JP6656934B2 - Showcase door - Google Patents

Description

  The present invention relates to a door for a showcase.

  Conventionally, showcases for displaying foods and beverages while keeping them in a warm, refrigerated or frozen state have been widely installed, and as a door for such a showcase, a peripheral edge of the sheet glass was held by a frame. One is generally known (Patent Document 1 below). Patent Literature 1 discloses an apparatus including four frame rods (frame member) that form a frame, and a corner joint that connects two adjacent frame rods. The frame rod of Patent Literature 1 is cut so that an end surface thereof is an inclined surface that forms an angle of 45 degrees with respect to the longitudinal direction of the frame rod, and adjacent frame rods are configured such that the inclined surfaces come into contact with each other. ing.

JP-A-8-60946

  In order to form a frame rod having an inclined end surface as in the above-mentioned patent document, for example, an end of a substantially rectangular parallelepiped member is cut in a direction inclined with respect to the longitudinal direction (45 degrees in patent document 1). It is possible. However, in such a configuration, there is a problem in that a scrap (excess member) is generated when the frame rod is manufactured.

  The present invention has been completed on the basis of the above circumstances, and an object of the present invention is to provide a door for a showcase including a frame body capable of suppressing a situation in which scraps are generated.

  In order to solve the above problems, a door for a showcase of the present invention is a door for a showcase attached to a housing having a storage room and for opening and closing the storage room. And a rectangular frame-shaped frame disposed on a peripheral portion of the plate-shaped glass, wherein the frame is formed of four elongated members extending along each of four peripheral sides of the plate-shaped glass. A frame member, and a corner joint that connects two adjacent frame members of the four frame members in an orthogonal manner, and forms a corner of the frame, An end surface of one of the two frame component members on the other frame component member side in one frame component member is a surface extending along a direction orthogonal to a longitudinal direction of the one frame component member, The other frame of the two frame members The end surface of the one frame component member side of the component member is a surface extending along a direction orthogonal to the longitudinal direction of the other frame component member, and the corner joint is formed of the one frame component member. A joint body having a first contact surface abutting on the end face, and protruding from the joint body toward one frame member, and fitted into a hollow part of the one frame member. A first fitted portion, and a second fitted portion protruding from the joint body toward the other frame member and fitted into a hollow portion of the other frame member. And the end face of the other frame member is in contact with a side surface of the one frame member.

  In the present invention, the end surface of one frame member is a surface extending along a direction perpendicular to the longitudinal direction of one frame member, and the end surface of the other frame member is formed of the other frame member. The surface extends along a direction perpendicular to the longitudinal direction of the member. Thus, when manufacturing the frame member by cutting the longitudinal member, the frame member may be cut in a direction orthogonal to the longitudinal direction, and scraps are not easily generated. Further, an end surface of one frame member is configured to be in contact with a corner joint, and an end surface of the other frame member is configured to be in contact with a side surface of one frame member. As a result, the end surface of one frame member and the end surface of the other frame member can be positioned. Thereby, it is possible to suppress a situation where a step or a gap occurs at the boundary between the two frame members. Moreover, the situation where the end face of the frame member is exposed can be suppressed, and the design can be further enhanced.

  Further, the one frame member constitutes an inner peripheral portion of the frame, and a resin frame material made of a synthetic resin for holding a peripheral end of the sheet glass, and an outer peripheral portion of the frame. A metal frame material made of metal and attached to the resin frame material, wherein the first contact surface of the corner joint is in contact with an end surface of the metal frame material. The main body may have a shape that protrudes toward the resin frame material, and may be provided with a protrusion that contacts an end surface of the resin frame material.

  With such a configuration, rigidity can be ensured by forming the outer peripheral portion of the frame body with a metal frame material, and higher heat insulation can be achieved by forming the inner peripheral portion of the frame body with a resin frame material. can do. The corner joint includes a first contact surface that contacts an end surface of the metal frame material and a protrusion that contacts an end surface of the resin frame material. By bringing the corner joint into contact with both the metal frame material and the resin frame material, it is possible to suppress a situation in which the metal frame material and the resin frame material are displaced from each other.

  ADVANTAGE OF THE INVENTION According to this invention, the door for showcases provided with the frame which can suppress the situation which produces | generates a scrap can be provided.

The front view which shows the showcase provided with the door for showcases concerning one Embodiment of this invention. Showcase longitudinal section Exploded perspective view showing a door for a showcase Enlarged view showing lower right corner of showcase door Sectional view showing the vertical frame (corresponding to the view cut along the line VV in FIG. 4) Sectional view showing the horizontal frame (corresponding to the view cut along the line VI-VI in FIG. 4) Exploded perspective view of the lower right corner of the frame viewed from the outer peripheral side Exploded perspective view of the lower right corner of the frame viewed from the inner peripheral side Perspective view showing a corner joint View of the corner joint as viewed from the second fitted portion side

  One embodiment of the present invention will be described with reference to FIGS. In the present embodiment, a door forming a vertical showcase 10 is exemplified as a door for a showcase. In the following description, the near side in FIG. 1 is the front side, the far side is the rear or back side, the left side is the left side, and the right side is the right side. In each of the drawings, the front-back direction is shown as a Y-axis direction, the left-right direction is shown as an X-axis direction, and the up-down direction is shown as a Z-axis direction. As shown in FIGS. 1 and 2, the showcase 10 is used, for example, for refrigeration, and is disposed below the storage main body 11 and a storage main body 11 (housing) composed of a vertically long heat insulating box. And a machine room 12. As shown in FIG. 2, the storage main body 11 has a rectangular opening 11A that opens forward, and the opening 11A communicates with a storage room 11B provided inside the storage main body 11. .

  Inside the storage room 11B, a plurality of shelves 13 for refrigerated display of foods and beverages are arranged so as to be vertically separated from each other. A pair of showcase doors 20A and 20B are attached to the storage body 11 so as to close the opening 11A. In the present embodiment, a pair of showcase doors 20A and 20B are respectively attached to the storage main body 11 via hinges (not shown), and are mounted so as to swing open and close in a double-door type. Thus, the storage room 11B can be opened and closed by rotating the pair of showcase doors 20A and 20B.

  The machine room 12 houses a refrigerating device (not shown) including a compressor, a condenser, a condenser fan, and the like. Further, an intake port 14 </ b> A for taking in outside air into the machine room 12 is provided on the front panel 14 that configures the machine room 12. A rear panel (not shown) constituting the machine room 12 is provided with an exhaust port for discharging exhaust heat after cooling the refrigeration apparatus.

  As shown in FIG. 2, an air duct 15 also serving as a drain pan is provided on the lower surface of the ceiling wall 11D of the storage main body 11. Thus, a space surrounded by the air duct 15 and the ceiling wall 11D is configured as a cooler room 11E. A cooler 16 is housed in the cooler room 11E. In addition, a suction port 11F is provided on the front side of the cooler room 11E, and a blowout port 11G is provided on the rear side. Thereby, the cooler room 11E and the storage room 11B communicate with each other via the inlet 11F and the outlet 11G. Further, a cool air circulation fan 17 is provided at the suction port 11F. The cooler 16 is circulated and connected to a refrigerating device in the machine room 12 by a refrigerant pipe, and forms a well-known refrigerating circuit.

  The cooling operation of the showcase 10 is performed by driving the refrigeration apparatus and the cool air circulation fan 17. When the cool air circulation fan 17 is driven and the air in the storage room 11B is sucked through the suction port 11F and guided into the cooler room 11E, heat is exchanged while the air flows through the cooler 16, and the cool air is removed. Generated. The inside of the storage room 11B is cooled by the generated cold air being blown out from the air outlet 11G and the like into the storage room 11B.

  Further, the condenser fan of the machine room 12 is driven at the same time when the cooler 16 generates the cool air. When the outside air is sucked in from the intake port 14A provided in the front panel 14 by the driving of the condenser fan and guided into the machine room 12, the outside air flows between the condenser and the compressor to cool them. I do. In addition, as a result of cooling the condenser and the compressor, heated air is exhausted from an exhaust port provided on a rear panel (not shown), and heat is exhausted.

  Next, the configuration of the showcase door will be described. Although the pair of showcase doors 20A and 20B have a symmetrical shape as shown in FIG. 1, they have the same configuration except for the above. Therefore, in the following description, the configuration of the showcase door 20A arranged on the right side of FIG. 1 will be described. As shown in FIG. 3, the showcase door 20 </ b> A is attached to the rectangular plate-shaped glass plate 21, a frame 30 that sandwiches the periphery of the plate-shaped glass 21 over the entire circumference, and the frame 30. A handle 22 and a door gasket 23 attached to the back side of the frame 30 (the storage body 11 side) are provided. Thereby, the inside of the storage room 11B can be visually recognized from the front through the plate glass 21.

  The frame body 30 includes a pair of vertical frames 31A and 31A that sandwich the left and right side edges of the sheet glass 21, respectively, and a pair of horizontal frames 31B and 31B that sandwich the upper and lower ends of the sheet glass 21, respectively. , Is provided. Each of the vertical frame 31A and the horizontal frame 31B has a longitudinal shape, and the adjacent vertical frame 31A and the horizontal frame 31B are connected at right angles by an L-shaped corner joint 70. Thus, the pair of vertical frames 31A, 31A and the pair of horizontal frames 31B, 31B are connected by the four corner joints 70 in a rectangular frame shape. In the following description, as shown in FIG. 3, each of the four corner joints 70 is distinguished by attaching reference numerals 70A to 70D.

  A hole 82 is formed in each of the corner joints 70A and 70B attached to the right vertical frame 31A in FIG. A hinge (not shown) provided in the storage main body 11 is attached to the hole 82. Thereby, the configuration is such that the showcase door 20A is rotatably attached to the storage main body 11. The hinge collar 24 is inserted into the hole 82 of the corner joint 70B, and the hinge is attached via the hinge collar 24. The detailed configuration of the corner joint 70 will be described later. The door gasket 23 has a rectangular frame shape that follows the shape of the frame 30, and when the door 20 </ b> A for the showcase is closed, the door gasket 23 is in close contact with the opening end of the opening 11 </ b> A in the storage main body 11. It is configured to close the gap between the storage main bodies 11.

  The vertical frame 31A and the horizontal frame 31B of the present embodiment are configured by combining two frame materials (resin frame material and metal frame material) having different materials. This configuration will be described using the vertical frame 31A as an example. FIG. 5 is a cross-sectional view showing a vertical frame 31A arranged on the right side of a pair of vertical frames 31A constituting the showcase door 20A. Note that the lower side in FIG. 5 is the front side (outside the warehouse), and the upper side is the rear side (the inside of the warehouse). The right side in FIG. 5 is the outer peripheral side of the frame 30, and the left side is the inner peripheral side (the plate glass 21 side). The vertical frame 31A and the horizontal frame 31B have basically the same configuration except that the lengths are different. For this reason, the same members as those of the vertical frame 31A are denoted by the same reference numerals for the constituent members of the horizontal frame 31B shown in FIG.

  As shown in FIG. 5, the vertical frame 31 </ b> A forms an inner peripheral portion of the frame 30 (a side relatively closer to the plate glass 21) and holds a peripheral end of the plate glass 21. The frame 40 includes a frame member 30 and a metal frame member 50 that forms an outer peripheral portion of the frame body 30 (a side farther from the sheet glass 21) and is attached to the resin frame member 40. The metal frame member 50 mainly forms the front (outside of the warehouse) surface of the vertical frame 31A, and the resin frame member 40 mainly forms the rear (inside of the warehouse) surface of the vertical frame 31A. It shall be. Each of the resin frame member 40 and the metal frame member 50 has a long shape that is long in the paper surface penetrating direction of FIG. 5 (the longitudinal direction of the vertical frame 31A), and has a cross-sectional shape of FIG.

  The resin frame member 40 is made of, for example, a synthetic resin such as polypropylene, but may be made of another synthetic resin. Further, the metal frame member 50 is made of metal such as aluminum, for example, but may be made of other metal materials. In addition, each of the metal frame material 50 and the resin frame material 40 can be manufactured by, for example, cutting a base material having a cross-sectional shape of FIG. 5 formed by extrusion molding into a predetermined length.

  The resin frame member 40 is provided on the opposing wall portion 41, which opposes the end surface 21 </ b> A of the sheet glass 21, and a pair of sandwiching wall portions 42, which are provided on the opposite wall portion 41 and sandwich the peripheral end portion of the sheet glass 21. 43, and a first hollow portion forming wall portion 45 that forms the first hollow portion 45A together with the holding wall portion 43 (one holding wall portion). Here, the hollow portion refers to a space formed inside a closed wall portion (annular wall portion) in a sectional view as shown in FIG. The sandwiching wall portion 42 has an extending portion 42D extending from the front end of the opposing wall portion 41 toward the sheet glass 21 side, and a protruding portion 42A projecting rearward from the tip of the extending portion 42D. . The sandwiching wall portion 43 has an extending portion 43D extending from the rear end of the facing wall portion 41 toward the sheet glass 21 and a projecting portion 43A projecting forward from the tip of the extending portion 43D. I have. The opposing wall portion 41 and the pair of sandwiching wall portions 42 and 43 constitute a fitting recess into which the peripheral end portion of the sheet glass 21 is fitted.

  The projection 42A of the sandwiching wall 42 is in contact with the sheet glass 21 from the front side. The projection 43A of the sandwiching wall 43 is in contact with the sheet glass 21 from the rear side. In a natural state before the plate glass 21 is attached, the facing distance between the pair of protrusions 42A and 43A is set to be slightly smaller than the plate thickness of the plate glass 21. When the peripheral end of the sheet glass 21 is inserted between the pair of holding walls 42 and 43, the holding wall 42 is mainly elastically bent and deformed by being pressed by the sheet glass 21. By increasing the facing distance between the projections 42A and 43A, the peripheral end of the sheet glass 21 can be inserted.

  The peripheral end of the plate-like glass 21 inserted between the pair of holding wall portions 42 and 43 has a pair of projections 42A due to the elastic return force of the resin frame member 40 (mainly the holding wall portion 42). , 43A. In other words, the pair of protrusions 42 </ b> A and 43 </ b> A are configured to abut against the plate glass 21 without any gap. As described above, the pair of sandwiching wall portions 42 and 43 are configured to be able to increase the facing distance therebetween by elastically deforming the resin frame member 40. When the peripheral end portion of the plate glass 21 is inserted between the pair of sandwiching wall portions 42 and 43, the facing wall portion 41 is elastically curved, so that the opposing interval between the pair of sandwiching wall portions 42 and 43. May be increased.

  The first hollow component wall 45 has a U-shape in cross section opened to the holding wall 43 side, and the opening is closed by the holding wall 42. Thereby, the first hollow portion 45 </ b> A having a substantially rectangular shape is formed in the first hollow portion constituting wall portion 45 and the sandwiching wall portion 43.

  The metal frame member 50 has a second hollow portion constituting wall portion 51 having a rectangular shape in cross section, which constitutes the second hollow portion 51A, and a surface of the sandwiching wall portion 42 (the other sandwiching wall portion) on the opposite side to the plate glass 21. A contact wall portion 52 abutting on the inner wall 42 </ b> B and an extension wall extending from the corner portion of the second hollow portion constituting wall portion 51 to the inside of the warehouse (upper side in FIG. 5) from the corner portion arranged on the outer peripheral side and inside the warehouse And a unit 53. A locking piece 53A for locking the cord heater 25 is formed on the inner surface of the extension wall 53. By locking the cord heater 25 to the metal frame member 50 having relatively high thermal conductivity, it is possible to effectively suppress a situation in which dew condensation occurs on the outer surface of the frame 30.

  Next, a locking structure between the resin frame member 40 and the metal frame member 50 will be described. In the present embodiment, a pair of locking portions 56 and 57 of the metal frame member 50 are locked to a pair of locked portions 46 and 47 of the resin frame member 40. The locked portion 46 (second locked portion) is provided so as to protrude from the corner formed by the opposed wall portion 41 and the sandwiching wall portion 42 toward the outer peripheral side, and has an L shape in cross section. . The locked portion 47 (first locked portion) is provided so as to protrude from a corner formed by the sandwiching wall portion 43 and the first hollow portion forming wall portion 45 to the outer peripheral side, and has an L-shaped cross section. Has made.

  The locking portion 56 (second locking portion) that locks to the locked portion 46 is provided so as to protrude from the inner peripheral surface of the second hollow portion constituting wall portion 51 to the inner peripheral side, and is viewed in cross section. It is L-shaped. The locking portion 57 (first locking portion) that locks to the locked portion 47 is an extended wall that extends rearward from the inner peripheral side (left side in FIG. 5) corner of the second hollow portion constituting wall portion 51. It is provided so as to protrude inward from the tip of the portion 58 and has an L-shape in cross section. As described above, in the present embodiment, the locking portion between the resin frame member 40 and the metal frame member 50 is arranged near the corner of the sheet glass 21. Therefore, the plate-shaped glass 21 which is a relatively heavy member can be surrounded by a relatively rigid locking portion (a locking portion between the resin frame member 40 and the metal frame member 50), and the plate-shaped glass 21 can be surrounded. It is possible to pinch more reliably. The locking portion 56 and the locked portion 46 are arranged on the front side (outside the warehouse) with respect to the locking portion 57 and the locked portion 47.

  In the present embodiment, the opposing wall portion 41 and the second hollow portion constituting wall portion 51 form a gap in the inside and outside directions (directions along the inside and outside of the showcase door 20A, the X-axis direction in FIG. 5). They are spaced apart and face each other. Thereby, the third hollow portion 59A is configured by the opposing wall portion 41, the locking portions 56 and 57, and the second hollow portion forming wall portion 51. In addition, a protruding portion 41A that covers the locking portion 57 from the front side is formed on the facing wall portion 41. Since the locked portion 47 is made of a synthetic resin, the locking portion 57 can be inserted between the projecting portion 41A and the locked portion 47 by elastically deforming the locked portion.

  Further, in the frame 30, the first hollow portion constituting wall portion 45 of the resin frame member 40 and the extending wall portion 53 of the metal frame member 50 are opposed to each other at a distance in the left-right direction. A gasket locked portion 45B for attaching the door gasket 23 is formed at a corner of the first hollow portion forming wall 45, and a gasket locked portion is formed at a rear end of the extension wall 53. A stop 53B is formed.

  The door gasket 23 is formed by, for example, extruding a soft resin (such as urethane foam). The door gasket 23 includes a gasket main body 23A interposed between the storage main body 11 and the frame 30, and an insertion portion 23B protruding forward from the gasket main body 23A. The insertion portion 23B has an arrow shape in cross section, and is inserted between the gasket locked portions 45B and 53B from behind. One end of the insertion portion 23B in the inward and outward directions is locked from the front with respect to the gasket locked portion 45B, and the other end is locked with the gasket locked portion 53B from the front. I have. Thereby, the door gasket 23 is prevented from coming off with respect to the vertical frame 31A. Further, in the present embodiment, the fourth hollow portion is formed by the door gasket 23, the extending wall portion 53, the outer peripheral side wall portion 45 </ b> D of the first hollow portion forming wall portion 45, and the rear wall portion 51 </ b> B of the second hollow portion forming wall portion 51. 59B. That is, the vertical frame 31A has four hollow portions 45A, 51A, 59A, and 59B each having a substantially square shape.

  Next, the configuration of the corner joint 70 will be described. As shown in FIG. 3, the vertical frames 31A, 31A and the horizontal frames 31B, 31B (four frame members) constituting the frame 30 extend along each of the four sides of the sheet glass 21. It has a long shape. The corner joint 70 connects the adjacent vertical frame 31 </ b> A and horizontal frame 31 </ b> B at right angles and constitutes a corner of the frame 30. In the present embodiment, four corner joints 70 are provided corresponding to each of the four corners of the frame 30. Of the four corner joints 70, two corner joints 70 (for example, corner joints 70A and 70D) arranged along the left-right direction are symmetrical to each other, and are arranged along the up-down direction. The two corner joints 70 (for example, the corner joints 70A and 70B) are vertically symmetric. Therefore, in the following description, the corner joint 70A constituting the lower right corner of the frame 30 will be described as an example.

  As shown in FIGS. 4 and 7, the corner joint 70 </ b> A has a plate-shaped joint body 71 and a vertical frame 31 </ b> A (one of two adjacent frame members of the two frame members). A first fitted portion 75 protruding toward the component member) and a second fitted portion 78 protruding from the joint body 71 toward the horizontal frame 31B (the other frame member). Have.

  The joint main body 71 mainly has a function of covering the end face of the vertical frame 31A (more specifically, the end face 32A of the metal frame material 50). The four hollow portions 45A, 51A, 59A, 59B of the vertical frame 31A are opened on both sides in the longitudinal direction of the vertical frame 31A. That is, the joint body 71 has a function of covering the openings of the four hollow portions 45A, 51A, 59A, and 59B. As shown in FIG. 8, in the vertical frame 31A, the length of the resin frame material 40 is set to a value smaller than the length of the metal frame material 50, and the end face 33A of the resin frame material 40 is It is arranged on the center side in the longitudinal direction of the vertical frame 31A with respect to the end surface 32A of the 50. The end surface 33A of the resin frame member 40 and the end surface 32A of the metal frame member 50 are surfaces extending along a direction orthogonal to the longitudinal direction of the vertical frame 31A.

  In the horizontal frame 31B, as shown in FIG. 7, the length of the resin frame material 40 and the length of the metal frame material 50 are set to the same value, and the end face 33B of the resin frame material 40 and the metal frame material 50 are set. Is flush with the end surface 32B. The end surface 33B of the resin frame member 40 and the end surface 32B of the metal frame member 50 are surfaces extending along a direction orthogonal to the longitudinal direction of the horizontal frame 31B.

  As shown in FIG. 4, the plate surface on the vertical frame 31A side of the joint body 71 is an end surface 32A of the metal frame member 50 in the vertical frame 31A (an end surface of one frame member on the other frame member side). The first contact surface 71A is in contact with the first contact surface 71A. The side surface of the joint body 71 on the side of the horizontal frame 31B is a second contact surface 71B that contacts the end surface 32B of the metal frame member 50 in the horizontal frame 31B. The end faces of the horizontal frame 31B (the end face 33B of the resin frame material 40 and the end face 32B of the metal frame material 50) are connected to the side faces of the vertical frame 31A (the side face 34A of the resin frame material 40 and the side face 35A of the metal frame material 50, FIG. 8). Reference). That is, the end surface of the vertical frame 31A is covered by the first contact surface 71A of the joint body 71, and the end surface of the horizontal frame 31B (the end surface of the other frame member on the one frame member side). , The side surface of the vertical frame 31A and the second contact surface 71B of the joint body 71.

  As shown in FIG. 9, a columnar projection 72 is provided on a first contact surface 71A of the joint body 71. As shown by the broken line in FIG. 4, the protrusion 72 has a shape protruding toward the resin frame member 40 of the vertical frame 31 </ b> A, and has a configuration in which the protruding end is in contact with the end surface 33 </ b> A of the resin frame member 40. .

  As shown in FIG. 9, a groove 71D and a groove 71E are formed in the first contact surface 71A of the joint body 71. As shown in FIG. 10, a part of the code heater 25 is fitted into the groove 71D. One end in the width direction of the insertion portion 23B of the door gasket 23 (indicated by a two-dot chain line in FIG. 10) is fitted into the groove 71E.

  In the frame 30, the four fourth hollow portions 59B of the vertical frames 31A, 31A and the horizontal frames 31B, 31B communicate with each other to form an annular space extending over the entire circumference of the frame 30. The cord heater 25 and the lead wires (not shown) are arranged in the annular space so as to be arranged all around the frame 30. The path of the code heater 25 is shown by a broken line in FIG. Further, as described above, in the vertical frame 31A, the end surface 33A of the resin frame member 40 is disposed on the center side in the longitudinal direction of the vertical frame 31A with respect to the end surface 32A of the metal frame member 50. Accordingly, the resin frame member 40 is not disposed between the fourth hollow portion 59B of the vertical frame 31A and the fourth hollow portion 59B of the horizontal frame 31B, and the fourth hollow portion 59B of the vertical frame 31A and the horizontal frame are not disposed. It is configured to communicate with the fourth hollow portion 59B of 31B.

  Further, the cord heater 25 is housed in the fourth hollow portion 59B. Thus, at a stage before the door gasket 23 is attached, the cord heater 25 can be easily inserted into the fourth hollow portion 59B through the space between the gasket locked portions 45B and 53B.

  As shown in FIG. 5, the first fitted portion 75 of the corner joint 70A is inserted into the second hollow portion 51A of the vertical frame 31A (the hollow portion of one frame member). In the following description, the second hollow portion 51A of the vertical frame 31A may be referred to as a second hollow portion 51A1, and the second hollow portion 51A of the horizontal frame 31B may be referred to as a second hollow portion 51A2 for distinction. As shown in FIG. 5, the first fitted portion 75 has a substantially L-shape in cross section that fits into the second hollow portion 51A1 of the vertical frame 31A. Specifically, the first fitted portion 75 is configured to contact each of the four inner surfaces of the second hollow portion constituting wall portion 51. Thus, the first fitted portion 75 (and thus the corner joint 70A) is positioned with respect to the vertical frame 31A in the horizontal direction (XY directions in FIG. 5).

  Further, mounting holes 75D, 51D are formed in the first fitted portion 75 and the second hollow portion constituting wall portion 51 of the vertical frame 31A, respectively. By inserting the screw 81D into both the mounting hole 75D and the mounting hole 51D, the first fitted portion 75 is fixed to the second hollow portion constituting wall portion 51 constituting the second hollow portion 51A1. . As a result, the first fitted portion 75 is prevented from coming off with respect to the second hollow portion 51A1. As shown in FIG. 9, an inclined surface 75 </ b> A that is inclined with respect to the direction in which the first fitted portion 75 protrudes is formed at the projecting end of the first fitted portion 75. As a result, the first fitted portion 75 has a tapered shape as a whole, and can be easily inserted into the second hollow portion 51A1.

  As shown in FIG. 6, the second fitted portion 78 of the corner joint 70A is inserted into the second hollow portion 51A2 (the hollow portion of the other frame member) of the horizontal frame 31B. As shown in FIG. 9, the second fitted portion 78 includes a longitudinally extending portion 78A extending in a direction (X-axis direction in FIG. 9) orthogonal to the extending direction of the first fitted portion 75, And two projections 78B provided on the extension 78A. The extending portion 78A and the protruding portion 78B are configured to fit into the second hollow portion 51A2 of the horizontal frame 31B. Specifically, the extending portion 78A is configured to abut on a part (the lower portion in FIG. 6) of the inner surface of the second hollow portion constituting wall portion 51 constituting the second hollow portion 51A2, and the protrusion portion 78B Is in contact with the other part (the upper part in FIG. 6) of the inner surface of the second hollow part constituting wall part 51. That is, the second fitted portion 78 is configured to contact each of the four inner surfaces of the second hollow portion constituting wall portion 51. Thus, the second fitted portion 78 (and thus the corner joint 70A) is positioned with respect to the horizontal frame 31B in the vertical direction and the front-back direction. Further, mounting holes 78E and 51E are formed in the second hollow portion constituting wall portion 51 of the extending portion 78A and the horizontal frame 31B, respectively. By inserting the screw 81E into both the mounting hole 78E and the mounting hole 51E, the second fitted portion 78 is prevented from being removed from the second hollow portion 51A2.

  Next, effects of the present embodiment will be described. According to the present embodiment, the end surface of the vertical frame 31A is a surface extending along a direction orthogonal to the longitudinal direction of the vertical frame 31A, and the end surface of the horizontal frame 31B is oriented in a direction orthogonal to the longitudinal direction of the horizontal frame 31B. It is a surface extending along. Thereby, for example, when the longitudinal member (base material) formed by extrusion molding is cut to manufacture the vertical frame 31A and the horizontal frame 31B, scraps are less likely to be generated, which is preferable. If the end face of the vertical frame is an inclined surface that forms an angle of 45 degrees with respect to the longitudinal direction of the vertical frame, the vertical frame has a trapezoidal shape. When such a trapezoidal vertical frame is formed by cutting a longitudinal base material, it is considered that a substantially triangular-shaped scrap is generated. On the other hand, in the present embodiment, the end face of the vertical frame 31A (or the horizontal frame 31B) can be formed by cutting the longitudinal base material in a direction orthogonal to the longitudinal direction. The situation that occurs can be suppressed.

  Further, the end surface of the vertical frame 31A (the end surface 32A of the metal frame material) is configured such that the first contact surface 71A of the corner joint 70A is in contact with the end surface of the horizontal frame 31B. 34A and the side surface 35A). As a result, it is possible to position the vertical frame 31A and the horizontal frame 31B, respectively, and it is possible to suppress a situation where a step or a gap is generated at the boundary between the vertical frame 31A and the horizontal frame 31B. Further, the situation where the end faces of the vertical frame 31A and the horizontal frame 31B are exposed can be suppressed, and the design can be further enhanced.

  The first fitted portion 75 and the second fitted portion 78 of the corner joint 70A are fitted into the second hollow portion 51A of the metal frame 50, respectively. The second hollow portion forming wall 51 constituting the second hollow portion 51A is formed only of the metal frame member 50, and is formed of another hollow portion of the frame 30 (for example, the first hollow portion 45A of the resin frame member 40). The rigidity is higher than that of the wall constituting (1). Therefore, the corner joint 70A can be positioned more reliably.

  Further, according to the present embodiment, rigidity can be ensured by forming the outer peripheral portion of the frame body 30 with the metal frame material 50, and by forming the inner peripheral portion of the frame body 30 with the resin frame material 40. Heat insulation can be further improved. The corner joint 70 </ b> A includes a first contact surface 71 </ b> A that contacts the end surface of the metal frame member 50 and a protrusion 72 that contacts the end surface 33 </ b> A of the resin frame member 40. By making the corner joint 70A abut both the metal frame member 50 and the resin frame member 40, it is possible to prevent the metal frame member 50 and the resin frame member 40 constituting the vertical frame 31A from being displaced from each other in the longitudinal direction. be able to.

  In the present embodiment, as described above, the annular space in which the code heater 25 (or the lead wire) is arranged is formed inside the frame 30. If the resin frame member 40 is displaced in the longitudinal direction with respect to the metal frame member 50, there is a concern that this annular space will be blocked. In the present embodiment, such a situation can be suppressed by positioning the metal frame member 50 and the resin frame member 40 in the longitudinal direction.

  Further, according to the present embodiment, the hollow portions (the first hollow portion 45A and the second hollow portion 51A) are provided in each of the metal frame member 50 and the resin frame member 40. By providing the hollow portion, the heat insulation can be further improved. In addition, the resin frame member 40 and the metal frame member 50 each have a hollow portion constituting wall portion (a first hollow portion constituting wall portion 45 and a second hollow portion constituting wall portion 51) which constitutes a hollow portion, so that rigidity is further improved. Can be higher.

  Further, since the pair of holding walls 42 and 43 for holding the plate glass 21 are made of a synthetic resin, they can be easily elastically deformed, so that the plate glass 21 can be easily assembled and the pair of holding walls 42 and 43 can be easily assembled. The sheet glass can be more reliably held by the elastic force of the holding walls 42 and 43. Here, the sandwiching wall 43 constitutes a first hollow portion 45 </ b> A together with the first hollow portion constituting wall 45, and the first hollow portion constituting wall 45 has a locking portion 57 of the metal frame material 50. Is provided with a locked portion 47 for locking the lock. Further, the contact wall portion 52 of the metal frame member 50 contacts the holding wall portion 42. For this reason, the pair of holding wall portions 42 and 43 are less likely to be deformed than in the configuration without the metal frame member 50, and the sheet glass 21 can be held more reliably.

  Further, by providing the third hollow portion 59A, the heat insulation can be further enhanced. The members forming the third hollow portion include a locking portion 57 and a locking portion 56. Such a locking portion has higher rigidity by locking to a corresponding locked portion. As a result, the rigidity of the wall constituting the third hollow portion 59A can be further increased.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the above-described embodiment, the storage case is illustrated as a refrigerated showcase, but is not limited to this. The storage can be applied to, for example, a showcase for freezing or warming.
(2) The shape and size of the showcase door are not limited to those illustrated in the above embodiment, and can be appropriately changed. For example, the door for a showcase may have a horizontally long shape or a square shape. In other words, the shape of the sheet glass or the frame constituting the door for the showcase may be a horizontally long shape or a square shape. The number of showcase doors included in the showcase is not limited to the number illustrated in the above-described embodiment, and can be changed as appropriate.
(3) In the above-described embodiment, the configuration in which the corner joints 70 are arranged at each of the four corners of the frame body 30 is exemplified, but the present invention is not limited to this. It is sufficient that the corner joint 70 is provided at at least one corner in the frame 30.
(4) In the above-described embodiment, an example in which the vertical frame 31A (or the horizontal frame 31B) is composed of the resin frame material 40 and the metal frame material 50 has been described, but the invention is not limited thereto. The vertical frame 31A (or the horizontal frame 31B) may be made of one type of material.

11: Storage main body (housing), 11B: Storage room, 20A: Showcase door, 21: Plate glass, 30: Frame, 31A: Vertical frame (one frame of two adjacent frame components) Body component), 31B horizontal frame (the other frame component of two adjacent frame components), 32A end surface of metal frame material (end surface of one frame component), 32B metal frame 33A: End surface of resin frame material, 33B: End surface of resin frame material (end surface of the other frame member), 34A: Side surface of resin frame material (one end surface) 35A: Side surface of the metal frame member (side surface of one frame member), 40: resin frame member, 50: metal frame member, 51A1: second hollow portion of the vertical frame (one side) The hollow portion of the frame member, 51A2... The second hollow portion of the horizontal frame (the other frame member has Hollow portion), 70A ... Corner joint, 71 ... joint main body, 71A ... first abutment surface 72 ... protruding portion, 75 ... first fitted portion, 78 ... second fitted portion

Claims (1)

A showcase door attached to a housing having a storage room to open and close the storage room,
Plate-shaped glass that forms a square shape,
A rectangular frame-shaped frame disposed on the periphery of the sheet glass,
The frame body is
Along each of the four sides of the plate-shaped glass, four frame component members having a longitudinal shape extending respectively,
A corner joint that connects two adjacent frame members of the four frame members in an orthogonal manner, and forms a corner of the frame;
An end surface of one of the two frame component members on the other frame component member side in one frame component member is a surface extending along a direction orthogonal to a longitudinal direction of the one frame component member,
An end face of the other frame component member on the one frame component member side of the two frame component members is a surface extending along a direction orthogonal to a longitudinal direction of the other frame component member. ,
The corner joint is
A joint body having a first contact surface that contacts the end surface of the one frame member;
A first fitted portion projected from the joint body toward the one frame member, and fitted into a hollow portion of the one frame member;
A second fitted portion projected from the joint body toward the other frame member, and fitted into a hollow portion of the other frame member.
The end surface of the other frame member is configured to abut a side surface of the one frame member,
The one frame member is
A resin frame material made of a synthetic resin that constitutes an inner peripheral portion of the frame body and holds a peripheral end portion of the sheet glass,
Comprising a metal frame material that constitutes the outer peripheral portion of the frame body and is attached to the resin frame material,
The first contact surface of the corner joint is configured to contact an end surface of the metal frame material,
A showcase door, wherein the joint body has a shape protruding toward the resin frame material, and is provided with a protrusion that abuts on an end surface of the resin frame material.

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