CN113712449A

CN113712449A - Cap unit and capped container

Info

Publication number: CN113712449A
Application number: CN202011529340.5A
Authority: CN
Inventors: 村田雄志
Original assignee: Thermos China Housewares Co Ltd; Thermos KK
Current assignee: Thermos China Housewares Co Ltd; Thermos KK
Priority date: 2020-05-26
Filing date: 2020-12-22
Publication date: 2021-11-30
Also published as: JP7426900B2; TWI810570B; KR20210146237A; TW202144244A; JP2021186015A

Abstract

The invention provides a cover unit which can simplify the structure and improve the cleaning performance. The disclosed device is provided with: a lid body (10) which closes the upper opening (2d) of the container body (2) and is provided with a flow path (R) that communicates with the inside of the container body (2); a cover body (11) which is positioned on the upper side of the cover main body (10) and is mounted to the cover main body (10) so as to be movable in the vertical direction; a middle plug (12) which is positioned at the lower part side of the cover main body (10) and is movably installed along the vertical direction relative to the cover main body (10); and a first biasing member (21) that biases the lid body (11) and the middle plug (12) upward, and that moves the lid body downward against the biasing force of the first biasing member from a state in which the middle plug closes the flow path, thereby bringing the middle plug into a state in which the middle plug opens the flow path while moving downward, the first biasing member being provided inside the lid body.

Description

Cap unit and capped container

Technical Field

The invention relates to a cover unit and a container with a cover.

Background

Conventionally, there is a lidded container including a lid unit (plug body) detachably attached to a container body having an upper opening (see, for example, the following cited document 1).

Specifically, the following cited document 1 discloses the following structure: an operation lever is provided on a cover for closing an upper opening of the plug body, and the valve body for closing the fluid passage (flow path) is pressed downward in the opening direction against the biasing force of the coil spring by pressing the operation lever downward.

Patent document 1: japanese patent laid-open publication No. 2013-248352

However, in the above-described conventional cap-equipped container, since the valve body, the coil spring, and the like are disposed inside the plug main body, there is a problem that not only the mechanism for opening and closing the valve body is complicated, but also the cleaning performance of the liquid flow path is deteriorated.

In addition, in the conventional cap-equipped container, the plug body is not disassembled and cleaned, and it is necessary to take a lot of time and effort to carefully clean the plug body in order to keep the flow path clean.

Disclosure of Invention

The present invention has been made in view of the above-described conventional circumstances, and an object thereof is to provide a lid unit that can be simplified in structure and improved in cleanability, and a container with a lid that can be provided with such a lid unit and that can achieve further improvement in ease of use.

In order to achieve the above object, the present invention provides the following apparatus.

[ 1 ] A lid unit detachably attached to a container body having an open upper portion, comprising: a lid body that closes an upper opening of the container body and is provided with a flow path that communicates with the inside of the container body, and a lid body that is positioned on an upper side of the lid body and is attached to the lid body so as to be movable in the vertical direction; a middle plug which is positioned at the lower part side of the cover main body and is movably installed along the vertical direction relative to the cover main body; and a first biasing member that biases the lid body and the plug upward, and moves the lid body downward against the biasing force of the first biasing member from a state in which the plug closes the flow path, whereby the plug moves downward and becomes a state in which the plug opens the flow path, and the first biasing member is provided inside the lid body.

[ 2 ] the cover unit according to the above [ 1 ], wherein the cover body includes: a lid member attached to the lid body in a state where an upper portion side of the lid body is closed; a first holding member that holds the first biasing member between the lid member and the first holding member; and a cover member that is attached to the lid member via a hinge portion so as to be rotatable in a state in which the cover member covers an upper portion of the first holding member.

[ 3 ] the lid unit according to the above [ 2 ], wherein the middle plug includes: a plug body provided with a central hole; a slide shaft which is vertically slidably attached to the plug body in a state of penetrating the center hole upward; a second biasing member that biases the plug body downward with respect to the slide shaft; and a second holding member that holds the second biasing member between the plug body and the slide shaft, wherein the slide shaft is attached to the first holding member in a state in which shaft holes provided in the cover body, the cover member, and the first holding member are respectively penetrated and a tip end portion of the slide shaft protrudes upward from the first holding member, and the cover member is rotated downward against the biasing force of the first biasing member from a state in which the plug body closes the lower portion side of the cover body, whereby the slide shaft slides downward while the plug body opens the lower portion side of the cover body in a state in which the tip end portion of the slide shaft has come into contact with the cover member.

The lid unit according to the above [ 4 ] or [ 3 ], wherein the slide shaft is detachably attached to the first holding member by screwing while pivoting in one direction integrally with the plug body.

[ 5 ] the cover unit according to any one of [ 2 ] to [ 4 ], wherein the cover member has an operation handle protruding from a rear end portion.

[ 6 ] A lid-equipped container, comprising: the lid unit according to any one of [ 1 ] to [ 5 ] above; and a container body to which the above cap unit is attached.

The vessel with a lid according to the above [ 6 ], wherein a handle portion protruding rearward and extending downward is provided on the rear side of the vessel body or the lid unit.

[ 8 ] the lidded container according to the above [ 6 ] or [ 7 ], wherein the container body has a vacuum heat-insulating structure.

As described above, according to the present invention, it is possible to provide a lid unit that can simplify the structure and improve the cleaning performance, and a container with a lid that can achieve further improvement in convenience of use by including such a lid unit.

Drawings

Fig. 1 is a perspective view showing an appearance of a container with a lid according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view showing a closed state of a lid unit provided in the lidded container.

Fig. 3 is a cross-sectional view showing an open state of a lid unit provided in the lidded container.

Fig. 4 is a perspective view of the cover main body viewed from the lower side.

Fig. 5 is an exploded perspective view showing the structure of the cover unit.

Fig. 6 is an exploded sectional view showing the structure of the cover unit.

Fig. 7 is a perspective view showing a structure of a cover main body provided in the cover unit.

Fig. 8 is an exploded perspective view showing the structure of a lid body provided in the lid unit.

Fig. 9 is a side view showing a structure of a middle plug provided in the cover unit.

Fig. 10 is a main part sectional view showing a state in which the first holding member on the lid side is mounted with the sliding shaft on the inner plug side by screw engagement.

Fig. 11 is a partial perspective view showing a locked state between a locking portion of a stopper mechanism provided in the cover unit and a locked portion.

Fig. 12 is a main part sectional view showing a state where a plug body of a stopper mechanism provided in the cover unit has been separated from the water stop packing.

Description of the reference numerals

1 … container with cover; 2 … container body; 3 … a cover unit; 8 … shoulder members; 8a … handle portion; 10 … a cap body; 11 … a cover; 12 … medium bolt; 15 … pour spout; 16 … dividing wall; 17 … liquid through port; 21 … a first coil spring (first urging member); 22 … a cover member; 23 … a first retaining member; 24 … hood part; 24a … lever; 25 … flow path forming part; 25a … upper wall; 25b … rear wall; a 28 … hinge; 29 … plug body; 30 … sliding shaft; 31 … second coil spring (second urging member); 32 … second retention member; 36 … limiting mechanism; 36a … latch; 36b … is latched; r … flow path.

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

As an embodiment of the present invention, for example, a container 1 with a lid shown in fig. 1 to 12 will be described.

Fig. 1 is a perspective view showing an external appearance of the container 1 with a lid. Fig. 2 is a cross-sectional view showing a closed state of the lid unit 3 provided in the lidded container 1. Fig. 3 is a cross-sectional view showing an open state of the lid unit 3 provided in the lidded container 1. Fig. 4 is a perspective view of the cap body 10 viewed from below. Fig. 5 is an exploded perspective view showing the structure of the cover unit 3. Fig. 6 is an exploded sectional view showing the structure of the cover unit 3. Fig. 7 is a perspective view showing the structure of the cover main body 10 provided in the cover unit 3. Fig. 8 is an exploded perspective view showing the structure of the lid 11 provided in the lid unit 3. Fig. 9 is a side view showing the structure of the middle plug 12 provided in the cover unit 3. Fig. 10 is a main part sectional view showing a state in which the slide shaft 30 on the side of the inner plug 12 is attached to the first holding member 23 on the side of the cover 11 by screwing. Fig. 11 is a main part perspective view showing a locked state between the locking part 36a and the locked part 36b of the stopper mechanism 36 provided in the cover unit 3. Fig. 12 is a main-part sectional view showing a state where the plug 29 of the stopper mechanism 36 provided in the cover unit 3 has been separated from the water-stop packing 20.

As shown in fig. 1, the container 1 with a lid of the present embodiment includes: a container body 2, and a cover unit 3 detachably attached to the container body 2. The lidded container 1 is a tabletop pot capable of keeping warm or cool the beverage (contents) contained in the container body 2 by the container body 2 having a vacuum heat insulation structure.

In the lidded container 1 of the present embodiment, the side provided with a pouring outlet 15 described later is referred to as the "front side", and the side provided with a handle portion 8a located on the opposite side of the pouring outlet 15 is referred to as the "rear side".

As shown in fig. 1 to 3, the container body 2 is formed of a double-structured container having a bottomed cylindrical outer container 4 and an inner container 5 made of, for example, stainless steel, and having a mouth corner portion joined to each other in a state where the inner container 5 is accommodated inside the outer container 4. Further, a vacuum insulation layer 6 is provided between the outer container 4 and the inner container 5. The vacuum heat insulating layer 6 can be formed by, for example, sealing an exhaust hole provided in the central portion of the bottom surface of the outer container 4 in a chamber that is depressurized (evacuated) to a high vacuum.

The container body 2 has: a substantially circular bottom portion 2a, a body portion 2b rising substantially cylindrically from the outer periphery of the bottom portion 2a, and a substantially cylindrical mouth-and-neck portion 2c formed by reducing the diameter of the body portion 2b on the upper side. The upper end of the mouth-and-neck portion 2c is opened in a circular shape as an upper opening portion 2d of the container body 2. The inner peripheral surface of the mouth neck portion 2c is reduced in diameter from the inner peripheral surface of the body portion 2 b. An annular projecting portion 7 is provided on the inner peripheral surface of the mouth-and-neck portion 2c so as to project over the entire periphery.

Further, although the container body 2 of the present embodiment has a substantially cylindrical external shape in which the entire body is cylindrical and the diameter is reduced on the upper side of the body portion 2b, the external shape of the container body 2 is not particularly limited, and may be appropriately changed in accordance with the size, the design, and the like. Further, the outer peripheral surface of the container body 2 may be coated, printed, or the like.

The container body 2 has a structure in which a shoulder member 8 is attached to a mouth-and-neck portion 2 c. The shoulder member 8 is made of a resin molded body such as polypropylene (PP), Acrylonitrile Butadiene Styrene (ABS), or Polyoxymethylene (POM), and is formed in a substantially cylindrical shape as a whole.

The shoulder member 8 is attached to the mouth-and-neck portion 2c of the container body 2 via a closing gasket 9. The closing packing 9 is an annular sealing member for closing a gap between the mouth-and-neck portion 2c of the container body 2 and the shoulder member 8, and is made of, for example, a heat-resistant rubber such as silicone rubber, or an elastic member such as an elastic body. The shoulder member 8 is fitted to the mouth-and-neck portion 2c of the container body 2 so as to be aligned with the outer peripheral surface of the body portion 2b of the container body 2 in a state where the mouth-and-neck portion 2c and the upper opening portion 2d of the container body 2 are covered with the closing liner 9.

The shoulder member 8 is not limited to the above-described structure fitted to the mouth-and-neck portion 2c of the container body 2, and may be detachably attached to the mouth-and-neck portion 2c (container body 2) by screwing.

A grip portion 8a to be gripped by a user is provided on the rear side of the shoulder members 8. The grip portion 8a protrudes rearward from the outer peripheral portion of the shoulder member 8 and extends downward. The handle portion 8a is not necessarily limited to the above-described configuration provided on the rear side of the container body 2, and may be provided on the rear side of the cover unit 3.

As shown in fig. 1 to 9, the cover unit 3 of the present embodiment includes: a lid body 10, a lid body 11 located on the upper side of the lid body 10, and a middle plug 12 located on the lower side of the lid body 10.

As shown in fig. 2 to 7, the lid main body 10 is made of a resin molded body such as PP, ABS, POM, or the like, and has a substantially circular bottom wall portion 10a recessed upward and a peripheral wall portion 10b rising from the outer periphery of the bottom wall portion 10a in a substantially cylindrical shape.

The cap body 10 is detachably attached to the shoulder member 8 (container body 2) by screwing. Therefore, the shoulder member 8 is provided with a female screw portion 13 on its inner peripheral surface. On the other hand, an external thread portion 14 screwed into the internal thread portion 13 is provided on the outer peripheral surface of the peripheral wall portion 10b (the cap body 10). The lid body 10 is attached to the shoulder member 8 (container body 2), thereby closing the upper opening 2d of the container body 2.

The cap body 10 is configured to be detachably attached to the shoulder member 8 as described above, but in the case where the shoulder member 8 is omitted, the cap body 10 may be configured to be detachably attached to the mouth-and-neck portion 2c of the container body 2 by screwing.

A flow path R communicating with the inside of the container main body 2 is provided inside the cap main body 10. The cap body 10 has: a pouring port 15 protruding forward from the front upper end portion of the peripheral wall portion 10b, a pair of partition walls 16 protruding rearward from the front inner peripheral surface of the peripheral wall portion 10b, a liquid passage port 17 provided between the lower portions of the pair of partition walls 16 to open the bottom wall portion 10a, a vent port 18 provided to open the rear side of the bottom wall portion 10a, and a sleeve portion 19 provided in the central portion of the bottom wall portion 10 a.

The pouring port 15 is a portion for pouring out the beverage in the container body 2 to the outside, and is formed of a groove portion inclined obliquely upward and protruding forward. The pair of partition walls 16 are portions that divide the flow path R in the width direction between the pouring port 15 and the liquid passage port 17, and extend between the pouring port 15 and the liquid passage port 17 so as to protrude in parallel to each other. The liquid passage port 17 is a portion through which liquid flows to the inside of the container main body 2, and is formed by a hole portion penetrating the front side of the bottom wall portion 10 a. The vent hole 18 is a portion that is vented to the inside of the container body 2, and is formed by a hole portion that penetrates the rear side of the bottom wall portion 10 a. The sleeve portion 19 is a portion that axially supports a slide shaft 30 described later in a vertically slidable manner, and has a shaft hole 19a penetrating the bottom wall portion 10a and is provided to protrude upward in a substantially cylindrical shape.

Note that the pouring spout 15 is provided at the front upper end of the cover body 10, but may be provided at the front upper end of the shoulder member 8. When the pouring outlet 15 is provided in the shoulder member 8, the pair of upper wall portions 10d described later may be provided so as to be continuous with the base end portion of the pouring outlet 15 provided in the shoulder member 8 when the cover unit 3 is already attached to the container body 2.

An upper flange portion 10c protruding from the upper end portion of the peripheral wall portion 10b in the diameter expansion direction and a pair of upper wall portions 10d protruding upward from the upper surface of the upper flange portion 10c are provided on the upper portion of the lid body 10.

The upper flange portion 10c has a stepped portion 10e formed over the entire circumference between the upper flange portion and the outer circumferential surface of the circumferential wall portion 10 b. The pair of upper wall portions 10d are continuous with the base end portion of the pouring port 15, and project rearward from the upper flange portion 10c while surrounding the upper end portion of the peripheral wall portion 10 b.

A water seal packing 20 is detachably attached to a lower portion of the cover main body 10. The water seal gasket 20 is an annular seal member that seals between the inside of the container body 2 and the lid body 10, and is made of, for example, a heat-resistant rubber such as silicone rubber, or an elastic member such as an elastomer.

A lower peripheral wall 10f projecting downward in a substantially cylindrical shape from the bottom wall 10a and a lower flange 10g projecting from the outer peripheral surface of the lower peripheral wall 10f over the entire circumference in the diameter expansion direction are provided at the lower portion of the cap body 10.

On the other hand, an annular fitting recess 20a is provided on the inner circumferential surface of the water stop packing 20 over the entire circumference. The water seal packing 20 is fitted to the outer peripheral surface of the lower peripheral wall 10f in a state where the lower flange portion 10g is fitted to the fitting recess portion 20a, and thereby is detachably attached to the outer peripheral portion on the lower end side of the lid main body 10.

Further, an elastic flange portion 20b protruding over the entire circumference in the diameter expansion direction is provided on the outer circumferential surface of the water seal packing 20. When the lid body 10 is already attached to the container body 2, the water seal packing 20 is in a state in which the elastic flange portion 20b is elastically deformed and is in close contact with the projecting portion 7 of the container body 2 over the entire circumference. This enables the extension portion 7 (inside the container body 2) and the lid body 10 to be sealed.

On the other hand, the water seal pad 20 can be removed from the cover main body 10 by elastically deforming (stretching) itself. This enables the lid body 10 and the water seal pad 20 to be cleaned separately from each other, and the space between the lid body 10 and the water seal pad 20 to be kept clean.

The water seal packing 20 is not necessarily limited to the water seal packing of the above-described shape, and for example, the number of the elastic flange portions 20b is not limited to one, and may be plural. The shape of the elastic flange portion 20b can be appropriately changed.

As shown in fig. 2 to 6, 8, and 10, the lid body 11 is attached to the lid main body 10 so as to be movable in the vertical direction in a state where it is biased upward by the first coil spring 21 provided inside.

Specifically, the cover 11 includes: a first coil spring 21, a cover member 22, a first holding member 23, and a cover member 24. The first coil spring 21 is made of a metal wire material having excellent corrosion resistance, such as stainless steel, as the first biasing member. The lid member 22, the first holding member 23, and the cover member 24 are made of a resin molded body such as PP, ABS, POM, or the like.

The cover member 22 is formed in a substantially elliptical plate shape as a whole so as to close the upper portion of the peripheral wall portion 10b in a state of being fitted inside the pair of upper wall portions 10d of the cover main body 10.

A flow passage forming portion 25 for forming a part of the flow passage R is provided on the front side of the cover member 22 (cover 11). The flow path forming section 25 includes: an upper wall 25a covering between the upper sides of the pair of partition walls 16, a rear wall 25b covering between the rear sides of the pair of partition walls 16, and a pair of side walls 25c covering the outer surfaces of the pair of partition walls 16. The pair of partition walls 16 are engaged with the upper wall 25a, the rear wall 25b, and the pair of side walls 25c, and form a flow path R from the liquid passage 17 toward the pouring port 15.

The lid member 22 is detachably attached to the lid main body 10 by engaging with a pair of engaging grooves 16a formed on the outer surfaces of the pair of partition walls 16 and a pair of engaging projections 25d formed on the inner surfaces of the pair of side walls 25 c.

The first holding member 23 includes a substantially circular top wall portion 23a, a peripheral wall portion 23b that descends substantially cylindrically from the outer periphery of the top wall portion 23a, and a plurality of (3 in the present embodiment) hole portions 23c that penetrate the top wall portion 23 a.

In addition, the first holding member 23 has: a pair of guide projections 26, and a sleeve portion 27. The pair of guide projections 26 are provided to project outward from the positions of the peripheral wall portion 23b facing each other.

The sleeve portion 27 is a portion to which a slide shaft 30 described later is detachably attached by screwing, and has a shaft hole 27a penetrating through the center portion of the top wall portion 23a and is provided to protrude downward in a substantially cylindrical shape. Further, a pair of screw engagement projections 27b are provided projecting on the inner side of the sleeve portion 27 (inner peripheral surface of the shaft hole 27 a).

On the other hand, the cover member 22 is provided with an accommodating recess 22a for accommodating the first coil spring 21, a shaft hole 22b penetrating through the center of the accommodating recess 22a, a pair of guide recesses 22c for slidably guiding the pair of guide projections 26 in the vertical direction, and a pair of contact portions 22d for contacting the pair of guide projections 26 at the upper end portions of the pair of guide recesses 22 c.

The first coil spring 21 is compressed between the housing recess 22a and the top wall portion 23a, and the pair of guide projections 26 are brought into the inside of the pair of guide recesses 22c, whereby the first holding member 23 is attached to the cover member 22.

Thereby, the first holding member 23 holds the first coil spring 21 in a compressed state between the first holding member and the cover member 22. The first holding member 23 is slidable (movable) in the vertical direction in a state biased upward by the first coil spring 21. Further, the first holding member 23 is restricted from sliding (moving) upward relative to the cover member 22 by the pair of guide projections 26 abutting against the pair of abutting portions 22 d.

The cover member 24 is formed in a substantially elliptical plate shape as a whole so as to cover the upper portions of the lid member 22 and the first holding member 23 in a state of being fitted inside the pair of upper wall portions 10d of the lid main body 10. An operation handle 24a projecting rearward is provided at the rear end of the cover member 24.

The cover member 24 is attached to be rotatable (movable) in the vertical direction via a hinge portion 28 provided between the cover member and the cover member 22. The hinge portion 28 has: a pair of engaging grooves 25e provided on the cover member 22 side, and a pair of support shafts 24b provided on the cover member 24 side.

The pair of engaging grooves 25e are located on the outer surfaces of the pair of side walls 25c, and are formed by being cut obliquely downward and rearward from the upper end portions of the pair of side walls 25 c. The pair of support shafts 24b are provided to protrude from inner surfaces of the pair of arms 24c, and the inner surfaces of the pair of arms 24c protrude downward from a lower surface of the front side of the cover member 24.

The hinge portion 28 rotatably supports the cover member 24 with respect to the lid member 22 by engaging the pair of support shafts 24b with the pair of engaging grooves 25e and positioning the pair of support shafts 24b at rear end portions of the pair of engaging grooves 25 e. The cover member 24 is detachably attached to the cover member 22 by engagement of the pair of engaging grooves 25e constituting the hinge portion 28 with the pair of support shafts 24 b.

Further, the cover member 24 includes: an elastic piece 24d projecting downward from the lower surface of the rear side, and a locking claw 24e projecting forward from the tip of the elastic piece 24 d. On the other hand, a locking hole 22e is provided on the rear side opening of the cover member 22. In a state where the elastic piece 24d is inserted into the locking hole 22e, the locking claw 24e is locked to the locking hole 22e, whereby the cover member 24 is restricted from rotating (moving) upward relative to the cover member 22.

As shown in fig. 2 to 6 and 9, the middle plug 12 is attached to the cover body 10 so as to be movable in the vertical direction.

Specifically, the middle pin 12 includes a pin body 29, a slide shaft 30, a second coil spring 31, and a second holding member 32. The second coil spring 31 is made of a metal wire material having excellent corrosion resistance, such as stainless steel, as the second biasing member. The plug 29, the slide shaft 30, and the second holding member 32 are made of a resin molded body such as PP, ABS, POM, or the like.

The plug body 29 is formed in a substantially circular plate shape as a whole so as to close the lower side of the lid main body 10. The plug 29 has a shape recessed upward. Further, a pair of wall portions 29a for grasping at the time of attachment and detachment are provided so as to protrude downward from positions facing each other at outer peripheral portions on the lower surface side of the plug body 29.

A sleeve portion 33 is provided at the center of the plug 29. The sleeve portion 33 is a portion that axially supports the slide shaft 30 so as to be slidable in the vertical direction, has a center hole 33a penetrating the plug body 29, and is provided to protrude upward in a substantially cylindrical shape. The sleeve portion 33 is disposed inside the second coil spring 31.

The slide shaft 30 has a shaft portion 30a and a head portion 30b provided at a lower end portion of the shaft portion 30a, and is attached to the plug body 29 so as to be slidable (movable) in the vertical direction in a state where the shaft portion 30a penetrates the center hole 33a toward the upper side. Further, the head 30b of the slide shaft 30 abuts against the lower surface of the plug 29, thereby restricting the slide (movement) of the slide shaft 30 upward relative to the plug 29.

The slide shaft 30 has a plurality of (4 in the present embodiment) rib walls 30c protruding from the periphery of the shaft portion 30a on the proximal end side. On the other hand, a plurality of (4 in the present embodiment) guide grooves 33b into which the plurality of rib walls 30c engage are provided on the inner side of the sleeve portion 33 (the inner circumferential surface of the center hole 33 a). Thereby, the rotation of the plug body 29 about the axis with respect to the shaft portion 30a (the slide shaft 30) is regulated in the middle plug 12.

Further, the shaft portion 30a is provided on its outer peripheral surface with a pair of screw engagement grooves 30d to which the pair of screw engagement projections 27b are screw-engaged, and a pair of locking grooves 30e to which the pair of screw engagement projections 27b are locked. The pair of screw engagement grooves 30d are formed by spirally cutting from the upper end side of the shaft portion 30a downward. The pair of locking grooves 30e are formed continuously with the lower end portions of the respective screw engagement grooves 30d and are notched upward.

A shaft liner 34 is detachably attached to the shaft 30 a. The shaft portion packing 34 is an annular seal member that seals a space between the shaft portion 30a (the slide shaft 30) penetrating the shaft hole 19a of the sleeve portion 19 and the shaft hole 19a (the cap body 10), and is made of, for example, an elastic member such as a heat-resistant rubber or elastomer such as silicone rubber.

The shaft portion packing 34 is fitted into an annular fitting recess 30f provided on the outer peripheral surface of the shaft portion 30 a. An elastic flange portion 34a that closely contacts the periphery of the shaft hole 19a over the entire periphery is provided on the outer peripheral surface of the shaft portion packing 34 so as to protrude in the diameter expansion direction.

A head gasket 35 is detachably attached to the head 30 b. The head packing 35 is an annular seal member that seals between the head 30b (the slide shaft 30) that is in contact with the periphery of the center hole 33a of the sleeve portion 33 and the center hole 33a (the plug 29), and is made of, for example, an elastic member such as a heat-resistant rubber such as silicone rubber or an elastic body. The head pad 35 covers the outer periphery of the head 30 b.

The second holding member 32 has: a substantially circular top wall portion 32a, a peripheral wall portion 32b that descends substantially cylindrically from the outer periphery of the top wall portion 32a, and a slide hole 32c that penetrates the center portion of the top wall portion 32 a.

The second coil spring 31 is compressed between the plug 29 and the top wall portion 32a, and the shaft portion 30a is inserted into the slide hole 32c, whereby the second holding member 32 is attached to the slide shaft 30.

Further, the second holding member 32 is in contact with the contact portion 30g provided between the upper end portions of the plurality of rib walls 30c, thereby being restricted from sliding (moving) upward relative to the slide shaft 30.

Thereby, the second holding member 32 holds the second coil spring 31 in a compressed state between the second holding member and the plug 29. The second holding member 32 is slidable (movable) in the vertical direction in a state biased upward by the second coil spring 31. The second coil spring 31 biases the plug 29 downward with respect to the slide shaft 30.

Further, a plurality of (4 in the present embodiment) guide grooves 32d into which the plurality of rib walls 30c are engaged are provided on the inner peripheral surface of the slide hole 32 c. Thus, the rotation of the second holding member 32 about the axis with respect to the shaft portion 30a (the slide shaft 30) is regulated in the plug 12.

In the cover unit 3 of the present embodiment, as shown in fig. 2, 3, 6, and 10, the slide shaft 30 on the side of the middle plug 12 is detachably attached to the first holding member 23 on the side of the cover 11 by screwing.

Specifically, the slide shaft 30 (the middle bolt 12) is detachably attached to the first holding member 23 (the cover body 11) by screwing in a state in which the shaft portion 30a of the slide shaft 30 penetrates the

shaft holes

19a, 22b, and 27a provided in the cover body 10, the cover member 22, and the first holding member 23, and the tip portion of the shaft portion 30a protrudes upward from the first holding member 23.

The middle plug 12 can be attached to the first holding member 23 (the cover 11) by screwing the pair of screw engagement projections 27b into the pair of screw engagement grooves 30d while rotating the slide shaft 30 and the plug body 29 integrally in one direction about the shaft (in the present embodiment, right-hand winding), and then locking the pair of screw engagement projections 27b into the pair of locking grooves 30 e.

Thus, in the cover unit 3 of the present embodiment, the cover body 11 and the middle plug 12 can be attached to the cover main body 10. In the cover unit 3 of the present embodiment, the plug 29 is closely attached to the water-stop packing 20 over the entire circumference, and the lower side of the cover body 10 is closed by the plug 29 (the middle plug 12).

On the other hand, the slide shaft 30 is pivoted about the shaft (left-hand pivot in the present embodiment) in the opposite direction to the one direction integrally with the plug body 29, whereby the middle plug 12 can be removed from the first holding member 23 (cover body 11). Thus, in the cover unit 3 of the present embodiment, the cover body 11 and the middle plug 12 can be detached and disassembled from the cover main body 10.

As shown in fig. 11 and 12, the lid unit 3 of the present embodiment includes a stopper mechanism 36 that restricts the pivotal movement of the plug body 29 (the middle plug 12) with respect to the lid main body 10 in a state where the plug body 29 (the middle plug 12) closes the lower portion side of the lid main body 10.

The stopper mechanism 36 has: at least one or a plurality of (two in the present embodiment) locking portions 36a provided on the surface (upper surface) side of the plug body 29 facing the cap body 10, and at least one or a plurality of (two in the present embodiment) engaged portions 36b provided on the surface (lower surface) side of the cap body 10 facing the plug body 29.

The locking portion 36a is formed of a wall portion protruding from the upper surface side of the plug body 29. The locking portion 36a extends in the radial direction of the plug body 29, and is provided so that the upper end thereof protrudes at the same height in the radial direction with respect to the inclined upper surface of the plug body 29. The locking portions 36a are provided at symmetrical positions with respect to the center hole 33a of the plug body 29.

The engaged portion 36b is formed by a groove portion formed by cutting out a part of the lower peripheral wall 10f protruding from the lower surface side of the cover main body 10. One end (left end) of the engaged portion 36b in one direction is formed by a vertical surface, and the other end (right end) is formed by an inclined surface. The locked portions 36b are provided at symmetrical positions with respect to the shaft hole 19a of the cover body 10.

In the stopper mechanism 36, in a state where the plug body 29 (the middle plug 12) closes the lower portion side of the lid main body 10, the locking portion (the wall portion) 36a is locked to the locked portion (the groove portion) 36b, thereby restricting the plug body 29 (the middle plug 12) from pivoting with respect to the lid main body 10.

This prevents the plug 29 (the middle plug 12) from pivoting and the slide shaft 30 (the middle plug 12) from being disengaged from the first holding member 23 (the lid body 11) from screwing when the lid unit 3 is attached to and detached from the container body 2 while pivoting.

On the other hand, in the stopper mechanism 36, in a state where the plug body 29 (the middle plug 12) is opened to the lower side of the cover main body 10, a state where the locking portion (the wall portion) 36a is locked to the locked portion (the groove portion) 36b is released. This allows the plug body 29 (the middle plug 12) to easily pivot with respect to the lid main body 10.

In the stopper mechanism 36, when the plug body 29 (the middle plug 12) is pivoted about the axis with respect to the cover main body 10, the stopper body 29 is separated from the waterproof packing 20 while the locking portion (the wall portion) 36a is in sliding contact with the lower end portion of the lower peripheral wall 10 f. Thereby, the plug body 29 (the middle plug 12) can be easily pivoted with respect to the cover main body 10 so that the plug body 29 (the middle plug 12) does not contact the water seal packing 20.

In the stopper mechanism 36, the structures of the locking portion 36a and the locked portion 36b may be appropriately changed, as long as the locking portion 36a is locked to the locked portion 36b, not limited to the case where the locking portion 36a is formed of a wall portion, and the locked portion 36b is formed of a groove portion.

In the cover unit 3 of the present embodiment having the above-described configuration, the plug body 29 (the middle plug 12) closes the lower portion side of the cover main body 10, thereby closing the flow path R. From this state, the grip portion 8a is held with one hand, and the operation handle 24a is pressed downward by a thumb or the like.

At this time, from the state where the tip end portion of the slide shaft 30 has come into contact with the cover member 24, the cover member 24 (cover 11) is rotated (moved) downward against the biasing force of the first coil spring 21, and the slide shaft 30 (middle pin 12) is slid (moved) downward. Thereby, the plug body 29 (middle plug 12) opens the lower side of the lid body 10, and the flow path R is opened.

When the plug 29 (the middle plug 12) receives the pressure in the container body 2, the sliding shaft 30 (the middle plug 12) slides (moves) downward, so that the head 30b opens the lower side of the center hole 33a against the biasing force of the second coil spring 31, and the inside of the container body 2 is ventilated through the vent hole 18.

In the lid unit 3 of the present embodiment, by tilting the container body 2 forward from this state, the beverage contained in the container body 2 can be poured out from the pouring port 15 through the opened flow path R.

On the other hand, in the cover unit 3 of the present embodiment, the pressing operation of the operation lever 24a is released, and the cover member 24 (cover body 11) biased by the first coil spring 21 is thereby rotated (moved) upward. Further, the slide shaft 30 (the middle pin 12) urged by the first coil spring 21 slides (moves) upward. Thereby, the plug 29 (middle plug 12) closes the lower side of the lid body 10, and the flow path R is closed.

The slide shaft 30 (the middle pin 12) slides (moves) upward, and the head portion 30b biased by the second coil spring 31 closes the lower portion side of the center hole 33 a.

In the cover unit 3 of the present embodiment, the cover member 22 (cover body 11) described above is provided with a flow path forming portion 25 that forms a part of the flow path R. This prevents the beverage in the flow path R from flowing into the inside of the cover 11 (specifically, between the cover member 22 and the cover member 24), and also keeps the flow path R clean.

In the cover unit 3 of the present embodiment, the middle plug 12 is detachable from the cover 11 in a state where the middle plug 12 opens the flow path R. Specifically, in a state where the plug body 29 (the middle plug 12) opens the lower portion side of the lid main body 10, the slide shaft 30 on the middle plug 12 side is detachable from the first holding member 23 on the lid body 11 side by screwing.

Thus, in the lid unit 3 of the present embodiment, the lid body 11 and the middle plug 12 can be removed from the lid body 10 in a state where the plug body 29 (middle plug 12) opens the lower side of the lid body 10, and the lid unit 3 can be easily disassembled.

Therefore, in the cover unit 3, the flow path R can be easily cleaned in a state where the cover main body 10, the cover body 11, and the middle plug 12 are disassembled. In addition, since these can be cleaned in the disassembled state, the lid main body 10, the lid body 11, and the middle plug 12 can be kept clean.

As described above, the cover unit 3 of the present embodiment can simplify the structure and improve the cleaning performance. Therefore, the lidded container 1 of the present embodiment can be further improved in convenience of use by including such a lid unit 3.

The present invention is not limited to the above embodiments, and various modifications can be made without departing from the scope of the present invention.

For example, although the above-described embodiment illustrates the container with a lid 1 applied to the above-described tabletop pot, the present invention can be widely applied to a container with a lid including a lid unit detachably attached to a container body having an upper opening.

In the above embodiment, the container with lid 1 having the heat retention and cold retention functions due to the container body 2 having the vacuum heat insulation structure is exemplified, but the present invention can be applied to a container with lid having a container body without a vacuum heat insulation structure.

Claims

1. A cover unit detachably attached to a container body having an open upper portion, comprising:

a lid body that closes an upper opening of the container body and is provided with a flow path that communicates with the inside of the container body;

a cover body which is positioned on the upper side of the cover main body and is movably mounted in the vertical direction relative to the cover main body;

a middle plug located at the lower part side of the cover main body and movably installed along the vertical direction relative to the cover main body; and

a first biasing member that biases the lid body and the middle plug upward,

the flow path is opened by the middle plug while moving the middle plug downward against the biasing force of the first biasing member from a state in which the middle plug closes the flow path,

the first force application component is arranged on the inner side of the cover body.

2. The cover unit of claim 1,

the cover body has: a cover member attached to the cover main body in a state where an upper portion side of the cover main body is closed;

a first holding member that holds the first force application member between the lid member and the first holding member; and

and a cover member which is rotatably attached to the lid member via a hinge portion in a state of covering an upper portion of the first holding member.

3. The cover unit of claim 2,

the middle bolt is provided with: a plug body provided with a central hole;

a slide shaft which is vertically slidably attached to the plug body in a state of penetrating the center hole upward;

a second biasing member that biases the plug body downward with respect to the slide shaft; and

a second holding member that holds the second force application member between the plug body and the second holding member,

the slide shaft is attached to the first holding member in a state where the slide shaft penetrates through shaft holes provided in the cover main body, the cover member, and the first holding member, and a tip end portion of the slide shaft protrudes upward from the first holding member,

when the cover member is rotated downward against the biasing force of the first biasing member from a state in which the plug body closes the lower portion side of the cap body, the slide shaft slides downward while the plug body opens the lower portion side of the cap body in a state in which the tip end portion of the slide shaft has come into contact with the cover member.

4. The cover unit of claim 3,

the slide shaft is attached to the first holding member by screwing while pivoting in one direction integrally with the plug body.

5. The cover unit according to any one of claims 2 to 4,

the cover member has an operation handle projecting from a rear end portion.

6. A container with a lid, comprising:

the cover unit of any one of claims 1 to 5; and

a container body to which the cap unit is attached.

7. The lidded container of claim 6 wherein,

a handle portion protruding rearward and extending downward is provided on the rear side of the container body or the lid unit.

8. The lidded container of claim 6 or 7 wherein,

the container body has a vacuum insulation construction.