KR20180008380A - Container and packing method - Google Patents

Abstract

The container 1 includes a container body 3 for accommodating a plurality of optical elements 2, a cover body 4 covering the container body 3, a container body 3, And a compression pack (5) The top plate 12 of the lid body 4 is compressed by the compression pack 5 with the lid body 4 and the container body 3 in a state in which the lid body 4 is covered with the container body 3, The optical element 2 is deformed into a convex shape while being in contact with the upper end 2a of all the optical elements 2 accommodated in the main body 3 and the upper end 2a of the optical element 2 is deformed by the tensile force generated by the deformation of the convex shape. . The container 1 is provided with at least one of the container body 3 and the lid body 4 with a restriction portion for regulating the degree of deformation of the convex shape of the top plate portion 12 of the lid body 4. [

Description

Container and packing method

The present invention relates to a container for accommodating an optical element including a rectangular plate glass, for example, and a method for packing an optical element using the container.

For example, a cover glass used for an image sensor of a digital camera is an optical element formed by forming an optical filter such as an IR cutoff filter on the surface of a plate glass by vacuum deposition or the like. For this type of optical element, a very small rectangular shape is used in order to be assembled in an optical apparatus such as a digital camera. In order to manufacture such an optical element, an optical filter is usually formed on the surface of a large plate glass, and then the plate glass is cut into small rectangles. The optical element thus obtained is packed in a predetermined container until it is assembled into an optical device, and is stored in a container or shipped in a container.

BACKGROUND ART [0002] Conventionally, a container for a container for accommodating an optical element includes a tray-shaped container body for accommodating a plurality of optical elements, and a cover body that covers the container body. The optical element is normally housed in the container portion of the container body in an upright position from the viewpoint of being easily attached to or detached from the container body or effectively protecting the effective surface thereof. In the housing portion of the container body, a plurality of grooves are formed to hold a plurality of optical elements.

When the upper end portion of the optical element is projected from the container main body when the optical element is housed in the accommodating portion, the left and right side portions of the optical element are held in the accommodating portion without contacting the effective surface of the optical element Or can be drawn out from the accommodating portion, so that handling thereof is facilitated. The optical element is accommodated in the container body as described above, and is wrapped by covering it with a lid.

Incidentally, in order to easily attach and detach the optical element to the container body, the groove portion of the accommodation portion has a width slightly larger than the thickness of the optical element. Therefore, in the container, the optical element is in a limited range, but can move slightly in the direction along the groove. In this state, the optical element vibrates in the accommodating portion when the container is transported or the like, and slides between the optical element and the inner surface of the container body due to the vibration. As a result, a part of the optical element or a part of the container may be abraded or broken, thereby causing abrasion or breakage in the container. If a foreign matter such as abrasive particles generated in this way adheres to the effective surface of the optical element, the optical function is deteriorated.

In order to prevent oscillation of such an optical element, Patent Document 1 discloses a structure in which an optical element is accommodated in a container body (tray), an optical element is covered with a flexible protective sheet, (Housing case) in which the bottom surface of the container body and the upper and lower end surfaces of the optical element are clamped by the protective sheet by putting the inside of the vacuum pack into a vacuum state.

In this container, the protective sheet is placed on the optical element in a non-restrained state, so that the protective sheet does not partially exert a strong tensile force, but is pressed against the optical element only by the pressure generated by the negative pressure. (See paragraph 0027 of this document.

However, when the protective sheet is used in the non-restrained state as described above, there is a fear that the protective sheet comes into contact with the effective surface of the optical element depending on the pitch interval of the optical element, and the protective sheet is damaged or contaminated.

Japanese Patent Application Laid-Open No. 2006-131288

The inventor of the present invention has found that, in order to reliably avoid damage to the effective surface of the optical element as described above, the top plate portion of the lid body covering the container body is deformed along the tension to press the upper end portion of the optical element by the top plate portion I came to conceive something.

Specifically, as shown in Fig. 11, the container 100 includes a container body 102 that houses the optical element 101, a cover 103 that covers the container body 102, And a compression pack (vacuum pack) The container body 102 has a receiving portion 102a for receiving the optical element 101 and a flange portion 102c connected to the side wall portion 102b of the receiving portion 102a. The lid body 103 has a top plate portion 103a, a side wall portion 103b connected to the top plate portion 103a and a flange portion 103c connected to the side wall portion 103b.

In this container 100, a plurality of optical elements 101 are housed in a state of being erected in a container body 102, and a cover body 103 is placed on the container body 102. At this time, the flange portion 103c of the lid body 103 comes into contact with the flange portion 102c of the container body 102. [ Thereafter, the container body 102 and the lid body 103, which are attached to each other, are accommodated in the compression pack 104, and air in the compression pack 104 is sucked by a suction device not shown. As a result, the compression pack 104 is contracted to compress the container body 102 and the cover body 103.

The top plate portion 103a of the cover body 103 is located at a position away from the optical element 101 before suctioning as shown by a solid line in Fig. 11, whereby the top end portion 101a of the optical element 101 And the top plate 103a of the lid 103 are spaced apart from each other. When the air in the compression pack 104 is sucked by the suction device, the cover 103 is pressed by the compression pack 104 and the top plate 103a is pressed against the upper end 101a of the optical element 101 (Indicated by a two-dot chain line in Fig. 11). By this deformation, the top plate 103a of the lid body 103 comes into contact with the upper end 101a of the optical element 101. [

The top plate 103a of the lid body 103 is pressed by the compression pack 104 to press the upper end portion 101a of each optical element 101 so that each optical element 101 And can be fixed to the receiving position. In this case, a tensile force is generated on the top plate portion 103a deformed into the concave shape, and the top plate portion 103a tries to return to the original flat plate shape. Therefore, the effective surface side of the optical element 101 It becomes difficult to turn around. Therefore, the container 100 can reliably prevent the top plate 103a from contacting the effective surface of the optical element 101. [

However, the inventors of the present invention have found that the following problems arise in the container 100 according to the above construction. When the top plate portion 103a of the lid member 103 is deformed into a concave shape and the upper end portion 101a of the optical element 101 is pressed, the degree of deformation of the top plate portion 103a is changed in the direction of the row of the optical element 101 And the degree of deformation at the central portion side becomes large, and the degree of deformation at the end portion side becomes small. Therefore, the optical element located at the end side of the top plate portion 103a, that is, the optical element 101A positioned at the front or rear end of the row is not appropriately pressed by the top plate portion 103a, The upper surface of the top plate 103a and the inner surface of the container main body 102 are repeatedly slid, thereby causing abrasion.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a container and a packing method capable of appropriately fixing all accommodated optical elements in a stable state.

SUMMARY OF THE INVENTION In order to solve the above-described problems, the present invention provides a container comprising a container body containing a plurality of optical elements, a cover body covering the container body, and a compression pack for compressing the container body and the cover body , The container body has a receiving portion which exposes an upper end portion of the optical element and houses the optical element in an upright state, and the lid body has a top plate portion and a side wall portion connected to the top plate portion, Wherein the lid body and the container body are compressed by the compression pack in a state in which the lid body is covered with the container body so that the lid body and the container body are deformed into a convex shape while being in contact with the upper end portions of all the optical elements accommodated in the container body, And to press the upper end of the optical element by a tensile force generated by the deformation of the convex shape Characterized in that it comprises on at least one of the cover parts of the top plate portion regulation for regulating the amount of deformation of the convex shape of the container body and the lid in the body.

According to this configuration, a plurality of optical elements are housed in the housing portion of the container body in an upright state, the cover body is put on the container body, the top plate portion is brought into contact with the upper end portions of all the optical elements, When the container body and the lid body are compressed by this, the top plate of the lid body is deformed into a convex shape while being in contact with all the optical elements by this compression. This deformation causes tension on the top plate portion, and the top plate portion presses all the optical elements along the tension. The container can fix the optical element in its receiving position by this pressing. In this case, by restraining the degree of deformation (deformation amount) of the top plate by the restricting portion, it is possible to avoid the situation where the top plate pushes the optical element with excessive tension or the pressing by the top plate becomes insufficient, All of the optical elements can be stably and appropriately fixed to their receiving positions with an appropriate tension.

According to the container of the present invention, the restricting portion is a flange portion connected to the side wall portion of the lid, and when the flange portion comes into contact with a part of the container main body, It is desirable to regulate the degree. Further, the restricting portion may be a flange portion formed around the accommodating portion of the container main body, and the degree of deformation of the convex shape of the top plate portion may be regulated by a part of the lid body contacting the flange portion Maybe. The degree of deformation of the convex shape of the top plate portion of the lid body may be regulated by bringing the flange portion (regulating portion) of the lid body into contact with the flange portion (regulating portion) of the container body.

By constituting the restricting portion as the flange portion in this way, a part of the container main body or a part of the lid body can be easily brought into contact with the flange portion, thereby making it possible to securely fix the optical element.

In order to solve the above-described problems, the present invention is also directed to a liquid container comprising a container body for housing a plurality of optical elements, a lid body covering the container body, and a compression pack for compressing the container body and the lid body Wherein the container body includes a housing portion that exposes an upper end portion of the optical element and that houses the optical element in an upright state and a flange portion that is formed around the housing portion, A side wall portion connected to the top plate portion and a flange portion connected to the side wall portion, wherein when the lid body is covered with the container body in a state where the lid body is not compressed by the compression pack, Wherein a top plate portion of the lid body is in contact with all the optical elements accommodated in the container body and the flange portion of the lid body Wherein the cover body and the container body are compressed by the compression pack so that the top plate is in a convex shape while being in contact with the upper end of all the optical elements housed in the container body Wherein the compression pack is configured to compress the upper end of the optical element by a tensile force generated by the deformation of the convex shape, and when the lid body and the container body are compressed by the compression pack, And the degree of deformation of the convex shape of the top plate portion of the lid body is regulated by the contact of the flange portion with the flange portion of the container body.

According to this configuration, a plurality of optical elements are housed in the housing portion of the container body in an upright state, the cover body is put on the container body, the top plate portion is brought into contact with the upper end portions of all the optical elements, When the container body and the lid body are compressed by this, the top plate of the lid body is deformed into a convex shape while being in contact with all the optical elements by this compression. This deformation causes tension on the top plate portion, and the top plate portion presses all the optical elements along the tension. The container can fix the optical element in its receiving position by this pressing. In order to cause tension on the top plate portion, the lid body is placed on the container body in a state in which the compression pack is not compressed, and when the top plate portion is brought into contact with the upper end portions of all the optical elements accommodated in the container body, It is preferable that they are spaced apart from the flange portion of the flange portion. As a result, there is a possibility that the top plate can be deformed into a convex shape in accordance with the distance between the cover body and the cover body. Under this condition, the lid body is pressed by the compression pack, and the flange portion of the lid body is brought into contact with the flange portion of the container body, whereby the degree of deformation (deformation amount) of the top plate portion can be regulated. As a result, it is possible to avoid a situation in which the top plate pushes the optical element by excessive tension or the pressing by the top plate becomes insufficient. As described above, the container can stably and suitably fix all the optical elements to their receiving positions with an appropriate tension.

The present invention also provides a container having a container body for accommodating a plurality of optical elements and a lid body covering the container body, wherein the container body exposes an upper end of the optical element, And a flange portion formed around the accommodating portion, wherein the cover includes a top plate portion, a side wall portion connected to the top plate portion, and a flange portion formed on the side wall portion, Wherein when the cover body is put on the container body accommodating the optical element, the top plate portion is in contact with an upper end portion of all the optical elements housed in the housing portion, and at the same time, And the flange portion is arranged so as to face away from the flange portion of the container body.

As described above, in the present invention, when the cover body is put on the container body, the top plate of the lid body is brought into contact with the upper end of all the optical elements housed in the container body so that the flange portion of the lid body is facing away from the flange portion of the container body . When the cover body is compressed in this state, the top plate portion of the cover body can be deformed into a convex shape. At this time, when the flange portion of the lid body is separated from the flange portion of the container body, The deformation of the convex shape continues. Further, the lid body deforms the top plate portion into a convex shape, and the flange portion approaches the flange portion of the container body. When the flange portion of the lid body contacts the flange portion of the container body, the top plate portion is restricted from being deformed in its convex shape. By this restriction, the top plate portion does not increase the amount of the abnormal deformation, but maintains the deformation of the convex shape at that time. If the flange portion of the lid body is spaced apart from the flange portion of the container body so as to be opposed to each other when the top plate portion is brought into contact with the upper end portion of all the optical elements housed in the container body, And the top plate portion presses all the optical elements with the tension generated by the deformation, and the top plate portion can be stably and appropriately fixed to the receiving position.

The above and other objects of the present invention are achieved according to a first aspect of the present invention. The present invention provides a method of manufacturing an optical device, comprising: a first step of accommodating the plurality of optical elements in the accommodating portion of the container main body; A second step of placing the cover body on the container body so as to contact the container body and the flange portion of the cover body so that the flange portion faces away from the flange portion of the container body; And the top plate is brought into contact with the upper end of all of the optical elements accommodated in the container main body by pressing the lid body by the compression pack, And by the tensile force generated by the deformation of the convex shape, And a third step of pressing the upper end portion of the cow with the top plate portion, wherein in the third step, the flange portion of the lid body is brought into contact with the flange portion of the container body, The degree of deformation of the convex shape of the convex portion is regulated.

With this configuration, in the second step, the top plate portion of the lid body is brought into contact with the upper end portions of all the optical elements housed in the container body, and the flange portion of the lid body is faced away from the flange portion of the container body, There is a possibility that it can be deformed into a convex shape. From this state, when the container body and the lid body are compressed by the compression pack in the third step, the top plate of the lid body is deformed into a convex shape while being in contact with all the optical elements by this compression. This deformation causes tension on the top plate portion, and the top plate portion presses all the optical elements along the tension. The container can fix the optical element in its receiving position by this pressing. In this case, by restricting the deformation degree (deformation amount) of the top plate portion by bringing the flange portion of the lid body into contact with the flange portion of the container body, the top plate portion presses the optical element with excessive tension or the pressing by the top plate portion becomes insufficient The situation can be avoided. With this method, it becomes possible to stably and suitably fix all the optical elements to their receiving positions with an appropriate tension.

According to the present invention, it is possible to appropriately fix all accommodated optical elements in a stable state.

1 is a perspective view showing a container according to a first embodiment.
2 is a plan view of the container body.
3 is a sectional view taken along line III-III in Fig.
4 is a side view of the container body.
5 is a plan view of the cover body.
6 is a sectional view taken along line VI-VI in Fig.
7 is a cross-sectional view showing a state in which a lid body is covered with a container body containing a plate glass.
8 is a cross-sectional view showing a state in which the container body and the lid body are compressed by sucking the compression pack.
9 is a cross-sectional view showing a container according to the second embodiment.
10 is a cross-sectional view showing an embodiment of a container according to the third embodiment.
11 is a partial cross-sectional view showing a reference example of a container.

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

1 to 8 show a first embodiment of a container and a packing method according to the present invention. 1, the container 1 includes a container body 3 for accommodating the optical element 2, a lid body 4 for covering the container body 3, a container body 3, And a compression pack (5) for compressing the cover body (4). The container body 3 and the cover body 4 are made of, for example, a transparent resin material, and are molded into a predetermined shape by vacuum molding or various other molding methods.

As shown in Figs. 1 to 4, the container body 3 is formed in a rectangular shape as viewed in a plan view, and includes a receiving portion 6 capable of accommodating a plurality of optical elements 2, (Not shown).

The receiving portion 6 is integrally formed with the base portion 7. [ Specifically, the accommodating portion 6 is formed by forming recesses at two places within the range of the base 7. The accommodating portion 6 is formed in a long shape along the longitudinal direction of the container body 3. The two accommodating portions 6 are integrally formed on the base portion 7 so as to be substantially parallel to each other. Each accommodating portion 6 has a bottom portion 6a and a side wall portion 6b surrounding the periphery of the bottom portion 6a. The bottom portion 6a is formed in a rectangular shape when viewed in plan. The side wall portion 6b of the accommodating portion 6 has a groove portion 6c for guiding and holding the optical element 2. The groove portion 6c is formed in a portion of the side wall portion 6b corresponding to the long side of the rectangular bottom portion 6a.

As shown in Figs. 1 and 2, the base portion 7 has a rectangular shape when seen in a plan view. The base 7 has a flange portion 8 (hereinafter referred to as a "first flange portion") 8 surrounding the periphery of the two accommodating portions 6 and a side wall portion (Hereinafter referred to as a "second flange portion") 10 connected to the side wall portion 9 and a connecting portion 11 for connecting them between the two receiving portions 6 .

The first flange portion 8 of the base portion 7 is formed in a rectangular shape and a flat plate shape extending laterally. The first flange portion 8 contacts and supports a part of the lid body 4 when the lid body 4 is covered with the container body 3. The side wall portion 9 of the base portion 7 protrudes downward from the edge portion of the first flange portion 8 so as to surround the periphery of the first flange portion 8 as shown in Figures 2 and 3 . The second flange portion 10 of the base portion 7 projects sideward from the lower end portion of the side wall portion 9 so as to surround the periphery of the side wall portion 9 as shown in Figs. The connecting portion 11 of the base portion 7 connects the two accommodating portions 6 in a state in which they are separated from each other. The connecting portion 11 is integrally formed with the first flange portion 8 so as to be flush with the first flange portion 8. [

1, 5, and 6, the lid body 4 includes a top plate portion 12, a side wall portion connected to the top plate portion 12 (hereinafter referred to as a "first side wall portion" (Hereinafter referred to as a "first flange portion") 14 connected to the first side wall portion 13 and a side wall portion (hereinafter referred to as "first flange portion") 14 connected to the first flange portion 14 (Hereinafter referred to as a "second side wall portion") 15 and a flange portion (hereinafter referred to as "second flange portion") 16 connected to the second side wall portion 15.

As shown in Fig. 5, the top plate portion 12 is formed into a rectangular flat plate shape when seen in plan view. The top plate portion 12 preferably has flexibility or elasticity. The top plate portion 12 has protrusions 17 for positioning each container 1 when the container 1 is lifted up and down. As shown in Fig. 5, the projecting portion 17 has a rectangular shape in plan view. When the plurality of containers 1 are piled up, the protruding portions 17 of the lid body 4 with respect to the container 1 located at the lower side are stacked on the upper side of the container body 1 (6). By doing so, the protrusion 17 of the lower container 1 locks the container body 3 of the upper container 1, thereby preventing the upper container 1 from falling down from the lower container 1 do.

The first side wall portion 13 of the lid body 4 protrudes downward from the edge portion of the top plate portion 12 so as to surround the periphery of the top plate portion 12 as shown in Figs. Respectively. The first sidewall portion 13 is formed on the cover body 4 so that the inner surface of the cover body 4 includes the concave portion having a predetermined depth. In this case, the concave portion has a space for accommodating the optical element 2 in the lid body 4, and is composed of the first side wall portion 13 and the top plate portion 12 serving as the bottom surface.

The first flange portion 14 of the cover body 4 is configured to surround the edge portion of the first side wall portion 13 and has a flat plate shape substantially parallel to the top plate portion 12. The first flange portion 14 is configured to face the first flange portion 8 of the container body 3 when the lid body 4 is put on the container body 3. More specifically, when the lid body 4 is placed on the container body 3 containing the optical element 2, the top plate 12 is brought into contact with the top of all the optical elements 2 And the first flange portion 14 of the lid body 4 is arranged so as to face away from the first flange portion 8 of the container body 3. In order to realize such an arrangement, the vertical length of the optical element 2 is L and the depth of the accommodating portion 6 of the container body 3 (from the bottom portion 6a of the accommodating portion to the first flange portion 8) D1 + D2 < L, where D2 is the distance from the top plate 12 to the first flange 14, and D2 is the depth of the recess in the lid 4 (the distance from the top plate 12 to the first flange 14) need.

1 and 6, the second sidewall portion 15 of the lid body 4 is formed so as to surround the first flange portion 14 from the peripheral edge portion of the first flange portion 14 And protrudes downward. 1 and 6, the second flange portion 16 of the cover body 4 is formed so as to surround the periphery of the second side wall portion 15, and the second flange portion 16 of the second side wall portion 15 And protrudes sideward from the lower end. The second flange portion 16 constitutes an outermost edge portion of the lid body 4 when viewed in plan.

The compression pack 5 is made of, for example, a bag made of a transparent resin. The air in the compression pack 5 is sucked by the suction device and contracted, whereby the container body 3 and the cover body 4 accommodated therein can be compressed. The compression pack (5) is sealed after the internal air is sucked.

Hereinafter, a method of packing the optical element 2 using the container 1 having the above-described configuration will be described.

First, a rectangular optical element 2 formed in a predetermined size (area) is accommodated in the container body 3 (the first step or the receiving step). At this time, the optical element 2 housed in the receiving portion 6 of the container body 3 is in an upright state with its side portion fitted into the groove portion 6c of the receiving portion 6, (Exposed) upward from the base portion 7 of the base 3.

When the predetermined number of optical elements 2 are accommodated, the cover body 4 is put on the container body 3 (second process or assembly process). 7, the inner surface of the top plate 12 of the lid body 4 contacts the top end 2a (top surface) of all the optical elements 2 housed in the container body 3, It becomes a state. The inner surface of the top plate portion 12 of the lid body 4 is covered with the inner surface of the top plate portion 12 which is accommodated in the container body 3 because the top plate portion 12 is formed in a flat plate shape and all the optical elements 2 accommodated therein are of the same size. And is in contact with the upper end 2a of all the optical elements 2.

The first flange portion 14 of the lid body 4 faces the first flange portion 8 of the container body 3 when the lid body 4 is put on the container body 3. [ 7, the first flange portion 14 of the lid body 4 is not in contact with the first flange portion 8 of the container body 3, (8). &Lt; / RTI &gt;

Next, as shown in Fig. 8, in a state in which the lid body 4 is covered with the container body 3, the lid body 4 is accommodated in the compression pack 5 and compressed (third step or compression step). The suction device is connected to the compression pack 5 to suck the air in the compression pack 5. As the suction progresses, the compression pack 5 gradually contracts and presses the container body 3 and the cover body 4.

The lid body 4 is deformed into a convex shape (upward convex shape) in a state in which the top plate portion 12 is in contact with the upper end portion 2a of the optical element 2 by being pressed onto the compression pack 5. The first flange portion 14 of the lid body 4 is pressed against the compression pack 5 along the deformation of the top plate portion 12 to approach the first flange portion 8 of the container body 3 . The second side wall portion 15 of the lid body 4 approaches the side wall portion 9 of the base portion 7 of the container body 3 and the second flange portion 16 of the lid body 4 approaches the side wall portion 9 of the container body 3. [ Approaches the second flange portion (10) of the flange portion (3).

8, the first flange portion 14 of the lid body 4 contacts the first flange portion 8 of the container body 3 and the lid body 4 The second side wall portion 15 of the cover body 4 contacts the side wall portion 9 of the base portion 7 of the container body 3 and the second flange portion 16 of the lid body 4 contacts the container body 3 The second flange portion 10 is brought into contact with the second flange portion 10 of the second flange portion 10.

The top plate 12 of the lid body 4 is deformed into a convex shape while being in contact with the upper end 2a of the optical element 2 accommodated in the container body 3, Until the first flange portion 14 of the container body 3 contacts the first flange portion 8 of the container body 3. When the first flange portion 14 of the cover body 4 contacts the first flange portion 8 of the container body 3, the first flange portion 14 is restrained by the compression of the compression pack 5 to maintain the contact state. As a result, the deformation of the top plate portion 12 is stopped, and the top plate portion 12 is deformed into a convex shape at that point of time. At this time, the top plate 12 of the lid body 4 is deformed into a convex shape, so that a tensile force is generated, and all the optical elements 2 are pressed by this tensile force.

The lid body 4 is pressed against the top end 2a of all the optical elements 2 accommodated in the container body 3 by the pressing of the top plate 12, And is fixed to the receiving position.

According to the container 1 and the packing method of the present embodiment described above, the optical element 2 is accommodated in the accommodating portion 6 of the container body 3 and the cover body 4 is attached to the container body 3. [ And the top plate 12 of the lid body 4 can be deformed into a convex shape while being in contact with the upper end 2a of all the optical elements 2 by accommodating them in the compression pack 5 and compressing them. The top plate portion 12 presses and fixes all the optical elements 2 by the tension generated by this deformation.

The first flange portion 14 of the lid body 4 comes into contact with the first flange portion 8 of the container body 3 to stop the increase in the deformation of the top plate portion 12, 12 are deformed in a convex shape. The first flange portion 14 of the lid body 4 and the first flange portion 8 of the container body 3 are in contact with each other so that the degree of deformation of the top plate portion 12 can be regulated. That is, each of the first flange portions 8, 14 functions as a regulating portion for regulating the degree of deformation of the top plate portion 12 (hereinafter, common reference numerals 8 and 14 are used for the flange portion and the regulating portion).

By limiting the degree of deformation of the top plate portion 12 by the restricting portions 8 and 14 as described above, the top plate portion 12 presses the optical element 2 with excessive force, It is possible to avoid a situation in which the pressing by the user is insufficient. Thereby, the container 1 can stably and appropriately fix the optical element 2 with an appropriate tension. Since the degree of deformation of the top plate portion 12 is regulated by the restricting portions 8 and 14, it is possible to prevent the cover body 4 from being excessively deformed and deviating from the original shape, 1) are piled up and down, they do not break the balance.

When the compression pack 5 is opened when the optical element 2 is taken out, the top plate portion 12 deformed into a convex shape is restored to its original flat plate shape, and the first plan The supporting portion 14 is moved away from the first flange portion 8 of the container body 3 and the second flange portion 16 of the lid body 4 is moved away from the second flange portion 10 of the container body 3, . As a result, a gap is formed between the second flange portion 16 of the lid body 4 and the second flange portion 10 of the container body 3 to separate the lid body 4 from the container body 3 It becomes easier to do. As a result, it is possible to efficiently carry out the drawing operation of the optical element 2 after opening the shipping line.

Fig. 9 shows a second embodiment of the container according to the present invention. In the first embodiment, the first flange portion 14, the second side wall portion 15 and the second flange portion 16 are formed on the cover body 4. In this embodiment, And has only a top plate portion 12 and a side wall portion 13 connected to the top plate portion 12.

The base portion 7 of the container body 3 has the first flange portion 8, the side wall portion 9 and the second flange portion 10 as in the first embodiment. In this embodiment, And the concave portion 18 is formed in the concave portion 8 of the first embodiment.

In the present embodiment, the lid body 4 is put on the container body 3 containing the optical element 2, and the lid body 4 is accommodated in the compression pack 5 and compressed so that the top plate portion 12 is made in the same manner as in the first embodiment And is deformed into a convex shape. At this time, the side wall portion 13 of the lid body 4 is fitted to the concave portion 18 formed in the first flange portion 8 of the container body 3, thereby deforming the top plate portion 12 Is regulated. The first flange portion 8 and the concave portion 18 of the container main body 3 come into contact with a part of the top plate portion 12 to function as a regulating portion for regulating the degree of deformation of the top plate portion 12 do. Thereby, the container 1 can stably and appropriately fix all the optical elements 2 accommodated in the container main body 3.

Fig. 10 shows a third embodiment of the container according to the present invention. The first flange portion 8, the side wall portion 9 and the second flange portion 10 are formed on the base portion 7 of the container body 3 in the first embodiment, 3) do not have these. The sidewall portion 6b of the accommodating portion 6 contacts the first flange portion 14 of the lid body 4 to restrict the deformation of the convex shape of the top plate portion 12. [ As described above, in this embodiment, the first flange portion 14 of the lid body 4 functions as a regulating portion for regulating the degree of deformation of the top plate portion 12 by making contact with a part of the container main body 3. [ Thereby, the container 1 can stably and appropriately fix all the optical elements 2 accommodated in the container main body 3.

Further, the present invention is not limited to the configuration of the above-described embodiment, and is not limited to the above-described operational effects. The present invention can be modified in various ways without departing from the gist of the present invention.

In the above embodiment, the container body 3 is provided with two receiving portions 6. However, the present invention is not limited to this, and the number of the receiving portions 6 may be one or three or more.

The first flange portion 8 of the container body 3 and the second flange portion 8 of the lid body 4 as the regulating portion for regulating the degree of deformation of the convex shape of the top plate portion 12 of the lid body 4. [ 1 flange portion 14 is exemplified, but the present invention is not limited thereto. For example, the second flange portion 10 of the container body 3 and the second flange portion 16 of the lid body 4 may function as a regulating portion. When the restricting portion is formed in a shape other than the flange portion, in addition to the recessed portion 18 exemplified in the third embodiment, even if a protruding portion for contacting a part of the lid body 3 to lock it is formed in the container body 3 The degree of deformation of the top plate portion 12 of the lid body 3 may be regulated by forming protrusions or recesses in a part of the lid body 3 and bringing them into contact with a part of the container body 3. [

1: container 2: optical element
3: container body 4: cover body
5: Compression pack 6:
8: flange portion (regulating portion) 12: top plate portion
13: side wall portion 14: flange portion (regulating portion)

Claims (6)

A container comprising: a container body containing a plurality of optical elements; a cover body covering the container body; and a compression pack for compressing the container body and the cover body,
Wherein the container body has an accommodating portion which exposes an upper end of the optical element and accommodates the optical element in an upright state,
Wherein the lid has a top plate portion and a side wall portion connected to the top plate portion,
Wherein the top plate portion is deformed into a convex shape while being in contact with the upper end portion of all the optical elements accommodated in the container body by the lid body and the container body being compressed by the compression pack in a state in which the lid body covers the container body And is configured to press the upper end portion of the optical element by a tensile force generated by the deformation of the convex shape,
Wherein a restriction portion for regulating a degree of deformation of the convex shape of the top plate portion of the lid body is provided on at least one of the container body and the lid body. The method according to claim 1,
Wherein the restricting portion is a flange portion connected to the side wall portion of the lid body and the flange portion is brought into contact with a part of the container body to regulate the degree of deformation of the convex shape in the top plate portion. 3. The method according to claim 1 or 2,
Wherein the restricting portion is a flange portion formed around the accommodating portion of the container main body and a portion of the lid body is brought into contact with the flange portion to regulate the degree of deformation of the convex shape in the top plate portion. A container comprising: a container body containing a plurality of optical elements; a cover body covering the container body; and a compression pack for compressing the container body and the cover body,
Wherein the container body includes a housing portion which exposes an upper end portion of the optical element and accommodates the optical element in a state in which the optical element is upright, and a flange portion formed around the housing portion,
The lid body includes a top plate portion, a side wall portion connected to the top plate portion, and a flange portion connected to the side wall portion,
Wherein a top plate of the lid body is in contact with all the optical elements accommodated in the container body when the lid body is covered with the container body in a state where the lid body is not compressed by the compression pack, Wherein the flange portion is disposed so as to face away from the flange portion of the container body,
Wherein the top plate portion is deformed into a convex shape while being in contact with the upper end portion of all the optical elements accommodated in the container main body while the cover body and the container main body are compressed by the compression pack, To press the upper end of the optical element by a tension generated by the optical element,
The flange portion of the lid body is brought into contact with the flange portion of the container body in a state in which the lid body and the container body are compressed by the compression pack so that the convex shape of the top plate portion of the lid body And the degree of deformation of the container is regulated. 1. A container comprising a container body containing a plurality of optical elements and a lid body covering the container body,
Wherein the container body includes a housing portion which exposes an upper end portion of the optical element and accommodates the optical element in a state in which the optical element is upright, and a flange portion formed around the housing portion,
The lid body includes a top plate portion, a side wall portion connected to the top plate portion, and a flange portion connected to the side wall portion,
Wherein when the lid body is put on the container body accommodating the optical element, the top plate portion is in contact with the upper end of all the optical elements accommodated in the housing portion, and the flange portion of the lid body And is disposed so as to face away from the flange portion. A method for packing an optical element by the container according to claim 4,
A first step of accommodating the plurality of optical elements in the accommodating portion of the container main body;
After the first step, the lid body is placed on the container body so that the top plate portion is in contact with the upper end portion of all the optical elements, and the flange portion of the lid body is arranged so as to face away from the flange portion of the container body ; And
After the second step, the container body and the cover body are inserted into the compression pack, the air in the compression pack is sucked, and the cover body is pressed by the compression pack, A third step of deforming the top plate portion into a convex shape while the top plate portion is in contact with the top end portion of the element and pressing the top end portion of the optical element by the top plate portion by the tension generated by the deformation of the convex shape And,
And the flange portion of the lid body is brought into contact with the flange portion of the container body in the third step so as to regulate the degree of deformation of the convex shape of the top plate portion of the lid body. Way.

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