JP7145049B2 - cold storage - Google Patents

Description

The present invention relates to cold storage.

2. Description of the Related Art Conventionally, a cooling storage is known that includes a cooler, a cooling fan for supplying cold air generated by the cooler into the storage, and a fan guard that covers the cooling fan. Such a fan guard is intended to prevent foreign matter from entering the cooling fan and to keep hands from touching the cooling fan, and has air permeability, for example, by forming a mesh.

Japanese Patent Application Laid-Open No. 2001-27472

During the cooling operation of the cooling storage, there is a concern that the fan guard may be frosted due to the cooling of the fan guard. If the fan guard is frosted, the air permeability of the fan guard is reduced, and the ventilation efficiency of the cooling fan is reduced, resulting in a reduction in cooling capacity.

SUMMARY OF THE INVENTION The present invention was completed based on the above circumstances, and an object of the present invention is to melt the frost adhering to the fan guard.

In order to solve the above problems, the cooling storage of the present invention comprises a storage main body having a storage chamber, a cooler, a cooling fan for blowing air cooled by the cooler to the storage chamber, and at least the cooling fan. A housing case having an opening for exposing the cooling fan to the outside, a fan guard covering the opening, a heater for heating an opening edge of the opening in the case, and the fan guard and an extension portion extending from the heater toward the heater and contacting the heater. According to the above configuration, the heat generated by the heater can be transferred to the fan guard through the extended portion. As a result, the frost adhering to the fan guard can be melted. Further, the heater can melt the frost adhering to the opening edge by heating the opening edge of the opening. As a result, it is possible to prevent the growing frost from coming into contact with the cooling fan, thereby preventing the cooling fan from rotating or breaking down. Thus, one heater can heat both the fan guard and the opening edge of the opening, which is preferable.

Further, the case includes a first wall portion having the opening portion and to which the fan guard is attached, and a second wall portion covering the fan guard from below is provided at the lower end of the first wall portion, The heater is attached to the lower surface of the second wall portion, and a through hole is formed in a portion of the second wall portion located between the fan guard and the heater. be able to. By forming the through hole in the second wall portion, the air heated by the heater can flow toward the fan guard through the through hole, and the fan guard can be heated more effectively.

Further, the second wall portion has a longitudinal shape extending in a direction perpendicular to the axial direction of the rotation shaft of the cooling fan, and a notch portion is formed at the hole edge portion of the through hole in the second wall portion. and a part of the heater abuts against the inner surface of the notch, thereby restricting the displacement of the heater to one side in the longitudinal direction of the second wall. can be done. With this configuration, the heater can be positioned in the longitudinal direction of the second wall using the inner surface of the notch as a reference when the heater is assembled. As a result, positional deviation of the heater with respect to the fan guard can be regulated, and the fan guard can be more reliably heated by the heater.

Further, a holding member for holding the heater is provided, and the heater has a U-shaped and elastic U-shaped portion, and the U-shaped portion has a pair of rod-shaped portions arranged in parallel. One of the pair of rod-shaped portions is in contact with the extension portion, and the other rod-shaped portion of the pair of rod-shaped portions is in contact with the one rod-shaped portion. The other rod-shaped portion is arranged on the opposite side of the extension portion, and the other rod-shaped portion is pressed toward the one rod-shaped portion by the holding member, thereby urging the one rod-shaped portion toward the extension portion. can be assumed to exist. Since one of the rod-shaped portions is urged toward the extended portion, it is possible to more reliably prevent the one rod-shaped portion and the extended portion from being separated from each other, so that the fan guard can be heated more reliably. can.

According to the present invention, frost adhering to the fan guard can be melted.

1 is a sectional view showing a refrigerator according to one embodiment of the present invention; Sectional view showing the cooling unit Enlarged view of the vicinity of the heater in FIG. Front view showing cooling unit Perspective view showing a cooling unit Enlarged view of the vicinity of the fan guard in Fig. 5 The perspective view which shows the panel member which comprises a case. Plan view showing heater and bracket (view from above) Perspective view showing the bracket Perspective view showing the cooling unit with the drain pan removed (view from below) Enlarged view of the vicinity of the heater in FIG. FIG. 11 is an enlarged view of the vicinity of the boundary portion 76R between the rod-shaped portion 75R and the rod-shaped portion 73R in the heater. FIG. 11 is an enlarged view of the vicinity of the boundary portion 76L between the rod-shaped portion 75R and the rod-shaped portion 73L in the heater. A view showing a pair of boundary portions 76R and 76L in the heater (view from below) A side view showing the heater and the notch (corresponding to the view cut along the XV-XV line in FIG. 4) Figure showing a modification of the opening edge

One embodiment of the present invention will be described with reference to FIGS. 1 to 15. FIG. In this embodiment, a prefabricated refrigerator 10 is exemplified as the cooling storage. The refrigerator 10 includes a storage body 12 having a storage compartment 11 and a cooling device 13, as shown in FIG. The storage main body 12 (insulating box body) is configured by assembling a plurality of insulating panels into a box shape. An opening 16 serving as an entrance and exit is formed in the storage body 12 , and the opening 16 can be opened and closed by a heat insulating door 17 . The cooling device 13 includes an outdoor unit 21 and a cooling unit 30 . The outdoor unit 21 includes a compressor (not shown), a condenser, and a condenser fan.

The cooling unit 30 includes a cooler 31 (evaporator), a cooling fan 32, and expansion means (not shown) (capillary tube, expansion valve, etc.). The cooling unit 30 is arranged inside the storage body 12 , and is attached to, for example, a ceiling wall portion forming the storage body 12 . The compressor, condenser, expansion means, and cooler 31 constitute a cooling cycle by being circulated and connected in this order by refrigerant pipes 24 in which refrigerant is sealed. During cooling operation, the refrigerant evaporates in the cooler 31 . During the cooling operation, the air in the storage chamber 11 is sucked into the cooling unit 30 by driving the cooling fan 32, and the air (cold air) cooled by heat exchange in the process of passing through the cooler 31 is transferred to the storage chamber 11. blown out inside. As a result, cold air is supplied into the storage chamber 11 to cool the storage chamber 11 .

Next, the configuration of the cooling unit 30 will be described in detail. In the following description, the blowing side of the cooling fan 32 is the front side of the cooling unit 30 (left side in FIG. 2), and the side opposite to the blowing side is the rear side of the cooling unit 30 (right side in FIG. 2). Also, the left-right direction in FIG. 4 is the left-right direction of the cooling unit 30 . In each figure, the front-rear direction of the cooling unit 30 is the Y-axis direction, the left-right direction of the cooling unit 30 is the X-axis direction, and the vertical direction is the Z-axis direction. The cooling unit 30 includes a cooler 31, a cooling fan 32, a case 50, a drain pan 34, a fan guard 40, and a heater 70, as shown in FIG. The drain pan 34 is arranged so as to cover the case 50, the fan guard 40, and the heater 70 from below.

As shown in FIGS. 4 and 5, the case 50 has a box shape elongated in the left-right direction, and is composed of a plurality of panel members. The case 50 accommodates at least the cooler 31 and the cooling fan 32 . The case 50 includes a front wall portion 51 , a ceiling wall portion 52 and a pair of side wall portions 53 , 53 . As shown in FIG. 10, the case 50 has an opening 50A opening rearward and an opening 50B opening downward. 10 is a perspective view of the cooling unit 30 from below with the drain pan 34 removed. Inside the case 50 , as shown in FIG. 2 , the cooler 31 and the cooling fan 32 are arranged in the longitudinal direction, and the cooling fan 32 is arranged in front of the cooler 31 . The cooling fan 32 includes blades 32A and a motor 32B that rotates the blades.

The front wall portion 51 (first wall portion) is formed with an opening portion 51</b>A that exposes the blowing side of the cooling fan 32 to the outside of the case 50 . The opening 51A is formed so as to pass through the front wall portion 51 in the front-rear direction, and has a circular shape as shown in FIG. As shown in FIG. 4, the cooling unit 30 of the present embodiment includes two cooling fans 32 arranged in the left-right direction, and openings 51A are formed at locations facing the cooling fans 32, respectively. An opening edge portion 51B of the opening portion 51A in the front wall portion 51 is a bell mouth. The opening edge portion 51B has a shape protruding forward from a forward facing surface 51D of the front wall portion 51 . Further, the opening edge portion 51B is provided so as to surround the entire circumference of the blade 32A. The opening edge portion 51B, which is a bell mouth, has a function of adjusting the flow of air from the suction side of the cooling fan 32 to the blowing side thereof.

The fan guard 40 is configured to cover the opening 51A and the cooling fan 32 (more specifically, the blades 32A) from the blowout side of the cooling fan 32, and as shown in FIG. , it has a circular shape that is one size larger than the opening 51A. The fan guard 40 is constructed by joining metal round bars 41, 42, 43 by welding. The round bar 41 has a spiral shape that is one size larger than the opening 51A. The four round bars 42 radially extend from the center of the round bar 41 when viewed from the front. The round bars 43 are L-shaped when viewed from the front, and are provided in pairs. The corners of the round bar 43 are arranged so as to match the center of the round bar 41 when viewed from the front. One end of the round bar 43 is screwed to the front wall 51 with a screw 26 . The fan guard 40 is thereby attached to the front wall portion 51 .

As shown in FIG. 5, the lower end of the front wall portion 51 is provided with an elongated wall portion 54 (second wall portion) extending in the left-right direction. The extended wall portion 54 is provided so as to cover the two fan guards 40, 40 from below. As shown in FIG. 3, the extended wall portion 54 extends from the lower end of the front wall portion 51 toward the front side in an upwardly inclined manner. In this embodiment, the axial direction L1 (see FIG. 2) of the rotating shaft of the cooling fan 32 extends in the front-rear direction, and the extended wall portion 54 has a longitudinal shape extending in the left-right direction. That is, the extended wall portion 54 has a longitudinal shape extending in a direction orthogonal to the axial direction of the rotating shaft of the cooling fan 32 .

As shown in FIG. 3 , an upright wall portion 55 is provided at the front end of the extended wall portion 54 , and the front wall portion 34 A of the drain pan 34 is attached to the upright wall portion 55 with screws 28 . The front wall portion 51, the ceiling wall portion 52, the extended wall portion 54, and the vertical wall portion 55 described above are integrally formed by bending a single panel member 57 as shown in FIG. It is not limited to this.

The heater 70 is attached to the lower surface of the extended wall portion 54 by a bracket 60, as shown in FIG. As shown in FIG. 8, the heater 70 has a rod shape, and includes a pair of U-shaped portions 71, 71 arranged symmetrically, a connecting portion 72 connecting the pair of U-shaped portions 71, 71, and a U-shaped portion. A rod-like portion 73 provided at the end portion of the character portion 71 opposite to the connecting portion 72 is provided. A sheathed heater can be used as the heater 70, but the type of the heater 70 is not limited to this. The sheathed heater includes a metal (iron, etc.) pipe, an electric heater housed in the pipe, and an insulating material (none of which is shown) filled between the pipe and the electric heater.

As shown in FIG. 4 , the U-shaped portion 71 is arranged below the fan guard 40 . As shown in FIG. 8, the U-shaped portion 71 has a U-shape having a pair of rod-shaped portions 75F and 75R arranged in parallel and a curved connecting portion 75A that connects the rod-shaped portion 75F and the rod-shaped portion 75R. None. The pair of rod-shaped portions 75F and 75R each extend in the left-right direction (longitudinal direction of the extended wall portion 54). The U-shaped portion 71 of the heater 70 has elasticity. More specifically, the rod-shaped portion 75F and the rod-shaped portion 75R are elastically deformable with the connecting portion 75A as a fulcrum.

As shown in FIG. 8, the pair of U-shaped portions 71, 71 are arranged symmetrically, and the opening of one U-shaped portion 71 faces the opening of the other U-shaped portion 71. It is Specifically, the right U-shaped portion 71 in FIG. 8 opens to the left, and the left U-shaped portion 71 in FIG. 8 opens to the right.

As shown in FIG. 3, the heater 70 is in contact with the lower surface 54D of the extended wall portion 54. As shown in FIG. Thereby, the heat of the heater 70 is transferred to the opening edge portion 51B via the extended wall portion 54 and the front wall portion 51 . This enables the heater 70 to heat the opening edge portion 51B. Among the pair of round bars 43, 43 provided in the fan guard 40, the bar-shaped heater 70 is provided at the rear end of the round bar 43 (referred to as a round bar 43D in the following description) arranged relatively downward. An extension 45 is provided that extends toward the portion 75R.

More specifically, the round bar 43D includes a bar-shaped portion 48 (see FIG. 6) extending in the horizontal direction, a bar-shaped portion 46 extending in the vertical direction, a bar-shaped portion 47 extending rearward from the lower end of the bar-shaped portion 46, and an extended portion. 45 extends downward from the rear end of the bar-shaped portion 47 and is provided integrally with the round bar 43D. The extended portion 45 is in contact with the rod-shaped portion 75R of the heater 70 from the rear side. A through hole 54</b>A through which the extension portion 45 is inserted is formed in the extension wall portion 54 at a location corresponding to the extension portion 45 . The extended portion 45 may be separate from the round bar 43D. 54 A of through-holes have comprised the rectangular shape elongated in the left-right direction. More specifically, the through hole 54A is a square hole having rounded corners.

The bracket 60 is a holding member that holds the heater 70. As shown in FIG. 62 , and a pair of bracket rear wall portions 63 , 63 rising from the rear end of the bracket bottom wall portion 61 . The bracket front wall portions 62, 62 are arranged to cover the rod-shaped portion 75F from the front, and the bracket rear wall portions 63, 63 are arranged to cover the rod-shaped portion 75R from the rear.

Bracket 60 is screwed to extended wall portion 54 by screws 27, as shown in FIG. More specifically, the screw 27 is inserted through an insertion hole 61B (see FIG. 9) formed in the bracket bottom wall portion 61, and then inserted into a mounting hole 54E (screw hole, see FIG. 7) formed in the extended wall portion . ).

As shown in FIG. 3, the rod-shaped portion 75R (first rod-shaped portion, one rod-shaped portion of the pair of rod-shaped portions) of the heater 70 is brought into contact with the extension portion 45, and the rod-shaped portion 75F (a pair of The other rod-shaped portion of the two rod-shaped portions is arranged on the front side (opposite side to the extended portion 45) with respect to the rod-shaped portion 75R. The rod-shaped portion 75F is pushed rearward (toward the rod-shaped portion 75R) by the pair of bracket front wall portions 62, 62, so that the rod-shaped portion 75R is elastically biased toward the extension portion 45 side. In other words, the pair of rod-shaped portions 75F and 75R are sandwiched between the pair of bracket front wall portions 62 and 62 and the extension portion 45 from the front-rear direction, and the facing distance between the pair of rod-shaped portions 75F and 75R is the natural state ( It is slightly smaller than the state in which the heater 70 is not assembled).

As shown in FIG. 8, the rod-shaped portion 73 (second rod-shaped portion) of the heater 70 extends rearward from one end in the extending direction of the rod-shaped portion 75R. That is, the rod-shaped portion 73 extends in a direction perpendicular to the extending direction of the rod-shaped portion 75R. A boundary portion 76 between the rod-shaped portion 75R and the rod-shaped portion 73 has an R shape. In addition, in the present embodiment, since a pair of rod-shaped portions 73, 73 are provided, in the following description, the rod-shaped portion 73 on the right side of FIG. shall be called Further, as shown in FIG. 6, a through hole 54B is formed in a portion of the extended wall portion 54 located between the fan guard 40 and the heater 70. As shown in FIG. The through-holes 54B are formed on both left and right sides of the through-hole 54A (the through-hole through which the extended portion 45 is inserted), and the through-holes 54B are arranged below the left and right ends of the fan guard 40, respectively. .

The through hole 54B has a rectangular shape elongated in the left-right direction. More specifically, the through hole 54B is a square hole having rounded corners. As shown in FIGS. 11 to 13, a notch 56 is formed at the edge of the through hole 54B in the extension wall 54. As shown in FIGS. 11 to 14 are diagrams of the extended wall portion 54 and the heater 70 viewed from below. More specifically, the notch 56 is formed in the rear hole edge of the through hole 54B, and has a shape elongated in the long side direction (horizontal direction) of the through hole 54B.

The heater 70 has a pair of boundary portions 76, 76 as shown in FIG. Specifically, as shown in FIG. 5, a boundary portion 76 (a part of the heater 70, denoted by reference numeral 76R) between the rod-shaped portion 75R and the rod-shaped portion 73R of the heater 70 is located on the right side of the four through-holes 54B. It is arranged at a location corresponding to the second through-hole 54B (denoted by reference numeral 54R). As shown in FIG. 14, the boundary portion 76R is arranged so as to face and adjoin the inner surface 56R of the notch portion 56 of the through hole 54R (more specifically, the inner surface facing right in FIG. 14).

As a result, when the heater 70 is displaced to one side (left side in FIG. 14) in the left-right direction (X-axis direction), the boundary portion 76R of the heater 70 abuts against the inner surface 56R facing the boundary portion 76R. It is possible to restrict the displacement of the heater 70 to one side. Although a slight gap is provided in the left-right direction between the boundary portion 76R and the inner surface 56R, the boundary portion 76R and the inner surface 56R may be in contact with each other.

Further, as shown in FIG. 5, a boundary portion 76 between the rod-shaped portion 75R and the rod-shaped portion 73L of the heater 70 (a part of the heater 70, denoted by reference numeral 76L) is the third from the right of the four through-holes 54B. is arranged at a location corresponding to the through hole 54B (denoted by reference numeral 54L). As shown in FIG. 14, the boundary portion 76L is arranged so as to face and be adjacent to the inner surface 56L of the notch portion 56 of the through hole 54L (more specifically, the inner surface of the notch portion 56 facing left in FIG. 14). ing. As a result, when the heater 70 is displaced to the other side in the horizontal direction (to the right side in FIG. 14), the boundary portion 76L of the heater 70 abuts against the inner surface 56L facing the boundary portion 76L. It is possible to regulate the displacement of 70. A slight gap is provided in the left-right direction between the boundary portion 76L and the inner surface 56L, but the boundary portion 76L and the inner surface 56L may be in contact with each other.

That is, when the heater 70 is displaced in the left-right direction, one of the pair of boundary portions 76R and 76L abuts one of the pair of inner surfaces 56R and 56L, thereby restricting the positional deviation of the heater 70 in the left-right direction. It is configured to be Note that, as shown in FIG. 15, the bar-shaped portion 73 extends in a manner that is inclined upward toward the rear. Further, as shown in FIGS. 12 and 13, the inner surfaces 56R and 56L are triangular, for example, but the shape of the inner surfaces is not limited to this.

Next, the effects of this embodiment will be described. According to the present embodiment, the heat generated by the heater 70 can be transmitted to the fan guard 40 via the extended portion 45 . Thereby, the frost adhering to the fan guard 40 can be melted. Further, since the heat of the heater 70 is also transmitted to the opening edge portion 51B through the extended wall portion 54, the opening edge portion 51B can be heated to melt the frost adhering to the opening edge portion 51B. This prevents the growing frost from coming into contact with the cooling fan 32, thereby preventing the cooling fan 32 from rotating or breaking down. Thus, one heater 70 can heat both the fan guard 40 and the opening edge 51B, which is preferable. In other words, the cost can be reduced compared to the configuration in which the fan guard 40 and the bell mouth 51B are each provided with a dedicated heater. Since the heat of the heater 70 can also heat a portion of the case 50 near the opening edge portion 51B, it is also possible to melt the frost adhering to the portion.

The heat generated by the heater 70 is transferred to the round bar 43D through the extended portion 45. As shown in FIG. Since the round bar 43D is joined to the round bar 41, heat is transferred from the round bar 43D to the round bar 41. Since the spiral round bar 41 is joined to each round bar 42 and round bar 43, each round bar 42 and another round bar 43 (of the pair of round bars 43, Heat is transferred to the round bar 43) instead of the round bar 43D. As shown in FIG. 6, the spiral round bar 41 is joined to the bar-shaped portions 47 and 48 of the round bar 43D at a plurality of points. Therefore, heat can be efficiently transferred from the round bar 43D to the round bar 41. FIG.

Moreover, the drain pan 34 shall cover the cooler 31 from the downward direction, as shown in FIG. Therefore, the drain pan 34 can receive water when the cooler 31 is defrosted. Furthermore, the drain pan 34 also covers the extended wall portion 54 of the case 50 and the bracket 60 from below. The extended wall portion 54 extends in a downwardly inclined manner toward the rear. Therefore, when water generated by melting frost adhering to the fan guard 40 and the opening edge portion 51B falls on the extended wall portion 54, the water flows along the inclination of the extended wall portion 54 and penetrates through. It drops into the drain pan 34 through the hole 54B.

Then, as shown in FIG. 3, the through hole 54A of the extended wall portion 54 is covered with the bracket bottom wall portion 61 from below. For this reason, water may drop onto the bracket bottom wall portion 61 through the through hole 54A of the extended wall portion 54 . The bracket bottom wall portion 61 extends in a downwardly inclined manner toward the rear, and as shown in FIG. 9, a through hole 61A is formed through the bracket bottom wall portion 61 . Therefore, the water that has fallen onto the bracket bottom wall portion 61 flows along the inclination of the bracket bottom wall portion 61, and flows through the through hole 61A and the gap S1 (see FIG. 9) between the pair of bracket rear wall portions 63, 63 into the drain pan. Drops to 34. As shown in FIG. 2, the bottom wall 34D of the drain pan extends in a downwardly inclined manner toward the rear. and is discharged out of the storage through a drain hose (not shown) connected to the drain port 34B.

Further, the case 50 has a front wall portion 51 having an opening 51A and to which the fan guard 40 is attached, and an extended wall portion 54 covering the fan guard 40 from below is provided at the lower end of the front wall portion 51. The heater 70 is attached to the lower surface 54</b>D of the extended wall portion 54 , and the extended wall portion 54 has a through hole 54</b>B formed between the fan guard 40 and the heater 70 . By forming the through hole 54B in the extended wall portion 54, the air heated by the heater 70 can flow toward the fan guard 40 through the through hole 54B, and the fan guard 40 can be heated more effectively.

If the heat of the heater 70 is transmitted to the fan guard 40 only through the extended portion 45, the fan guard 40 is located far from the extended portion 45 (in this embodiment, both the left and right ends of the fan guard 40). is difficult to heat. By providing the through-holes 54B, the air heated by the heater 70 can be applied to the left and right ends of the fan guard 40 (locations that are difficult to be heated by the heat transfer from the extended portion 45), thereby effectively heating them. can be done. That is, since the entire fan guard 40 can be heated more effectively by using the extended portion 45 and the through hole 54B together, the defrosting time of the fan guard 40 (heating time of the heater 70) can be shortened. Thus, the temperature rise in the storage chamber 11 can be suppressed.

The extension wall portion 54 has a longitudinal shape extending in a direction orthogonal to the axial direction of the rotating shaft of the cooling fan 32, and a notch portion 56 is formed at the hole edge portion of the through hole 54B in the extension wall portion 54. The boundary portion 76 of the heater 70 contacts the inner surface 56R (or the inner surface 56L) of the notch portion 56, thereby restricting displacement of the heater 70 to one side (or the other side) in the left-right direction. assumed to be possible. In this way, when the heater 70 is assembled, the heater 70 can be positioned in the longitudinal direction of the extended wall portion 54 using the inner surface of the notch portion 56 as a reference. As a result, positional deviation of the heater 70 with respect to the fan guard 40 can be regulated, and the fan guard 40 can be heated by the heater 70 more reliably. In other words, it is not necessary to use a jig or the like for positioning the heater 70 with respect to the fan guard 40, which is preferable. In addition, according to the above configuration, even after the heater 70 is assembled, the positional deviation of the heater 70 in the left-right direction can be restricted.

A bracket 60 for holding a heater 70 is provided. The heater 70 has a U-shaped and elastic U-shaped portion 71. The U-shaped portion 71 is a pair of parallel rod-shaped portions 75F and 75R. The rod-shaped portion 75R is in contact with the extension portion 45, the rod-shaped portion 75F is disposed on the opposite side of the rod-shaped portion 75R from the extension portion 45, and the rod-shaped portion 75F is pressed toward the rod-shaped portion 75R by the bracket 60, the rod-shaped portion 75R is biased toward the extension portion 45 side. Since the rod-shaped portion 75R is elastically biased toward the extended portion 45, the rod-shaped portion 75R and the extended portion 45 are not separated from each other due to, for example, an assembly error of the bracket 60 with respect to the extended wall portion 54. This can be suppressed more reliably, and the fan guard 40 can be heated more reliably.

<Other embodiments>
The present invention is not limited to the embodiments explained by the above description and drawings, and the following embodiments are also included in the technical scope of the present invention.
(1) In the above embodiment, the extending portion 45 is integrally formed with the fan guard 40 , but the extending portion 45 may be separate from the fan guard 40 . As for the material of the fan guard 40 and the extended portion 45, it is preferable that the material has a high thermal conductivity.
(2) In the above-described embodiment, the fan guard 40 having a circular shape was exemplified, but the present invention is not limited to this. For example, the fan guard may be lattice-shaped. Further, in the above-described embodiment, the fan guard 40 is limited to the round bar, but the fan guard 40 is not limited to the round bar, and may be, for example, a square bar.
(3) The location where the heater 70 is installed is not limited to those exemplified in the above embodiment. For example, as indicated by a two-dot chain line in FIG. good too.
(4) In the above embodiment, the cooling unit including two cooling fans 32 was illustrated, but the number of cooling fans is not limited to this and can be changed as appropriate.
(5) In the above embodiment, the rod-shaped portion 73 extends in a direction orthogonal to the extending direction of the rod-shaped portion 75R, but the present invention is not limited to this. It is sufficient if it extends in the direction of That is, the angle formed by the rod-shaped portion 73 and the rod-shaped portion 75R is not limited to 90 degrees and can be changed as appropriate.
(6) In the above-described embodiment, the boundary portion 76 of the heater 70 abuts against the inner surface of the notch portion 56 to position the heater 70 in the left-right direction. The heater 70 may be positioned in the left-right direction by coming into contact with the inner surface. Also, a part of the heater 70 (for example, the bar-shaped portion 73) may be arranged in close proximity to the inner surface (see the inner surfaces 56S and 56T in FIG. 11) opposite to the inner surfaces 56R and 56L in the notch portion 56. In that case, the heater 70 may be positioned in the left-right direction by a part of the heater 70 coming into contact with the inner surfaces 56S and 56T.
(7) In the above embodiment, the configuration in which the opening edge 51B of the opening 51A in the front wall 51 is a bell mouth was exemplified, but the shape of the opening edge is not limited to this and can be changed as appropriate. be. For example, as shown in the modified example of FIG. 16, the opening edge 151B of the opening 151A in the front wall 51 does not have to be a bell mouth.

DESCRIPTION OF SYMBOLS 10... Refrigerator (cooling storage), 11... Storage chamber, 12... Storage main body, 31... Cooler, 32... Cooling fan, 40... Fan guard, 45, 145... Extension part, 50... Case, 51... Front wall part (first wall portion) 51A, 151A opening portion 51B, 151B opening edge portion 54 extending wall portion (second wall portion) 54B through hole 54D lower surface (lower surface of the second wall portion) ), 56... Notch portion 56R, 56L... Inner surface of notch portion 60... Bracket (holding member) 70, 170... Heater 71... U-shaped portion 75F... Rod-shaped portion (the other rod-shaped portion of the pair of rod-shaped portions) part), 75R... bar-shaped part (one of the pair of bar-shaped parts), 76... boundary part (part of heater), L1... rotating shaft of cooling fan

Claims (4)

a storage body having a storage room;
a cooler;
a cooling fan for blowing air cooled by the cooler into the storage compartment;
a case that houses at least the cooling fan, the case having an opening that exposes the cooling fan to the outside;
a fan guard covering the opening;
a heater that heats the opening edge of the opening in the case;
an extension extending from the fan guard toward the heater and in contact with the heater ;
The fan guard includes a spiral member in which a rod-shaped member is spirally formed, a plurality of radial members formed from rod-shaped members and joined to the spiral member in a state of radially extending from the center of the spiral member; consists of
One end of one of the plurality of radiating members extends from the outer edge of the spiral member and functions as the extension . The case includes a first wall portion having the opening and to which the fan guard is attached,
A second wall portion covering the fan guard from below is provided at the lower end of the first wall portion,
The heater is attached to the lower surface of the second wall,
2. The cooling storage according to claim 1, wherein a through hole is formed in said second wall portion at a portion located between said fan guard and said heater. The second wall has a longitudinal shape extending in a direction perpendicular to the axial direction of the rotation shaft of the cooling fan,
A notch is formed in a hole edge of the through hole in the second wall,
3. The cold storage according to claim 2, wherein a part of said heater abuts against the inner surface of said notch, thereby restricting displacement of said heater to one side in the longitudinal direction of said second wall. . A holding member that holds the heater,
The heater has a U-shaped and elastic U-shaped portion,
The U-shaped portion has a pair of rod-shaped portions arranged in parallel,
One rod-shaped portion of the pair of rod-shaped portions is in contact with the extension portion,
The other rod-shaped portion of the pair of rod-shaped portions is disposed on the opposite side of the one rod-shaped portion from the extension portion,
The one rod-shaped portion is elastically biased toward the extension portion by pressing the other rod-shaped portion toward the one rod-shaped portion by the holding member. A cold store according to any one of the preceding claims.

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