JP7091236B2 - Cool storage - Google Patents

Description

The present invention relates to a cold storage.

Conventionally, as a cooling storage, it is known that an inner box (storage box) having a storage chamber inside an outer box (main body) which is a heat insulating box is housed (Patent Document 1 below). According to Patent Document 1, when a cooling fan (internal fan) is driven, cold air is circulated and supplied to a cold air passage provided between the outer box and the inner box, and the wall portion of the inner box is cooled, which is indirect. The configuration in which the storage chamber is cooled is described.

Japanese Unexamined Patent Publication No. 2008-32258

In the above configuration, the wall portion of the inner box is interposed between the cooling fan and the storage chamber. Therefore, it is difficult to inspect or replace the cooling fan from the storage chamber side. Since the storage chamber is a space opened in the front, if the cooling fan can be inspected or replaced from the storage chamber side, the work can be easily performed. Therefore, there is a demand for a configuration in which the cooling fan can be inspected or replaced from the storage chamber side.

The present invention has been completed based on the above circumstances, and an object of the present invention is to provide a cooling storage in which a cooling fan can be inspected or replaced from the storage chamber side.

In order to solve the above problems, the cooling storage of the present invention has a box-shaped outer box opened in front and a box-shaped outer box having a storage chamber opened in front, and is between the inner surface of the outer box. An inner box housed inside the outer box in a state of forming a space, a cooler arranged outside the inner box, and air arranged outside the inner box and cooled by the cooler. The inner box is provided with a cooling fan for supplying the space to the space, and the inner box includes an inner box main body having an opening for exposing the cooling fan to the storage chamber side, and a lid for closing the opening. The lid portion and the inner box main body portion are fastened to each other by a fastening member, and the fastening of the lid portion and the inner box main body portion by the fastening member can be released from the storage chamber side. It is characterized by its composition.

According to the above configuration, the opening can be opened by moving the lid portion after releasing the fastening between the lid portion and the inner box main body portion by the fastening member from the storage chamber side. As a result, the cooling fan can be inspected or replaced from the storage chamber side through the opening.

Further, the cooling fan is arranged above the inner box, the inner box includes a ceiling wall portion constituting the ceiling of the storage chamber, and the lid portion is at least a part of the ceiling wall portion. Can be. By moving the lid to open the opening, the cooling fan can be inspected or replaced from below through the opening.

Further, the ceiling wall portion includes the ceiling wall main body portion which has the opening and is a part of the inner box main body portion, and the lid portion, and the lid portion and the ceiling wall main body portion are It can be assumed that they are fastened to each other by the fastening member. Since the lid portion is a part of the ceiling wall portion, the lid portion can be made smaller and the lid portion can be easily moved as compared with the configuration in which the entire ceiling wall portion is the lid portion.

Further, the lid portion can be assumed to close the opening portion from above and to be supported from below by the upper surface of the ceiling wall main body portion. The fastening member can be attached / detached while the lid is placed on the upper surface of the ceiling wall main body, and the workability can be further improved.

Further, it is assumed that the ceiling wall main body portion has a curved shape that bulges downward, and the lid portion has a curved shape that follows the curved shape of the ceiling wall main body portion. be able to. When the ceiling wall main body is curved so as to bulge downward due to its own weight, etc., and if the lid portion has a flat shape extending in the horizontal direction, the ceiling wall main body portion and the lid portion There is a gap between them. If the lid portion is curved according to the curved shape of the ceiling wall main body portion as in the above configuration, it is possible to suppress a situation where a gap is generated between the lid portion and the ceiling wall main body portion.

Further, the upper surface of the ceiling wall main body may be provided with a holding portion for holding the lid portion so as to be slidable along the upper surface. By holding the lid so that it can be slidably displaced, the lid can be easily displaced between the state in which the opening is open and the state in which the opening is closed.

Further, the cooler is arranged above the inner box, is interposed between the cooler and the inner box, and includes a cooler room constituent wall portion that constitutes a cooler room in which the cooler is housed. The cooler chamber constituent wall portion includes a first wall portion that covers the cooler from below and a second wall portion to which the cooling fan is attached, and the first wall portion and the second wall portion. Is fastened to each other by the wall fastening member, and the fastening between the first wall portion and the second wall portion by the wall fastening member can be released from the storage chamber side. The second wall portion may be set to a size that allows it to pass through the opening. According to the above configuration, after the second wall portion is removed from the first wall portion, it can be moved to the outside of the cooling storage through the opening and the storage chamber. Therefore, it is possible to easily replace the cooling fan provided on the second wall portion.

Further, the cooler is arranged above the inner box, is interposed between the cooler and the inner box, and includes a cooler chamber constituent wall portion that constitutes a cooler chamber in which the cooler is housed. The cooling fan and the cooler chamber constituent wall portion are fastened to each other by a fan fastening member, and the cooling fan and the cooler chamber constituent wall portion are fastened by the fan fastening member to the storage chamber. It can be configured so that it can be released from the side. According to the above configuration, after the cooling fan is removed from the cooling chamber constituent wall portion, it can be moved to the outside of the cooling storage through the opening and the storage chamber. Therefore, the cooling fan can be easily replaced.

Further, the lid portion may be made of a transparent material. Since the cooling fan can be visually observed from the storage chamber side through the opening when the lid is closed, it is possible to check whether the cooling fan is operating normally without removing the lid. be able to.

According to the present invention, it is possible to provide a cooling storage in which the cooling fan can be inspected or replaced from the storage chamber side.

Front view showing the cooling storage which concerns on Embodiment 1 of this invention. Perspective view showing a cooling storage Perspective view showing a heat insulating box and a storage box Sectional view showing cooling storage Perspective view of the cooling storage from the machine room side A perspective view showing a cooling storage with the ceiling wall removed. Perspective view showing the storage room A cross-sectional view showing a fastening structure between an extended wall portion provided on a side wall portion and a ceiling wall portion. Cross-sectional view showing the fastening structure between the extended wall portion provided on the rear wall portion and the ceiling wall portion. Perspective view showing the air duct Perspective view showing the air duct with the shroud panel removed A perspective view showing a state in which the lid portion is removed in the cooling storage according to the second embodiment. A perspective view showing a storage box according to the second embodiment. A perspective view showing a storage box according to the third embodiment. Sectional drawing which shows the storage box which concerns on Embodiment 4. Sectional drawing which shows the state which the lid part was removed in the storage box which concerns on Embodiment 4. Sectional drawing which shows the comparative example with respect to Embodiment 4. A perspective view showing a storage box according to the fifth embodiment. A perspective view showing a cooling storage according to the sixth embodiment. Perspective view showing the fastening structure of the cooling fan according to the seventh embodiment. A perspective view showing a heat insulating box and a storage box according to the eighth embodiment. A perspective view showing a heat insulating box according to the eighth embodiment. Perspective view showing the bracket according to the eighth embodiment. Side view showing the bracket and the hook according to the eighth embodiment. A perspective view showing a holding portion and an extended wall portion 836 according to the eighth embodiment. A perspective view showing the vicinity of the extended wall portion 836 according to the eighth embodiment. Perspective view showing a modified example of the holding portion A perspective view showing a state in which the panel member 834L is assembled to the heat insulating box according to the eighth embodiment. A perspective view of the storage chamber of FIG. 28 as viewed from below. Perspective view showing screw 820 and through hole 837 Side view showing the bracket and the hook according to the ninth embodiment. Side view showing the bracket and the hook according to the tenth embodiment. A perspective view showing a ceiling wall portion according to the eleventh embodiment. FIG. 33 is an enlarged perspective view showing the vicinity of the holding portion.

<Embodiment 1>
Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 11. In this embodiment, as shown in FIG. 1, a 4-door type cooling storage 10 is illustrated. As shown in FIGS. 1 to 3, the cooling storage 10 is housed in a heat insulating box 11 (outer box), a machine room 20 arranged above the heat insulating box 11, and a storage room 30A. A storage box 30 (inner box) constituting the above is provided. As shown in FIG. 3, the heat insulating box 11 has a box shape that is opened forward. Specifically, as shown in FIG. 4, the heat insulating box 11 is housed in a box-shaped exterior member 11A made of a metal plate and inside the exterior member 11A at intervals, and has a box-shaped interior made of a metal plate. The member 11B is provided with a heat insulating material 11C filled between the exterior member 11A and the interior member 11B.

The storage box 30 has a box shape having a storage chamber 30A opened in front. The storage box 30 is composed of a combination of a plurality of thermally conductive metal plates such as stainless steel plates, and the storage box 30 is one size smaller than the internal space of the heat insulating box 11, and the heat insulating box 11 is used. It is housed inside the heat insulating box 11 in a state where a cold air passage S1 (space) is formed between the inner surface and the inner surface of the heat insulating box 11.

As shown in FIG. 3, the storage box 30 includes a bottom wall portion 31, a pair of left and right side wall portions 32, 32, a ceiling wall portion 33 constituting the ceiling of the storage chamber 30A, and a rear wall portion 34. As shown in FIGS. 1 and 4, the above-mentioned cold air passage S1 includes a first passage S11, a second passage S12, a third passage S13, and a pair of fourth passages S14 and S14. As shown in FIG. 4, the first passage S11 is a space formed between the lower surface 15A of the inner surface of the heat insulating box 11 facing downward and the outer surface of the ceiling wall portion 33. As shown in FIG. 4, the second passage S12 is a space formed between the front surface 15B facing forward and the outer surface of the rear wall portion 34 on the inner surface of the heat insulating box 11.

As shown in FIG. 4, the third passage S13 is a space formed between the upper surface 15C facing upward and the outer surface of the bottom wall portion 31 of the inner surface of the heat insulating box 11. As shown in FIG. 1, the fourth passage S14 is a space formed between the side surface 15D (see FIG. 3) facing sideways and the side wall portion 32 of the inner surface of the heat insulating box 11, and is a pair of side wall portions. It is provided corresponding to each of 32 and 32. The inner surface (lower surface 15A, front surface 15B, upper surface 15C, side surface 15D) of the heat insulating box 11 is composed of each panel member constituting the interior member 11B.

As shown in FIG. 1, a pair of left and right doors 13 and 13 arranged in two sets in the vertical direction are rotatably attached to the heat insulating box 11, and the storage chamber 30A is configured to be openable and closable by the door 13. It has become. In the following description, the door 13 side will be referred to as the front side, and the side opposite to the door 13 will be referred to as the rear side. Further, the left-right direction (left-right direction in FIG. 1) in the front view (state in which the cooling storage 10 is viewed from the front side) is the left-right direction of the cooling storage 10.

As shown in FIG. 2, the machine room 20 is provided with a cooling device 21. The cooling device 21 includes a condenser 22, a condenser fan 23, and a compressor 24. As shown in FIG. 5, the condenser 22, the condenser fan 23, and the compressor 24 are provided on the heat insulating base 26. Further, a control unit 25 (control box) for controlling the cooling device 21 is provided on the base 26. Further, as shown in FIG. 4, a cooler 27 is provided on the lower surface of the base 26. The condenser 22, the condenser fan 23, the compressor 24, the control unit 25, and the cooler 27 are unitized by being attached to the base 26. Further, the machine room 20 is provided with an air filter 28 (see FIG. 2) that covers the condenser 22 from the front.

The base 26 is attached to the heat insulating box 11 so as to close the window hole 16A formed in the ceiling wall portion 16 of the heat insulating box 11 from above. An air duct 50 that also serves as a drain pan is provided on the ceiling wall portion 16 of the heat insulating box 11, and a cooler chamber S2 is formed above the air duct 50. The cooler 27 is provided so as to protrude downward from the base 26, and is housed in the cooler chamber S2. The cooler 27 is circulated and connected to the cooling device 21 by a refrigerant pipe (not shown) to form a well-known cooling cycle.

A suction port 50A is formed in the front portion of the air duct 50, and an outlet 50B is formed in the rear portion. A cooling fan 60 is provided in the suction port 50A. The cooling fan 60 is assumed to suck the air in the cold air passage S1 into the cooler chamber S2 and supply the air cooled by the cooler 27 to the cold air passage S1. The cooler 27 and the cooling fan 60 are arranged outside the storage box 30, and more specifically, above the storage box 30 (ceiling wall portion 33). Further, in the present embodiment, as shown in FIG. 5, two cooling fans 60 are provided in the air duct 50, but the number of cooling fans 60 is not limited to this and can be changed as appropriate. As shown in FIG. 5, the cooling fan 60 includes a blade 60A and a motor 60B for rotating the blade 60A.

Then, when the cooling fan 60 is driven while operating the cooling device 21 (compressor 24 or condenser fan 23), the air in the first passage S11 of the cold air passage S1 is introduced from the suction port 50A into the cooler chamber S2 by the cooling fan 60. And cooled by heat exchange as the air passes through the cooler 27. The air (cold air) cooled by the cooler 27 was blown out from the outlet 50B to the second passage S12, then headed for the third passage S13, and then headed for the fourth passage S14 from the third passage S13 (FIG. 1). (See arrow line L1 in FIG. 1), and then from the fourth passage S14 to the first passage S11 (see arrow line L2 in FIG. 1). In this way, cold air is circulated and supplied into the cold air passage S1, and each wall portion (bottom wall portion 31, side wall portion 32, ceiling wall portion 33, rear wall) constituting the storage box 30 is supplied by this cold air. By cooling the part 34), the storage chamber 30A is indirectly cooled. Therefore, the inside of the storage chamber 30A is cooled to a predetermined temperature while maintaining high humidity. In addition, such a cooling storage 10 may be referred to as a constant temperature and high humidity storage. Further, in the storage chamber 30A, a shelf net 30B for arranging storages (food, etc.) over a plurality of stages is arranged.

Next, the configuration related to the ceiling wall portion 33 of the storage box 30 will be described. The storage box 30 has a storage box main body 35 (inner box main body) having an opening 35A that exposes the cooling fan 60 to the storage chamber 30A side (downward), and a ceiling wall 33 (cover) that closes the opening 35A. The storage box main body 35 includes a bottom wall portion 31, a pair of left and right side wall portions 32, 32, an extended wall portion 32A described later, a rear wall portion 34, and an extended wall portion 34A described later. The opening 35A is opened upward. More specifically, as shown in FIG. 7, the opening edge portion of the opening portion 35A is composed of an extension wall portion 32A and an extension wall portion 34A. That is, the storage box 30 in the state where the ceiling wall portion 33 is removed has a box shape that is opened forward and upward.

As shown in FIGS. 7 and 8, at the upper end of the side wall portion 32, an extended wall portion 32A (flange) extending orthogonally to the side wall portion 32 extends over the entire length of the upper end of the side wall portion 32. There is. The extended wall portion 32A is configured by bending the upper end portion of the metal panel constituting the side wall portion 32. The extended wall portion 32A and the ceiling wall portion 33 are fastened to each other by a plurality of screws 32B. As shown in FIG. 8, a screw hole 32D is formed through the extended wall portion 32A, and an insertion hole 33D is formed through a portion corresponding to the screw hole 32D at the side end portion of the ceiling wall portion 33. .. The ceiling wall portion 33 is in contact with the extended wall portion 32A from below, and the screw 32B is inserted into the insertion hole 33D from the storage chamber 30A side (lower side) and then screwed into the screw hole 32D. There is. As a result, the ceiling wall portion 33 and the extended wall portion 32A (a part of the storage box main body 35) are fastened to each other by screws 32B (fastening member), and the ceiling wall portion 33 and the storage box main body by the screws 32B are fastened to each other. The structure is such that the fastening with the unit 35 can be released from the storage chamber 30A side.

Further, as shown in FIGS. 7 and 9, at the upper end of the rear wall portion 34, an extended wall portion 34A (flange) extending orthogonally to the rear wall portion 34 extends over the entire length of the upper end of the rear wall portion 34. It extends over. The extended wall portion 34A is configured by bending the upper end portion of the metal panel constituting the rear wall portion 34 forward. Further, the extended wall portion 34A and the ceiling wall portion 33 are fastened to each other by a plurality of screws 32B. As shown in FIG. 9, a screw hole 34E is formed through the extended wall portion 34A, and an insertion hole 33E is formed through a portion corresponding to the screw hole 34E at the rear end portion of the ceiling wall portion 33. .. The ceiling wall portion 33 is in contact with the extended wall portion 34A from below, and the screw 32B is inserted into the insertion hole 33E from the storage chamber 30A side (lower side) and then screwed into the screw hole 34E. There is. As a result, the ceiling wall portion 33 and the extended wall portion 32A (a part of the storage box main body 35) are fastened to each other by the screws 32B, and the ceiling wall portion 33 and the storage box main body 35 are fastened by the screws 32B. The structure is such that the fastening can be released from the storage chamber 30A side.

From the above, by removing each screw 32B, the ceiling wall portion 33 of the storage box 30 can be removed with respect to the storage box main body portion 35 as shown in FIG. 6, and the ceiling wall portion through the storage chamber 30A. 33 can be taken out in front of the cooling storage 10. Then, in the state where the ceiling wall portion 33 is removed, the air duct 50 (and the two cooling fans 60) is visually observed from the storage chamber 30A side (and thus the front side of the cooling storage 10) through the opening 35A of the storage box main body portion 35. It is possible.

Next, the configuration of the air duct 50 will be described. As shown in FIGS. 10 and 11, the air duct 50 (cooler chamber constituent wall portion) includes a first wall portion 51 constituting a drain pan and a second wall portion 52 arranged in front of the first wall portion 51. , A pair of side wall portions 53, 53. As shown in FIG. 4, the air duct 50 is a wall portion interposed between the cooler 27 and the storage box 30 and constituting the cooler chamber S2 in which the cooler 27 is housed. The first wall portion 51 is arranged so as to cover the cooler from below, and has a plate shape that inclines downward toward the rear. In the cooling storage 10, the defrosting operation of the cooler 27 is appropriately executed. The defrosted water from the cooler 27 generated by the defrosting operation is received by the first wall portion 51 and then discharged to the outside of the refrigerator through the pipe 17 provided in the rear wall portion of the heat insulating box 11. Further, the rear end of the first wall portion 51 constitutes the above-mentioned outlet 50B.

The second wall portion 52 (shroud panel) has a long plate shape in the left-right direction, and two cooling fans 60 are attached to the second wall portion 52. A suction port 50A is formed in the second wall portion 52. The cooling fan 60 is screwed to the second wall portion 52 from the upper surface side by a plurality of screws 61, and is arranged so as to cover the suction port 50A. That is, the second wall portion 52 is a holding wall portion for holding the cooling fan 60. The second wall portion 52 and the first wall portion 51 are fastened to each other by a plurality of screws 54 (fastening members for the wall portion). As shown in FIG. 11, a screw hole 51E is formed through the front end portion of the first wall portion 51, and an insertion hole 52E penetrates a portion corresponding to the screw hole 51E at the rear end portion of the second wall portion. It is formed. The rear end portion of the second wall portion 52 is in contact with the front end portion of the first wall portion 51 from below, and the screw 54 is inserted into the insertion hole 52E from the storage chamber 30A side (lower side). It is screwed into the screw hole 51E. Therefore, the fastening between the first wall portion 51 and the second wall portion 52 by the screw 54 can be released from the storage chamber 30A side.

Further, a flange portion 53A that receives the second wall portion 52 from above is provided at the front end portion of the side wall portion 53, and a screw hole 51E is formed in the flange portion 53A. Therefore, the side end portion of the second wall portion 52 is configured to be fastened to the flange portion 53A by the screw 54. From the above, by removing each screw 54, the second wall portion 52 becomes a portion of the air duct 50 other than the second wall portion 52 (first wall portion 51, pair of side wall portions 53, 53, flange portion 53A, It can be removed from 53A). Further, as shown in FIG. 6, the area of the second wall portion 52 is set to a value smaller than the area of the opening 35A (the area of the ceiling wall portion 33). That is, the second wall portion 52 is set to a size that allows it to pass through the opening 35A, and the second wall portion 52 (and thus two cooling fans 60) is cooled and stored in the storage 10 through the opening 35A and the storage chamber 30A. It is possible to take it forward.

Next, the effect of this embodiment will be described. According to the present embodiment, after the fastening between the ceiling wall portion 33 and the storage box main body portion 35 by the screw 32B is released from the storage chamber 30A side, the opening portion 35A can be opened by moving the ceiling wall portion 33. .. As a result, the cooling fan 60 can be inspected or replaced from the storage chamber 30A side (lower side) through the opening 35A. If the ceiling wall portion 33 cannot be removed from the storage chamber 30A side, it is necessary to inspect or replace the cooling fan 60 from above through the window hole 16A as shown in FIG.

In the present embodiment, the condenser 22, the condenser fan 23, the compressor 24, the control unit 25, the cooler 27, and the base 26 are unitized to form a cooling unit 18 (see FIG. 5). .. Therefore, in order to inspect or replace the cooling fan 60 from above through the window hole 16A, it is necessary to remove the cooling unit 18. In particular, since the cooler 27 is provided so as to project downward from the base 26, it is necessary to lift the cooling unit 18 in order to remove the cooling unit 18, which is a large-scale work. Further, in order to lift the cooling unit 18, it is necessary to secure a sufficient space above the cooling unit 18. According to this embodiment, since the cooling fan 60 can be inspected or replaced from the storage chamber 30A side (lower side) through the opening 35A, it is not necessary to remove the cooling unit 18.

Further, in the present embodiment, after the second wall portion 52 is removed from the first wall portion 51, the second wall portion 52 can be moved to the outside of the cooling storage 10 through the opening 35A and the storage chamber 30A. Therefore, the replacement work of the cooling fan 60 provided on the second wall portion 52 can be easily performed.

<Embodiment 2>
Next, Embodiment 2 of the present invention will be described with reference to FIGS. 12 to 13. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In the cooling storage 210 of the present embodiment, the configuration of the storage box 230 is different from that of the above embodiment. In the storage box 230, as shown in FIG. 12, the ceiling wall portion 233 includes a ceiling wall main body portion 236 attached to the side wall portion 32 and the rear wall portion 34, and a lid portion 237 (a part of the ceiling wall portion). And. The ceiling wall main body portion 236 is a rectangular plate material, and has a rectangular opening 236A that is long in the left-right direction. The opening 236A is formed through the ceiling wall main body 236. In other words, in the present embodiment, the storage box main body 235 (inner box main body) is provided by the bottom wall portion 31 (see FIG. 3), the pair of left and right side wall portions 32, 32, the rear wall portion 34, and the ceiling wall main body portion 236. The opening 236A of the storage box main body 235 is closed by the lid 237.

As shown in FIG. 12, a screw hole 236E is formed through the opening edge of the opening 236A in the ceiling wall main body 236, and an insertion hole is formed at a portion corresponding to the screw hole 236E at the peripheral end of the lid 237. 237E is formed through. As shown in FIG. 13, the lid portion 237 is in contact with the opening edge portion of the opening portion 236A in the ceiling wall main body portion 236 from below, and the screw 232 is inserted from the storage chamber 30A side (lower side) to the insertion hole 237E. After being inserted into the screw hole 236E, it is screwed into the screw hole 236E. As a result, the lid portion 237 and the ceiling wall main body portion 236 (a part of the inner box main body portion) are fastened to each other by screws 232 (fastening member), and the lid portion 237 and the storage box main body portion 235 by the screws 232 are fastened to each other. It is possible to release the fastening from the storage chamber 30A side. According to the present embodiment, since the lid portion 237 is a part of the ceiling wall portion 233, the lid portion can be made smaller as compared with the configuration in which the entire ceiling wall portion 233 is a lid portion, and the lid portion can be formed. It can be easily moved.

<Embodiment 3>
Next, Embodiment 3 of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In this embodiment, the configuration of the storage box is different from each of the above embodiments. As shown in FIG. 14, in the storage box 330 of the present embodiment, the lid portion 337 is configured to close the opening portion 236A of the ceiling wall main body portion 236 from above. The peripheral end portion of the lid portion 337 is supported from below by the upper surface of the ceiling wall main body portion 236 (more specifically, the upper surface of the opening edge portion in the opening portion 236A). By doing so, the screw 232 can be attached / detached while the lid portion 337 is placed on the upper surface of the ceiling wall main body portion 236. That is, since the work can be performed without supporting the lid portion 337 by hand, the workability can be further improved.

In the present embodiment, the ceiling wall portion 333 includes a lid portion 337 and a ceiling wall main body portion 236. Further, the storage box main body 235 (inner box main body) is composed of the bottom wall portion 31 (see FIG. 3), the pair of left and right side wall portions 32, 32, the rear wall portion 34, and the ceiling wall main body portion 236. There is. Further, the lid portion 337 is fastened to the ceiling wall main body portion 236 from the storage chamber 30A side by screws 232. That is, a plurality of screw holes 337E are formed at the peripheral end of the lid portion 337, and the screws 232 are inserted into the insertion holes formed in the ceiling wall main body portion 236 and then screwed into the screw holes 337E. There is.

<Embodiment 4>
Next, Embodiment 4 of the present invention will be described with reference to FIGS. 15 to 17. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In this embodiment, the configuration of the storage box is different from each of the above embodiments. In the storage box 430 of the present embodiment, the lid portion 437 is placed on the upper surface of the ceiling wall main body portion 436 as in the above-described third embodiment. As shown in FIG. 15, the lid portion 437 has, for example, a long shape in the left-right direction. Further, the ceiling wall main body portion 436 is assembled to the side wall portion 32 and the rear wall portion 34 at the peripheral end portion thereof. For this reason, the ceiling wall main body 436 has a flat plate shape before being assembled, but in the assembled state, it may be curved in a shape that bulges downward due to its own weight. In this embodiment, the case where the ceiling wall main body 436 is curved in a shape that bulges downward due to its own weight is illustrated. The lid portion 437 has a curved shape that follows the curved shape of the ceiling wall main body portion 436. That is, the lid portion 437 also has a curved shape that bulges downward. Therefore, the ceiling wall portion 433 composed of the ceiling wall main body portion 436 and the lid portion 437 also has a curved shape that bulges downward.

As shown in FIG. 16, when the ceiling wall main body 436 is curved so as to bulge downward due to its own weight, as shown in FIG. 17, the lid 439 having a flat shape extending along the horizontal direction. Is fastened to the ceiling wall main body 436 with screws 232, the member on the lower rigidity side (the ceiling wall main body 436 is illustrated in FIG. 17) bends and deforms, and other than the fastening points with the screws 232. A gap S3 is formed between the ceiling wall main body portion 436 and the lid portion 439 in the portion. When the ceiling wall main body 436 has a curved shape as in the above configuration, if the lid 437 has a curved shape following the curved shape of the ceiling wall main body 436, the lid 437 and the ceiling wall main body 437 are curved. It is possible to suppress the situation where a gap is formed between the 436 and the 436.

<Embodiment 5>
Next, Embodiment 5 of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In this embodiment, the configuration of the storage box is different from each of the above embodiments. In the storage box 530 of the present embodiment, a pair of holding portions 536, 536 are provided on the upper surface of the ceiling wall main body portion 236. The holding portion 536 is a longitudinal plate material extending in the front-rear direction, and has a high stepped shape with respect to the first extending portion 537 attached to the upper surface of the ceiling wall main body portion 236 and the first extending portion 537. 2 An extension portion 538 is provided. The second extending portion 538 is configured to cover the side end portion of the lid portion 337 from above. As a result, the pair of holding portions 536 and 536 have the function of a guide rail that holds the lid portion 237 so as to be slidable and displaceable in the front-rear direction along the upper surface of the ceiling wall main body portion 236.

By holding the lid portion 337 in a slide-displaceable manner by a pair of holding portions 536, 536, the lid portion 337 can be easily displaced between the state in which the opening portion 236A is opened and the state in which the opening portion 236A is closed. Can be done. That is, it is possible to suppress the situation where the lid portion 337 is displaced in the left-right direction, and when the work of fastening the lid portion 337 to the ceiling wall main body portion 236 is performed, the lid portion 337 and the ceiling wall main body portion 236 Alignment can be performed more easily. Further, the upward displacement of the lid portion 337 is regulated by the second extension portion 538. Therefore, it is possible to prevent the lid portion 337 from floating when the screw 232 is fastened from the storage chamber 30A side.

<Embodiment 6>
Next, Embodiment 6 of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In the cooling storage 610 of the present embodiment, the ceiling wall portion 633 includes a ceiling wall main body portion 236 having an opening 236A and a lid portion 637 that closes the opening 236A from above. In this embodiment, as shown in FIG. 19, the lid portion 637 is made of a transparent material (for example, acrylic resin or the like). With such a configuration, the cooling fan 60 can be visually observed from the storage chamber 30A side through the opening 236A in a state where the lid 637 closes the opening 236A. Therefore, it is possible to confirm whether or not the cooling fan 60 is operating normally without removing the lid portion 637. Since the screw 232 for fastening the lid portion 637 to the ceiling wall main body portion 236 is screwed from the storage chamber 30A side, the lid portion 637 can be removed from the storage chamber 30A side. ..

<Embodiment 7>
Next, Embodiment 7 of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In the cooling storage 710 of the present embodiment, the mounting structure of the cooling fan 60 is different from that of each of the above embodiments. In the present embodiment, the cooling fan 60 and the second wall portion 52 (a part of the wall portion constituting the cooler chamber) are fastened to each other by a screw 761 (a fastening member for a fan). Then, the fastening of the cooling fan 60 and the second wall portion 52 by the screw 761 can be released from the storage chamber 30A (see FIG. 6) side. According to the above configuration, after the cooling fan 60 is removed from the second wall portion 52, the removed cooling fan 60 can be moved to the outside of the cooling storage 710 through the opening 35A (see FIG. 6) and the storage chamber 30A. can. Therefore, the replacement work of the cooling fan 60 can be easily performed. The configuration of this embodiment can also be applied to a configuration having an opening 236A.

<Embodiment 8>
Next, Embodiment 8 of the present invention will be described with reference to FIGS. 21 to 30. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In the present embodiment, the configuration of the storage box is different from each of the above embodiments. As shown in FIG. 21, the storage box 830 includes a bottom wall portion 31, a pair of side wall portions 32, 32, a ceiling wall portion 33, and a rear wall portion 834. The rear wall portion 834 is divided and configured by a pair of panel members 834L and 834R having a symmetrical shape. The bottom wall portion 31 is screwed to the bracket 816C provided on the heat insulating box 11. Further, the bottom wall portion 31 is placed on the bracket 815C provided in the heat insulating box 11. The bracket 815C is provided on the upper surface 15C of the inner surface of the heat insulating box 11 facing upward, and the bracket 816C is provided on the side surface 15D of the inner surface of the heat insulating box 11 facing sideways. Although not shown, the bracket 816C is also provided on a side surface (not shown) facing the left side of the inner surface of the heat insulating box 11.

Further, the side wall portion 32 is screwed to a pair of brackets 815D and 815D provided on the side surface 15D of the heat insulating box 11. Further, the pair of panel members 834L and 834R constituting the rear wall portion 34 are screwed to the bracket 815B provided on the front surface 15B facing the front of the inner surface of the heat insulating box 11. Further, the ceiling wall portion 33 is screwed from below to the extended wall portion 32A provided on the side wall portion 32 as in the first embodiment. That is, in the present embodiment, the storage box main body portion 835 is composed of the bottom wall portion 31, the pair of side wall portions 32, 32, and the rear wall portion 834, and the ceiling wall portion 33 is included in the storage box main body portion 835. This is an example of a lid that closes the opening.

With such a configuration, the bottom wall portion 31, the side wall portion 32, and the rear wall portion 834 are individually assembled to the heat insulating box 11, and then the ceiling wall portion 33 is assembled to form a storage box 830. Can be done. Therefore, the bottom wall portion 31, the side wall portion 32, the ceiling wall portion 33, and the rear wall portion 834 are assembled to form a storage box 830, and then the storage box 830 is put inside the heat insulating box 11 and assembled. The work can be done easily. The bottom wall portion 31, the side wall portion 32, and the rear wall portion 834 may be assembled to the heat insulating box 11 by a fastening member (rivet or the like) other than the screw.

Further, in the present embodiment, as shown in FIG. 22, on the lower surface 15A of the inner surface of the heat insulating box 11 facing downward (the lower surface of the interior member 11B constituting the heat insulating box 11), the positions on the left and right sides of the window hole 16A. Are provided with brackets 870 for temporarily fixing the ceiling wall portion 33. As shown in FIG. 23, the bracket 870 has a plate shape, and has a pair of base end portions 871,871 attached to the lower surface 15A, a pair of side wall portions 872, 872, and lower ends of the pair of side wall portions 872, 872. A bottom wall portion 873 to be connected is provided.

As shown in FIG. 21, a hook 880 is provided at a position corresponding to the bracket 870 on the upper surface of the ceiling wall portion 33. As shown in FIG. 24, the hook 880 has a plate shape, a base end portion 881 screwed to the ceiling wall portion 33, a standing wall portion 882 rising from the rear end of the base end portion 881, and an upper end of the standing wall portion 882. An extension wall portion 883 extending rearward (on the right side in FIG. 24) and an extension wall portion 884 extending downward from the rear end of the extension wall portion 883 are provided.

When assembling the ceiling wall portion 33 to the extended wall portion 32A provided on the side wall portion 32, the hook 880 is hooked on the bracket 870 as shown in FIG. 23. As a result, the extended wall portion 883 of the hook 880 is supported by the bottom wall portion 873 of the bracket 870, so that the ceiling wall portion 33 can be fixed (temporarily fixed) in a suspended state. As a result, the worker can perform the assembling work without supporting the ceiling wall portion 33, and the workability is improved. In the state where the ceiling wall portion 33 is assembled to the extended wall portion 32A, the extended wall portion 883 is in a state of floating from the bottom wall portion 873 as shown in FIG. 24.

Further, as shown in FIG. 21, a plurality of (three in this embodiment) holding portions 850 (holding pieces) are provided at the rear end portion on the upper surface of the ceiling wall portion 33. The holding portion 850 has a plate shape, and as shown in FIG. 25, the base end portion 851 attached to the ceiling wall portion 33, the standing wall portion 852 rising from the rear end of the base end portion 851, and the upper end of the standing wall portion 852. It includes an extended wall portion 853 that extends downward and inclined toward the rear, and an extended wall portion 854 that extends upward and inclined toward the rear from the rear end of the extended wall portion 853.

Further, as shown in FIG. 26, an extended wall portion 836 that is long in the left-right direction is provided at the upper end portion of the rear wall portion 834. The extended wall portion 836 extends forward from the upper end of the rear wall portion 834. As shown in FIG. 25, the extended wall portion 836 is sandwiched between the boundary portion 855 of the extended wall portion 853 and the extended wall portion 854 and the folded-back portion 33F at the rear end of the ceiling wall portion 33. .. With such a configuration, the rear end portion of the ceiling wall portion 33 can be held, and positioning can be performed when assembling the ceiling wall portion 33. The folded portion 33F is configured by folding the panel member constituting the ceiling wall portion 33 forward. Further, instead of the holding portion 850 of the present embodiment, a holding portion 860 long in the left-right direction may be provided as shown in FIG. 27.

Further, as shown in FIG. 28, when assembling the panel member (for example, the panel member 834L) constituting the rear wall portion 834 to the heat insulating box 11, the assembling work is performed after assembling the bottom wall portion 31. As shown in FIGS. 29 and 30, a through hole 837 is formed through the upper portion of the panel member 834L. The through hole 837 is a daruma hole and has a first hole 838 having a circular shape and a second hole 839 communicating with the first hole 838. The second hole 839 is arranged above the first hole 838, and the length in the left-right direction is set to a value smaller than the diameter of the first hole 838.

A screw 820 for temporarily fixing the panel member 834L is provided at a position corresponding to the through hole 837 in the bracket 815B. As shown in FIG. 30, the diameter of the first hole 838 is set to a value larger than the diameter of the head 821 of the screw 820. Therefore, when the panel member 834L is attached to the bracket 815B, the head 821 is inserted into the first hole 838 from the rear, and then the panel member 834L is slightly lowered to form the second hole 839 with respect to the head 821. The hole edge of the can be locked from the rear. By doing so, the panel member 834L can be temporarily fixed to the screw 820, and the workability related to the assembly becomes good. The through hole 837 is also formed in the panel member 834R. If the panel member 834L is temporarily fixed to the screw 820, it is possible to prevent the panel member 834L from tipping over during assembly. As a result, for example, the bottom wall portion 31 below the panel member 834L can be more reliably protected.

<Embodiment 9>
Next, Embodiment 9 of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In this embodiment, the hook configuration is different from that of the above embodiment. As shown in FIG. 31, in the hook 980 of the present embodiment, the extended wall portion 984 is assumed to be inclined forward as it goes downward from the front end of the extended wall portion 883. In FIG. 31, the hook 980 in the state before being hooked on the bracket 870 is designated by the reference numeral 980A and is shown by a two-dot chain line, and the extension wall portion 984 of the hook 980A is designated by the reference numeral 984A.

In the present embodiment, the operator moves the ceiling wall portion 33 backward so as to hook the hook 980 on the bracket 870. When the extension wall portion 984A abuts on the bottom wall portion 873 from the front when the hook 980 is hooked on the bracket 870, the extension wall portion 984A slides with respect to the bottom wall portion 873, and as a result, the hook 980. Hook 980 rises as it displaces forward. Therefore, the hook 980 can be easily hooked to the bracket 870. Further, if the extended wall portion 984 is inclined toward the front as it goes downward, the extended wall portion 984 is from below with respect to the bottom wall portion 873 when the hook 980 is hooked on the bracket 870. Since the hook 980 can be locked, the hook 980 becomes difficult to move upward, and the situation where the hook 980 comes off from the bracket 870 can be suppressed.

<Embodiment 10>
Next, the tenth embodiment of the present invention will be described with reference to FIG. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In this embodiment, the structure of the bracket is different from that of the above embodiment. In this embodiment, as shown in FIG. 32, a plate-shaped guide portion 874 is provided on the bottom wall portion 873 of the bracket 870. The guide portion 874 is assumed to extend downward from the front end of the bottom wall portion 873 and to be inclined forward as it goes downward. As a result, when the hook 980 is hooked on the bracket 870, the hook 980 is guided by the guide portion 874, so that the hook 980 can be easily hooked on the bracket 870.

<Embodiment 11>
Next, the eleventh embodiment of the present invention will be described with reference to FIGS. 33 to 34. The same parts as those in the above embodiment are designated by the same reference numerals, and duplicate description will be omitted. In the present embodiment, the configuration of the holding portion for holding the rear end of the ceiling wall portion is different from that of the eighth embodiment. As shown in FIG. 33, a holding portion 950 is integrally formed on the ceiling wall portion 33 of the present embodiment. The holding portion 950 is configured by bending the rear end portion of the panel member constituting the ceiling wall portion 33.

The holding portion 950 has a plate shape and, as shown in FIG. 34, extends from the rear end of the ceiling wall portion 33 toward the front and the extending wall portion 951 extending from the front end of the extending wall portion 951. The extension wall portion 952, the extension wall portion 953 extending downward from the upper end of the extension wall portion 952 toward the rear, and the extension wall portion 953 extending upward and downward from the rear end of the extension wall portion 953. It is provided with an extended wall portion 954 extending in. In the present embodiment, the extended wall portion 836 is sandwiched between the boundary portion 955 of the extended wall portion 953 and the extended wall portion 954 and the extended wall portion 951. With such a configuration, the rear end portion of the ceiling wall portion 33 can be held, and positioning can be performed when assembling the ceiling wall portion 33.

<Other embodiments>
The present invention is not limited to the embodiments described above and the drawings, and for example, the following embodiments are also included in the technical scope of the present invention.
(1) In the above embodiment, the configuration in which the cooler 27 and the cooling fan 60 are arranged above the storage box is exemplified, but the present invention is not limited to this. For example, the machine room and the storage room may be arranged side by side in the horizontal direction, and the cooler 27 and the cooling fan 60 may be arranged on the side of the storage box. In this case, the side wall of the storage box may have an opening for exposing the cooling fan 60, or the side wall may be removable from the storage chamber side.
(2) The shape and size of the opening formed in the ceiling wall main body are not limited to those exemplified in the above embodiment and can be changed as appropriate.
(3) The fastening structure between the ceiling wall portion 33 and the storage box main body portion 35 is not limited to that exemplified in the first embodiment. For example, a flange extending downward from the peripheral end of the ceiling wall portion 33 is provided, and the flange is screwed to the upper end portion of the side wall portion 32 and the upper end portion of the rear wall portion 34 from the storage chamber 30A side. It may be configured.
(4) The fastening member is not limited to screws, and for example, bolts and nuts may be used. When bolts and nuts are used, the nuts can be easily attached to and detached from the storage chamber 30A side by arranging the nuts on the storage chamber 30A side with respect to the ceiling wall portion 33, which is preferable. ..

10,210,610,710 ... Cooling storage, 11 ... Insulation box (outer box), 15A ... Bottom surface (inner surface of outer box), 15B ... Front surface (inner surface of outer box), 15C ... Top surface (inner surface of outer box), 15D ... Side surface (inner surface of outer box), 27 ... Cooler, 30,230,430,830 ... Storage box (inner box), 30A ... Storage chamber, 32B, 232 ... Screw (fastening member), 33,933 ... Ceiling Wall part (lid part), 35,235,835 ... Storage box main body part (inner box main body part), 35A, 236A ... Opening part, 50 ... Air duct (cooler room constituent wall part), 51 ... First wall part, 52 ... 2nd wall part, 54 ... screw (fastening member for wall part), 60 ... cooling fan, 233,333,433,633,933 ... ceiling wall part, 236,436 ... ceiling wall main body part, 237,337, 437, 637 ... lid part, 536 ... holding part, 761 ... screw (fastening member for fan), S1 ... cold air passage (space), S2 ... cooler room

Claims (6)

A box-shaped outer box that opens forward,
An inner box having a storage chamber opened in front and being housed inside the outer box in a state where a space is formed between the outer box and the inner surface of the outer box.
The cooler arranged on the outside of the inner box and
A cooling fan, which is arranged on the outside of the inner box and supplies air cooled by the cooler to the space, is provided.
The inner box is
An inner box main body having an opening for exposing the cooling fan to the storage chamber side,
With a lid that closes the opening,
The lid portion and the inner box main body portion are fastened to each other by a fastening member.
The structure is such that the fastening between the lid portion and the inner box main body portion by the fastening member can be released from the storage chamber side .
The cooling fan is arranged above the inner box.
The inner box includes a ceiling wall portion constituting the ceiling of the storage room.
The lid portion is at least a part of the ceiling wall portion.
The ceiling wall is
A ceiling wall main body having the opening and a part of the inner box main body,
With the lid
The lid portion and the ceiling wall main body portion are fastened to each other by the fastening member.
The lid portion is a cooling storage that closes the opening portion from above and is supported from below by the upper surface of the ceiling wall main body portion . The ceiling wall main body has a curved shape that bulges downward.
The cooling storage according to claim 1 , wherein the lid portion has a curved shape following the curved shape of the ceiling wall main body portion. The cooling storage according to claim 1 or 2 , wherein a holding portion for holding the lid portion so as to be slidable along the upper surface is provided on the upper surface of the ceiling wall main body portion. The cooler is arranged above the inner box.
It is provided between the cooler and the inner box, and is provided with a cooler chamber constituent wall portion that constitutes a cooler chamber in which the cooler is housed.
The wall portion of the cooler chamber is
A first wall portion that covers the cooler from below and a second wall portion to which the cooling fan is attached are provided.
The first wall portion and the second wall portion are fastened to each other by a fastening member for the wall portion.
The structure is such that the fastening between the first wall portion and the second wall portion by the wall portion fastening member can be released from the storage chamber side.
The cooling storage according to any one of claims 1 to 3 , wherein the second wall portion is set to a size capable of passing through the opening. The cooler is arranged above the inner box.
It is provided between the cooler and the inner box, and is provided with a cooler chamber constituent wall portion that constitutes a cooler chamber in which the cooler is housed.
The cooling fan and the cooler chamber constituent wall portion are fastened to each other by a fan fastening member.
The one according to any one of claims 1 to 4 , wherein the fastening between the cooling fan and the cooling chamber constituent wall portion by the fan fastening member can be released from the storage chamber side. Cool storage. The cooling storage according to any one of claims 1 to 5 , wherein the lid portion is made of a transparent material.

Images