting groove 50 formed on the outer periphery of the lid body 20, and the sealing rib 51 formed in the fitting groove 50. Contact the tip. As described above, since the sealing rib 51 is formed of a soft synthetic resin, the sealing rib 51 is elastically deformed by being in contact with the upper end surface 16 of the flange portion 15.

  When the lid body 20 is further pressed against the container body 10 and the flange portion 15 further enters the fitting groove 50, the engagement protrusion 55 formed on the inner wall surface of the fitting groove 50 is formed on the container body 10. It engages with the lower surface of the flange portion 15 constituting the opening.

  Further, since the lid 20 is further pressed against the container body 10, the sealing rib 51 is elastically deformed, and simultaneously with the engagement between the flange portion 15 and the engagement protrusion 55, the upper end surface of the flange portion 15. 16 is in close contact. Here, in the third embodiment, the sealing rib 51 is formed so as to protrude from the upper end surface 16 of the flange portion 15 so as to form the second inclination angle β, and the sealing rib 51 of the sealing rib 51 is formed. An inclined surface 52 that forms a first inclination angle α with the upper end surface 16 of the flange portion 15 is formed at the front end of the flange portion 15. Thereby, the force which presses the cover body 20 contacts the upper end surface 16 of the flange part 15, and acts the front-end | tip of the sealing rib 51 in the inner side of the airtight container 1. FIG. Therefore, the sealing rib 51 is reliably elastically deformed toward the inside of the sealed container 1 and is in close contact with the upper end surface 16 of the flange portion 15. That is, according to the sealed container 1, the sealing rib 51 of the lid 20 can be securely adhered to the upper end surface 16 of the flange portion 15 in the container body 10, and the container body 10 is covered by the lid 20. The inside can be sealed.

  Moreover, according to the airtight container 1 which concerns on 3rd Embodiment, it is elastically deformed in the state with which the positional relationship of the container main body 10 and the cover body 20 was hold | maintained by engagement of the flange part 15 and the engagement protrusion 55. FIG. The restoring force of the sealing rib 51 acts on the upper end surface 16 of the flange portion 15. That is, according to the sealed container 1, the sealing rib 51 can be more closely attached to the upper end surface 16 of the flange portion 15, and the sealing performance in the sealed container 1 can be improved.

  As described above, the sealed container 1 according to the third embodiment includes the container body 10 and the lid body 20. The lid 20 is formed of a hard synthetic resin (for example, polypropylene) and a soft synthetic resin (for example, an olefin elastomer), and has a fitting groove 50 on the outer peripheral edge thereof. The fitting groove 50 includes an inner side wall 31 formed of a hard synthetic resin integrally with the main body portion 30, and a ceiling portion 41 and an outer side wall 42 formed of a soft synthetic resin integrally with the outer peripheral portion 40. Therefore, according to the sealed container 1, the outer peripheral portion 40 of the lid 20 including a part of the fitting groove 50 is formed of a soft synthetic resin. The flange portion 15 of the main body 10 can be fitted, and the lid 20 can be easily attached and detached.

  In the closed container 1, when the lid body 20 is attached to the container body 10, the engagement protrusion 55 of the lid body 20 engages with the flange portion 15 of the container body 10, and thus the positional relationship between the container body 10 and the lid body 20. Can hold. At this time, inside the fitting groove 50 of the lid 20, the sealing rib 51 formed of a soft synthetic resin comes into contact with the upper end surface 16 of the flange portion 15 constituting the opening edge of the container body 10 and elastically deforms. Therefore, the said airtight container 1 can implement | achieve higher airtightness. As described above, since the positional relationship between the container body 10 and the lid body 20 is maintained by the engagement between the flange portion 15 and the engagement protrusion 55, the sealing rib 51 is attached to the flange portion 15 with a certain tension or more. Pressed against the upper end surface 16. As a result, the sealed container 1 can easily attach and detach the lid 20 and can realize high sealing performance.

  In the sealed container 1 according to the third embodiment, an inclined surface 52 is formed at the tip of the sealing rib 51. When the lid 20 is attached to the container body 10, the inclined surface 52 is a flange. The upper end surface 16 of the portion 15 is contacted so as to form an acute first inclination angle α. According to the sealed container 1, by forming the inclined surface 52 at the tip of the sealing rib 51, the sealing rib 51 is elastically deformed inward of the sealed container 1, and is in close contact with the upper end surface 16 of the flange portion 15. The sealing property can be further improved.

  Further, in the third embodiment, the sealing rib 51 is formed so as to protrude in an inclined direction so that the tip thereof is positioned inside the lid body 20, and the lid body 20 is attached to the container body 10. In this case, an acute second inclination angle β is made with respect to the upper end surface 16 of the flange portion 15. Therefore, according to the sealed container 1, the sealing rib 51 can be more reliably secured by setting the protruding direction of the sealing rib 51 to a direction inclined toward the inner side of the lid 20 toward the tip. It can be elastically deformed in the inner direction of the sealed container 1 and can be brought into close contact with the upper end surface 16 of the flange portion 15, thereby further improving the sealing performance.

  And according to the said airtight container 1, since it only presses the cover body 20 to the opening part of the container main body 10, when attaching the cover body 20 to the container main body 10, like the case where the cover body is screwed, The sealing rib 51 is not worn, and high sealing performance can be maintained. Further, in the sealed container 1, since the sealing rib 51 of the lid 20 is formed of a soft synthetic resin, a higher restoring force can be imparted to the sealing rib 51 than when formed of a hard synthetic resin. Thereby, according to the said airtight container 1, it can prevent that the sealing rib 51 gets a wrinkle and a sealing performance falls.

  Although the present invention has been described based on the embodiments, the present invention is not limited to the above-described embodiments, and various improvements and modifications can be made without departing from the spirit of the present invention. For example, in the above-described embodiment, the inclined surface 52 is formed at the distal end of the sealing rib 51, or the protruding direction of the sealing rib 51 is inclined so that the distal end is positioned on the inner side of the lid body 20. However, the sealing rib 51 is brought into contact with the upper end surface 16 of the flange portion 15 on the outer side of the sealed container 1, but is not limited to this mode.

  For example, in the third embodiment, the protruding direction of the sealing rib 51 is a direction that is inclined so that the tip of the sealing rib 51 is located inside the lid body 20, and the inclined surface 52 is provided at the tip of the sealing rib 51. Although formed, the projecting direction of the sealing rib 51 may be merely a direction inclined so as to be positioned inside the lid 20 toward the tip.

  Further, in the above-described embodiment, the upper end surface 16 of the flange portion 15 is substantially horizontal with the mounting surface of the sealed container 1, but the upper end surface 16 of the flange portion 15 is lowered downward toward the inside of the container body 10. The structure may be inclined so as to be positioned. With this configuration, when the lid body 20 is attached to the container body 10 and brought into contact with the upper end surface 16 of the flange portion 15, the sealing rib 51 is elastically deformed in the inner direction of the sealed container 1, thereby closely contacting Can be.

  In the above-described embodiment, polypropylene is used as the hard synthetic resin and olefin elastomer is used as the soft synthetic resin. However, the present invention is not limited to this embodiment. For example, polyethylene may be used as the hard synthetic resin. Further, as the hard synthetic resin, a virgin resin may be used, or a recycled resin made from synthetic resin product waste may be used. Furthermore, a styrene elastomer, an ethylene vinyl acetate copolymer or the like may be used as the soft synthetic resin.

DESCRIPTION OF SYMBOLS 1 Airtight container 10 Container main body 15 Flange part 20 Cover body 30 Main body part 31 Inner side wall 40 Outer peripheral part 41 Ceiling part 42 Outer side wall 50 Fitting groove 51 Sealing rib 55 Engagement protrusion

Claims (5)

A container body for storing objects;
A sealed container having a fitting body formed along an outer peripheral edge and having a fitting groove fitted to the opening edge of the container body,
The container body is
In the opening edge, having a flange portion that is formed to project outward from the container body,
The lid is
A lid body located at the center of the lid ;
An inner side wall of the fitting groove erected substantially perpendicularly from the outer peripheral edge of the lid body part;
A ceiling portion of the fitting groove extending from the upper end portion of the inner side wall of the fitting groove toward the outer side of the lid, and
An outer side wall of the fitting groove extending downward from an outer peripheral end of the ceiling portion of the fitting groove;
It formed to protrude from the inner wall surface of the ceiling portion of the front Kihamagomizo, when attached to the container main body, and in contact with the end face of the flange portion constituting the opening edge of the container body sealing portion is elastically deformed ,
Formed to protrude toward the inside of the inner wall or al the lid outer side wall of the fitting groove, and the engaging portion to be engaged with the flange portion when attached to the container main body,
I have a,
The lid body portion and the inner side wall of the fitting groove are formed of a hard synthetic resin, and the ceiling portion of the fitting groove, the sealing portion, the outer side wall of the fitting groove, and the engaging portion are soft. sealed container according to claim Rukoto formed of a synthetic resin. The sealed container according to claim 1,
When the lid is attached to the container body,
The sealed container is characterized in that the sealing portion is elastically deformed by coming into contact with an end surface of the flange portion and is in close contact with the end surface of the flange portion. A sealed container according to claim 1 or claim 2,
When attaching the lid to the container body,
The sealed container is characterized in that the sealed part is in contact with the end face of the flange part so as to form an acute angle outside the sealed container. A sealed container according to any one of claims 1 to 3,
The sealing part is
An airtight container having an inclined surface at an end portion of the sealing portion that is inclined so as to be positioned on the inner side of the lid as the distal end side of the sealing portion is located. A sealed container according to any one of claims 1 to 4,
The sealing part is
An airtight container formed so as to protrude from a back side portion of the fitting groove in a direction inclined so as to be positioned inside the lid as the tip of the sealing portion.

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