JP2012233624A - Open showcase - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively carry out heat discharge processing of not only a condenser but also a compressor and evaporation processing of an evaporation pan by efficiently making outside air sucked into a machine chamber by a blower for the condenser pass through the inside of the machine chamber.SOLUTION: A machine chamber 18 is configured on the rear side of a heat insulating wall 3. A compressor 22 is disposed on one side in the horizontal direction of the machine chamber. A condenser 23, a blower 24 for the condenser, an evaporator 20, and a cold air circulation blower 21 are arranged to be more biased in a direction away from the compressor from the center in the horizontal direction of the heat insulating wall. An exhaust port 52 and an outside air introduction port 50 are formed on one side and the other side of the machine chamber 18, outside air is sucked from the outside air introduction port 50 by the blower 24 for the condenser, is made to pass through the condenser 23, and then is discharged toward the compressor 22.

Description

  The present invention relates to an open showcase in which a display chamber having a front surface opened in a heat insulating wall is formed, and a cold air curtain is formed in the opening of the display chamber.

  Conventionally, in this kind of open showcase, the inside of a heat insulating wall having a substantially U-shaped cross section that opens to the front is partitioned by a partition plate, the front side of this partition plate is a display chamber, and the rear side is a duct. An evaporator and a blower are installed in the duct, and the cool air cooled by the evaporator is discharged from the cool air discharge port at the upper edge of the opening by the blower, and is sucked from the cool air suction port at the lower edge of the opening. As a result, while a cool air curtain is formed in the opening, a part is circulated in the display chamber to cool the product displayed inside.

  On the other hand, a table-type showcase is conventionally suitable for selling beverages enclosed in plastic bottles, cans, small bottles, and the like. However, the desktop type showcase has a machine room in which a compressor, a condenser, and the like are arranged below the display room, so that the vertical dimension becomes large and the non-cooled product is displayed and sold. It is difficult to place the desktop showcase on the display shelf.

  Therefore, conventionally, a small open showcase has been developed in which the height dimension and the depth dimension are reduced so as to be able to be placed on the non-cooling display shelf (see, for example, Patent Document 1).

  In this case, a machine room is provided behind the showcase body, a compressor is arranged on one side of the machine room, a condenser is arranged on the other side of the machine room, and the other side of the machine room is arranged. The rear wall of the heat insulating wall is recessed to the condenser side, and the evaporator is disposed in the recessed portion in the cold air duct formed between the partition plate and the rear wall.

Japanese Patent Laid-Open No. 10-318653

  However, in the above prior art, a condenser blower is arranged corresponding to the condenser arranged on the other side of the machine room, but the outside air taken into the machine room by the condenser blower is Since the exhaust gas passes through and is discharged to the outside, there has been a problem that the exhaust heat of the compressor disposed at a position away from the condenser cannot be processed.

  Therefore, the present invention has been made to solve the conventional technical problem, and by allowing the outside air sucked into the machine room by the condenser fan to efficiently pass through the machine room, not only the condenser but also the compressor is compressed. Provided is an open showcase capable of effectively realizing the waste heat treatment of the machine and the evaporation treatment of the evaporating dish.

  In order to solve the above problems, an open showcase according to the present invention comprises a display chamber having a front surface opened in a heat insulating wall, and the display chamber is cooled, and a space is provided inside the heat insulating wall. A cooling plate that is provided in a cooling plate and is provided in a partition plate that forms a display chamber inside and forms a cool air duct between the heat insulating wall and a cool air duct between the partition plate and the rear wall of the heat insulating wall. An evaporator and a cooling air circulation fan constituting the refrigerant circuit, a machine room formed on the rear side of the heat insulating wall, a compressor and a condenser installed in the machine room and constituting the refrigerant circuit of the cooling unit, and A condenser blower, and a compressor is disposed on one side in the left-right direction of the machine room, and the condenser, the condenser blower, the evaporator, and the cooler circulation fan are arranged from the center in the left-right direction of the heat insulating wall. While being biased in the direction away from the compressor An exhaust port and an outside air introduction port are formed on one side and the other side of the machine room, respectively, and the outside air is sucked from the outside air introduction port by a condenser blower, passed through the condenser, and then discharged toward the compressor. Features.

  The invention of claim 2 is the above invention, comprising an evaporating dish disposed below the heat insulating wall and receiving drain water from the evaporator, wherein the condenser is disposed at a position corresponding to the evaporating dish on the bottom surface of the machine room. It is characterized in that a bottom surface exhaust port for allowing the exhaust gas passed through and a wind direction plate for guiding the exhaust gas to the bottom surface exhaust port are provided.

  The invention of claim 3 is characterized in that, in each of the above inventions, a drive motor is provided in the machine room and drives a blower for circulating cold air, and the condenser and the blower for condenser are arranged at a position avoiding the drive motor. And

  The invention of claim 4 is characterized in that, in each of the above inventions, the outside air introduction port is formed from the upper surface to the back surface of the machine room, and the outside air introduction port is provided with a filter.

  According to the present invention, in an open showcase comprising a display chamber having a front surface opened in a heat insulating wall and cooling the display chamber, the display chamber is provided inside the heat insulating wall with a space therebetween, And a partition plate that forms a cool air duct between the heat insulating wall and an evaporator and a cool air that are disposed in the cool air duct between the partition plate and the rear wall of the heat insulating wall and that constitute the refrigerant circuit of the cooling unit. A compressor comprising: a circulation fan; a machine room formed on the rear side of the heat insulating wall; and a compressor, a condenser, and a condenser fan installed in the machine room and constituting a refrigerant circuit of the cooling unit, Are arranged on one side in the left-right direction of the machine room, and the condenser, the condenser fan, the evaporator, and the cool air circulation fan are arranged in a direction away from the compressor from the center in the left-right direction of the heat insulating wall. To cool the front opening of the display room. While the air curtain forming, it is possible to reduce the overall depth of the open showcase in which a machine room at the rear of the display chamber.

  Then, an exhaust port and an outside air introduction port are formed on one side and the other side of the machine room, respectively, the outside air is sucked from the outside air introduction port by the condenser blower, passed through the condenser, and then discharged toward the compressor. Thus, after sucking the outside air from the outside air inlet formed on the other side of the machine room by the condenser blower and cooling the condenser, the compressor is discharged to the compressor disposed on one side of the machine room Can be cooled and then discharged from the exhaust port. Thereby, even if it is an open showcase where the depth dimension of the machine room was miniaturized, the outside air taken in the machine room can be ventilated through the condenser and the compressor without any trouble. Efficient exhaust heat treatment can be realized.

  According to invention of Claim 2, in addition to the said invention, it is arrange | positioned under the heat insulation wall, is equipped with the evaporating dish which receives the drain water from an evaporator, and is in the position corresponding to the evaporating dish of the bottom face of a machine room. By providing a bottom exhaust port for exhausting the exhaust gas that has passed through the condenser and a wind direction plate that guides the exhaust gas to the bottom exhaust port, the exhaust gas that has passed through the condenser can be passed through the evaporation dish. The treatment of the drain water inside can be facilitated.

  According to the invention of claim 3, in addition to each of the above inventions, a drive motor provided in the machine room for driving the cool air circulation blower is provided, and the condenser and the blower for the condenser are arranged at a position avoiding the drive motor. As a result, even in the machine room where the depth dimension is limited, it is possible to arrange the drive motor for the cool air circulation blower, the condenser, and the blower for the condenser without any trouble.

  According to the invention of claim 4, in addition to each of the above inventions, an outside air introduction port is formed from the upper surface to the back surface of the machine room, and a filter is provided at the outside air introduction port. And it becomes possible to introduce outside air into the machine room from the back. Thereby, even when the upper surface or the rear surface is blocked by peripheral devices or walls, the outside air can be taken into the machine room without any trouble. In addition, since the outside air inlet is provided with a filter, dust can be removed.

It is a perspective view of the open showcase which is embodiment of this invention. It is a front view of the open showcase of FIG. It is a rear view of the open showcase of FIG. It is a right view of the open showcase of FIG. It is a bottom view of the open showcase of FIG. It is a perspective view of the open showcase of the state which attached the night board. It is AA sectional drawing of FIG. FIG. 3 is a transverse plan view of FIG. 2. It is a partial perspective front view of the rear part of an open showcase. It is a perspective view of a fan casing. It is a perspective view of a fan casing. It is a vertical front view of a fan casing part. It is a vertical side view of a cold air duct and a display room part.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 is a perspective view of an open showcase 1 according to an embodiment of the present invention, FIG. 2 is a front view of the open showcase 1 of FIG. 1, FIG. 3 is a rear view of the open showcase 1 of FIG. 1 is a right side view of the open showcase 1, FIG. 5 is a bottom view of the open showcase 1 of FIG. 1, FIG. 6 is a perspective view of the open showcase 1 with a nightboard attached, and FIG. FIG. 8 is a cross-sectional plan view of FIG. 2, and FIG. 9 is a partially transparent front view of the rear portion of the open showcase 1.

  In each figure, the open showcase 1 of the embodiment is a table such as a service counter in a store, a shelf for uncooled product display, in particular, between a shelf and a shelf, and a flat table top table. It is installed in a limited space such as above and is used for display and sale of drinks. The open showcase 1 includes a main body 2 composed of a heat insulating wall 3 having a substantially U-shaped cross section that opens to the front surface, and side plates 4 and 4 attached to the left and right of the heat insulating wall 3.

  A partition plate 6 is attached to the inside of the heat insulating wall 3 with a space therebetween. The inside of the heat insulating wall 3 is a display chamber 7 that opens to the front surface, and a space between the partition plate 6 and the heat insulating wall 3 is a cold air duct 8. The front end of the top wall 3A of the heat insulating wall 3 ends on the back side of the front end of the bottom wall 3B. A ceiling 6A of the partition plate 6 is disposed below the top wall 3A with a space therebetween, and a back portion 6B of the partition plate 6 is disposed on the front side of the rear wall 3C of the heat insulating wall 3 with a predetermined space. Is placed. As a result, a series of cold air ducts 8 is formed between the rear wall 3C and the back portion 6B from between the top wall 3A and the top portion 6A.

  A deck pan 9 is attached to the bottom of the display chamber 7 at a distance from the bottom wall 3B of the heat insulating wall 3. A bottom duct communicating with the cold air duct 8 is provided between the deck pan 9 and the bottom wall 3B. It is set to 10. The deck pan 9 is made of a metal plate, and a heating heater (not shown) is attached to the back side of the product placement surface. At the time of heating use, the heating heater generates heat and heats the product on the deck pan 9.

  In the cold air duct 8, an evaporator 20 and a blower 21 for circulating cold air, which will be described later in detail, are disposed. On the lower side of the front end of the cool air duct 8, that is, on the upper edge of the front opening 11 of the display chamber 7, a cool air discharge port 12 communicating with the cool air duct 8 on the outlet side of the cool air circulation blower 21 is formed. A cold air inlet 13 communicating with the cold air duct 8 on the cold air inflow side of the evaporator 20 is formed on the upper side of the front end of the bottom duct 10, that is, on the lower edge of the opening 11 of the display chamber 7.

  In the present embodiment, at the upper edge of the front opening 11 of the display chamber 7, the front edge of the ceiling 6 </ b> A (the partition plate 6 on the upper side of the display chamber 7) that forms the cold air outlet 12 together with the front end of the ceiling wall 3 </ b> A of the heat insulating wall 3. Is formed with a rectifying plate portion 29 that is turned back at a predetermined angle toward the cold air duct 8.

  In addition, a gap that opens upward is formed between the front edge of the deck pan 9 and the front portion of the bottom wall 3B of the heat insulating wall 3 at the lower edge of the front opening 11 of the display chamber 7, and cool air that closes the gap is formed. A suction member 14 is provided. A plurality of the cold air suction ports 13 communicating with the inside of the bottom duct 10 are formed in the cold air suction member 14.

  On the upper surface of the front end portion of the bottom wall 3B of the heat insulating wall 3 located in front of the cold air suction member 14, a holding member 16 having a substantially U-shaped cross section opened upward extends over substantially the entire lower edge of the opening 11. The holding member 16 is provided with a guard 15 made up of a transparent member that allows the inside to be seen through.

  On the other hand, on the rear side of the rear wall 3C of the heat insulating wall 3, a back panel 17 constituting a machine room cover with a predetermined interval is provided, and the rear wall 3C, the back panel 17, the both side plates 3, A machine room 18 surrounded by 3 is configured. The top surface of the machine room 18 is integrally covered with a top panel 19 together with the top surface of the top wall 3A of the heat insulating wall 3. The bottom surface of the machine room 18 is closed by a unit base 26 provided at a predetermined distance from the bottom wall 3B of the heat insulating wall 3. Leg portions 27 are provided at four corners of the bottom surface of the unit base 26.

  A compressor 22 that constitutes a refrigerant circuit of the cooling unit R together with the evaporator 20 is disposed on one unit base 26 in the left-right direction of the machine room 18. The compressor 22 is a device that requires a relatively large depth, and the condenser 23 and the evaporator 20 that form a refrigerant circuit together with the compressor 22 do not require a relatively large depth. Therefore, the rear wall 3C of the heat insulating wall 3 that divides the machine room 18 and the main body 2 side of the showcase 1 has one side in the left-right direction of the machine room 18 in which the compressor 22 is disposed, rather than the other side. A stepped shape projecting to the side (the other side recedes to the machine room 18 side).

  And the condenser 23 and the upper part on the other side separated from the compressor 22 from the center in the left-right direction of the machine room 18 in which the rear wall 3C has retreated to the machine room 18 side (the center line L is indicated by a broken line in FIG. 8) A condenser blower 24 is disposed. The evaporator 20 and the cool air circulation blower 21 are disposed on the other side of the cool air duct 8 whose rear wall 3 </ b> C has retreated toward the machine room 18, which is biased in the direction away from the compressor 22 from the center in the left-right direction.

  Accordingly, the evaporator 20, the cool air circulation blower 21, the condenser 23, and the condenser blower 24 are disposed in such a manner that the compressor 22 having a large depth dimension is disposed on the rear side of the rear wall 3C of the heat insulating wall 3 while avoiding this. By arranging, each device can be installed very efficiently and compactly, and the depth dimension of the entire showcase 1 can be reduced.

  Here, the evaporator 20, the cool air circulation blower 21 and the fan casing 30 disposed in the cool air duct 8 will be described with reference to FIGS. 10 is a perspective view of the fan casing 30 viewed from one side in the left-right direction of the showcase 1, FIG. 11 is a perspective view of the fan casing 30 viewed from the other side in the left-right direction of the showcase 1, and FIG. FIG. 13 is a longitudinal side view of the cold air duct 8 and the display chamber 7, respectively.

  The evaporator 20 includes a pair of tube plates 33, 33, a plurality of heat exchange fins 34 arranged between the tube plates 33, 33 at a predetermined interval, and the tube plates 33, 33, heat exchange fins. 34... And a refrigerant pipe 35 disposed in a meandering manner.

  In the present embodiment, as shown in FIG. 12, at the rear portion of the bottom wall 3B of the heat insulating wall 3, a portion other than the position corresponding to the heat exchange fins 34. Is formed. At the end of the protrusion 3D corresponding to the position where the evaporator 20 is disposed, a recessed portion 3E for mounting the opposite tube plates 33, 33 of the evaporator 20 is formed. The upper surface of the recessed portion 3E is formed to have a predetermined dimension higher than the bottom wall 3B of the heat insulating wall 3. Thus, by placing the tube plates 33 and 33 on the recessed portion 3E, the evaporator 20 can be disposed on the heat insulating wall 3, and the lower surface of the evaporator 20 and the heat insulating wall 3B can be disposed. A cold air flow inlet 36 communicating with the bottom duct 10 is formed therebetween. In the present embodiment, the rear surface of the evaporator 20 is disposed close to or in contact with the front surface of the rear wall 3C of the heat insulating wall 3.

  On the other hand, the cold air duct 8 is disposed with a predetermined distance 40 from the back portion 6B of the partition plate 6, and the cold air inflow side (low pressure side) and the cold air outlet side (high pressure side) of the blower 21 for cold air circulation. A fan casing 30 is provided.

  As shown in the perspective views of FIGS. 10 and 11, the fan casing 30 has a substantially rectangular shape provided on the evaporator 20. The front surface of the fan casing 30 extends to the lower part of the evaporator 20 to close the front surface of the evaporator 20, and the top surface is provided with a predetermined distance from the top wall 3 </ b> A of the heat insulating wall 3. It is done. A rear surface 32 corresponding to the upper side of the evaporator 20 of the fan casing 30 is disposed at a predetermined distance from the rear wall 3C of the heat insulating wall 3, and the rear surface 32 is exposed to the blower 21 for circulating cold air. Opening 31 is formed.

  In this case, the cool air circulation blower 21 disposed in the cool air duct 8 on the upper side of the evaporator 20 sucks cool air exchanged with the evaporator 20 from the front and blows it out toward the rear rear wall 3C. Consists of. A drive motor 21M that rotationally drives the blower 21 for circulating cold air is provided in the machine room 18, and a rotary shaft 21J extending from the drive motor 21 passes through the rear wall 3C of the heat insulating wall 3 to pass through the cold air duct. 8, the air circulation fan 21 is attached to the front end.

  A closing plate 37 extending toward the front surface of the rear wall 2C of the heat insulating wall 3 is formed at the lower end of the rear surface 32 of the fan casing 30 corresponding to the upper surface of the evaporator 20. In addition, a space 40 is formed between the front surface of the fan casing 30 and the back portion 6B of the partition plate 6, and the upper end of the space 40 is in communication with the blowing side of the cool air circulation blower 21, An isolation wall 41 that isolates the cold air inflow side (inside the bottom duct 10) of the evaporator 20 and the blowout side of the cool air circulation blower 21 from the lower end of the front surface of the fan casing 30 between the rear surface of the back portion 6B. Is provided. Thereby, the evaporator 20 side and the blowing side of the air circulation fan 21 are partitioned off.

  A plurality of cold air outlets 42 are formed in the partition plate 6 (back portion 6B) at a position corresponding to the interval 40 communicating with the blowout side of the cool air circulation blower 21. In this embodiment, as shown in FIG. 13, a plurality of cold air outlets 42 are formed extending in the left-right direction of the display chamber 7 at positions corresponding to the lower portion, the center portion, and the upper portion of the display chamber 7. .

  Furthermore, partition walls 38 and 39 extending toward the front surface of the rear wall 2C of the heat insulating wall 3 are formed on both side ends of the rear surface 32 of the fan casing 30 as shown in FIGS. At this time, in the present embodiment, the evaporator 20 is arranged in a direction away from the compressor 22 from the center in the left-right direction of the heat insulating wall 3, so that one side of the heat insulating wall 3 in the left-right direction, this embodiment. In the example, the upper end of the partition wall 38 positioned on the side where the compressor 22 is disposed is formed lower than the upper end of the partition wall 39 positioned on the other side in the left-right direction of the heat insulating wall 3.

  As a result, the side on which the compressor 22 is disposed (the heat insulating wall) between the rear wall 3C of the heat insulating wall 3 and the partition walls 38 and 39 is disposed on the side of the fan casing 30 on the outlet side of the blower 21 for circulating cold air. The cooling air blowing opening 38 </ b> A formed on the one side in the left and right direction of 3 is a cooling air blowing opening 39 </ b> A formed on the side (the other side) farther from the compressor 22 than the center in the left and right direction of the heat insulating wall 3. The opening is larger than that.

  Further, in this embodiment, at the rear end of the ceiling 6A of the partition plate 6 constituting the cold air duct 8 (the partition plate on the upper side of the display chamber 7), as shown in FIG. A baffle plate 43 projecting toward the cold air outlet side to the outlet 12 is provided. A small gap is formed between the baffle plate 43 and the top wall 3A of the heat insulating wall 3 as compared with other portions. As shown in FIG. 8, the baffle plate 43 is provided at a position corresponding to the front of the cool air circulation blower 21.

  With the above configuration, when the compressor 22 and the cool air circulation blower 21 are operated, cool air is sucked into the bottom duct 10 from the cool air suction port 13 formed at the lower edge of the front opening 11, and in the cool air duct 8, The air flows into the evaporator 20 surrounded by the fan casing 30 through the cold air flow inlet 36 opened toward the bottom duct 10. Here, the cool air cooled by exchanging heat with the evaporator 20 by passing through the evaporator 20 rises in the fan casing 30 in the cool air duct 8.

  Then, the cool air rising in the fan casing 30 by the cool air circulation blower 21 is sucked from the front of the cool air circulation blower 21 and blown out toward the rear rear wall 3C. The cold air blown rearward by the cool air circulation blower 21 collides with the front surface of the rear wall 3C and is diffused. Here, since the blowout side of the blower 21 for circulating cold air is partitioned from the evaporator 20 side by the closing plate 37, the cold air diffused on the front surface of the rear wall 3 </ b> C is not only in the upward direction but also in the lateral direction. The cool air is smoothly diffused and discharged from the respective cool air blowing openings 38A and 39A formed on the upper side of the fan casing 30 and on the side of the fan casing 30 on the blow side of the cool air circulation blower 21.

  A part of the cool air discharged from the cool air circulation blower 21 flows into a gap 40 formed between the front surface of the fan casing 30 and the back portion 6B of the partition plate 6. The cold air that has flowed into the space 40 is separated from the cold air inflow side (inside the bottom duct 10) of the evaporator 20 by the isolation wall 41, so the cold air outlet formed in the back portion 6 </ b> B. Cold air is blown out from 42 into the display chamber 7.

  The remaining cool air discharged from the cool air circulation blower 21 passes through the cool air duct 8 between the top portion 6A of the partition plate 6 and the top wall 3A of the heat insulating wall 3, and is on the front opening 11 of the display chamber 7. The air is discharged from the cold air outlet 13 formed at the edge toward the cold air inlet 14 formed at the lower edge of the opening 11. Thereby, a cold air curtain is formed in the front opening 11. A part of the cool air forming the cool air curtain circulates in the display chamber 7, cools the display chamber 7, then descends and returns to the bottom duct 10 from the cool air inlet 13.

  Here, in the present embodiment, as described above, the cool air circulation blower 21 disposed in the cool air duct 8 sucks cool air exchanged with the evaporator 20 from the front and directs it toward the rear rear wall 3C. Since the fan casing 30 that guides the cold air that has collided with the rear wall 3C and diffused upward is provided, while using a propeller fan that is inexpensive and is unlikely to cause performance degradation due to frost adhesion, The depth dimension of the cold air duct 8 can be reduced, and further, the depth dimension of the open showcase 1 can be reduced.

  In particular, in this embodiment, the compressor 22 is disposed on one side in the left-right direction of the machine room 18, and the condenser 23, the condenser blower 24, the evaporator 20, and the cool air circulation blower 21 are connected to the heat insulating wall 3. The depth dimension in the cold air duct 8 is reduced by arranging the drive motor 21M of the blower 21 for circulating cold air in the machine room 18 in a direction away from the compressor in the center in the left-right direction. Can do. Thereby, the depth dimension of the open showcase 1 can be reduced, or the depth dimension of the display chamber 7 can be increased. The cooling efficiency can be improved by providing the drive motor 21M as a heat source not in the cold air duct 8 but in the machine room 18.

  At this time, the evaporator 20 and the cool air circulation blower 21 are arranged in a direction away from the compressor provided on one side of the center in the left-right direction of the heat insulating wall 3, and thus the evaporator 20 is not provided. On the compressor 22 side (one side), the cold air inflow amount tends to decrease. However, as described above, in this embodiment, the cold air blowing opening 38A formed on the side where the compressor 22 is disposed (one side in the left-right direction of the heat insulating wall 3) is the left-right direction of the heat insulating wall 3. The fan casing 30 is formed to be larger than the cold air blowing opening 39A formed on the side (the other side) away from the compressor 22 from the center of the fan casing 30 so that the fan casing 30 has a lot of cold air on the side where the compressor 22 is located. The amount of cold air can be made uniform between the evaporator 20 side and the compressor 22 side.

  Thereby, cold air can be uniformly discharged from the cold air discharge port 12 formed in the upper edge of the opening 11 of the display chamber 7, and the cold air curtain can be made uniform. Furthermore, the cold air outlet 42 formed in the back portion 6B through the space 40 formed between the front surface of the fan casing 30 and the back portion 6B of the partition plate 6 also enters the display chamber 7 equally in the left-right direction. Cold air can be blown out.

  Thereby, cold air can be blown out also from the rear part of the display chamber 7, and the cooling effect in the display chamber 7 can be improved. Moreover, the cold air curtain formed in the front opening of the display chamber 7 can be pushed out from the rear toward the front by the cold air blown from the rear of the display chamber 7. Therefore, the cold air curtain that tends to be pushed into the display chamber 7 due to the influence of disturbance or the like can be pushed outward, and the cold air curtain can be stabilized. In particular, in this embodiment, the cold air outlet 42 is formed at a position corresponding to the upper surface of the top plate 6 </ b> A of the partition plate 6 at the top of the display chamber 7. Thereby, since the cool air can be blown from the display chamber 7 side to the surface of the top plate 6A of the top plate 6A where condensation easily occurs due to the temperature difference, the inconvenience due to the dew condensation can be effectively eliminated.

  Further, in this embodiment, the top plate 6A of the partition plate 6 is provided with a baffle plate 43 that protrudes toward the cold air duct 8 at a position corresponding to the front of the cool air circulation blower 21, thereby discharging cold air. The cold air inflow to a position corresponding to the front of the cool air circulation blower 21 that tends to increase is interfered by the baffle plate 43 protruding to the cold air duct 8 side, and the cold air inflow in the left-right direction can be promoted. Also by this, cold air can be uniformly discharged from the cold air discharge port 12 formed in the upper edge of the opening 11 of the display chamber 7, and the cold air curtain can be made uniform.

  Further, in the present embodiment, as described above, the rectifying plate portion 29 that is folded back toward the cold air duct 8 is formed at the front edge of the top plate 6A of the partition plate 6, so that the cold air on the upper side of the display chamber 7 is formed. The cold air discharged into the duct 8 flows in such a way as to get over the rectifying plate portion 29. As a result, the cold air curtain formed in the front opening 11 can be oriented toward the cold air inlet 13. Thereby, stabilization of a cold air curtain can be aimed at.

  On the other hand, a drain hole 46 penetrating the heat insulating wall 3 is formed in the bottom wall 3B of the heat insulating wall 3 as described above. The bottom wall 3B is inclined low toward the drain hole 46. An evaporating dish storage unit 45 is provided on the lower surface of the bottom wall 3B, and the upper surface of the evaporating dish storage unit 45 extends from the lower front of the bottom wall 3B to the lower side of the machine chamber 18. An open evaporating dish 47 is arranged so as to be able to be pulled out in the front-rear direction. Therefore, drain water flowing down from the display chamber 7, the evaporator 20, etc. flows along the upper surface of the bottom wall 3 </ b> B into the drain hole 46 and is received in the evaporating dish 47 provided below the drain hole 46. .

  At the front end of the evaporating dish 47, a drawer front wall 48 facing the front surface of the open showcase 1 is provided. The leading front wall 48 has a leading notch 49 that is notched upward at the lower edge. Thereby, the evaporating dish 47 can be easily pulled out by putting a finger on the drawer cutout 49 and pulling it forward.

  On the other hand, in the machine room 18 as described above, a compressor 22 is disposed on one side in the left-right direction, and a condenser 23 is disposed on the other side in the left-right direction where the evaporator 20 is disposed. Yes. A drive motor 21M that rotationally drives the blower 21 for circulating cold air is provided in the machine room 18 on the other side in the left-right direction where the evaporator 20 is disposed. Therefore, the condenser 23 and the condenser blower 24 are arranged on the other side in the left-right direction and away from the drive motor 21M of the cold-air circulation blower 21. In the present embodiment, the condenser 23 is disposed on the other side upper part of the machine room 18, and the condenser blower 24 is disposed on the other side lower part of the machine room 18. As a result, even in the machine room 18 where the depth dimension is limited, it is possible to arrange the drive motor 21M of the cool air circulation blower 21, the condenser 23, and the condenser blower 24 without any trouble.

  An outside air inlet 50 for introducing outside air into the machine room 18 is formed in the upper portion of the back panel 17 and the top panel 19 corresponding to the other side of the machine room 18 in which the condenser 23 is disposed. The outside air introduction port 50 is formed from the upper surface to the back surface of the machine room 18, and the outside air introduction port 50 is provided with a filter 51 for removing dust. In the rear panel 17 corresponding to one side of the machine room 18, a plurality of exhaust ports 52 are formed by punching at positions corresponding to the compressor 22.

  The unit base 26 constituting the bottom surface of the machine room 18 is formed with a plurality of bottom surface exhaust ports 53 through which the exhaust gas having passed through the condenser 23 flows out at positions corresponding to the evaporating dish 47 as described above. . On the upper surface of the unit base 26, a wind direction plate 54 that guides the exhaust gas that has passed through the condenser 23 to the bottom surface exhaust port 53 is located at a position corresponding to the bottom surface exhaust port 53 from the condenser 23 side toward the compressor 22 side. It is provided with a low slope. In the present embodiment, two are provided, but the present invention is not limited to this, and may be one or more than three.

  With the above configuration, when the condenser blower 24 is operated, outside air is introduced into the machine chamber 18 from the outside air inlet 50 formed from the upper part of the back panel 17 to the top panel 19. At this time, since the outside air introduction port 50 is provided with the filter 51, the outside air from which dust has been removed by the filter 51 can be introduced into the machine chamber 18.

  The outside air sucked from the outside air inlet 50 by the condenser blower 24 passes through the condenser 23 disposed on the other side of the machine room 18 on the other side in the left and right direction, and then passes to the lower part on the one side in the left and right direction of the machine room 18. It is discharged toward the compressor 22 provided. Thereby, after the condenser 23 is cooled by the outside air sucked from the outside air inlet 50 formed on the other side in the left-right direction of the machine room 18, the compressor 22 arranged on one side of the machine room 18 is also cooled. be able to. And the external air which cooled the compressor 22 is discharged | emitted outside from the discharge port 52 formed in the back panel 17 of the position corresponding to the said compressor 22. FIG.

  Thereby, even in the open showcase 1 in which the depth dimension of the machine room 18 is reduced, the outside air taken into the machine room 18 can be passed through the condenser 23 and the compressor 22 without any trouble. Efficient exhaust heat treatment can be realized.

  In addition, the open showcase 1 may be used by being placed on a shelf for uncooled product display, in particular, between the shelves as described above. Therefore, depending on the installation situation, there may be a case where a gap for introducing outside air cannot be secured between the top surface or the back surface of the open showcase 1. Even in that case, since the outside air introduction port 50 is formed from the upper surface to the back surface of the machine room 18, even if either one is blocked by a peripheral device or a wall, the other It becomes possible to introduce the outside air from the surface, and the outside air can be taken into the machine room 18 without any trouble.

  Further, a part of the exhaust gas after passing through the condenser 23 is guided to the bottom surface exhaust port 53 by wind direction plates 54 and 54 formed on the upper surface of the unit base 26. The exhaust gas guided to the bottom surface exhaust port 53 is blown toward the evaporating dish 47 disposed below the bottom surface exhaust port 53.

  As a result, the exhaust gas heated by the waste heat of the condenser 23 can be ventilated to the evaporating dish 37 that receives the drain water discharged from the evaporator 20 or the like, and the drain water in the evaporating dish 47 can be processed smoothly. can do.

  A plurality of nightboards 57... Closing the opening 11 can be detachably attached to the front opening 11 of the display chamber 7 of the open showcase 1 as described above. The nightboard 57 in the present embodiment is configured by a hard synthetic resin plate material extending from the upper edge to the lower edge of the front opening 11, and a plurality of, for example, four, are arranged side by side. 11 is blocked.

  In the present embodiment, a canopy 58 projecting forward is formed integrally with the top panel 19 at the front end (upper front end) of the ceiling wall 3A of the heat insulating wall 3. Inside the canopy 58, a fluorescent lamp 59 is attached as an illumination device located outside the front opening 11 of the display chamber 7 and extending in the left-right direction of the display chamber 7. A predetermined gap is formed between the canopy 58 and the front end of the fluorescent lamp 59.

  On the other hand, on the rear side of the guard 15 erected on the upper surface of the front end portion of the bottom wall 3B of the heat insulating wall 3 as described above, a cold air suction member 14 having a cold air suction port 13 is provided. An inclined surface 14 </ b> A that is inclined downward toward the guard 15 is formed at the front end portion of the upper surface of the cold air suction member 14. Thus, a nightboard holding portion 60 that is recessed downward is formed between the inclined surface 14A and the guard 15 adjacent to the front side.

  With the above configuration, when the nightboard 57 is attached to the front opening 11 of the display chamber 7, first, the lower end of the nightboard 57 is once inserted into the display chamber 7, and then the upper end of the nightboard 57 is connected to the cold air outlet. 12 is inserted between the fluorescent lamp 59 and the canopy 58 located in front of the lens 12. And after raising the upper end of the nightboard 57 further upwards, the lower end is hold | maintained in the nightboard holding | maintenance part 60 located ahead of the cold air suction inlet 13. FIG.

  Thereby, the front board 11 of the display chamber 7 can be obstruct | occluded located in front of a cold air curtain by attaching the said night board 57 outside business hours. Therefore, the inconvenience that the cool air in the display chamber 7 leaks outside from the front opening 11 can be effectively suppressed. Thereby, it is possible to improve the cooling efficiency outside business hours.

  In particular, in this embodiment, the lower end of the nightboard 57 is held by the nightboard holding part 60 provided on the display chamber 7 side with respect to the guard 15, so that the dew condensation water generated due to the temperature difference between the inside and outside of the display chamber 7 is It can be discharged onto the bottom wall 3B of the heat insulating wall 3 along the night board 57. Thereby, the inconvenience that condensed water leaks outside can be avoided, and safe and hygienic use can be realized. In addition, the dew condensation water discharged | emitted on the bottom wall 3B is received in the evaporating dish 47 arrange | positioned under the heat insulation wall 3, as mentioned above, and is evaporated smoothly.

  On the other hand, on the lower side of the evaporating dish 47, a nightboard storage portion 61 for storing the nightboards 57 in a stacked state is formed. The nightboard storage unit 61 has a substantially U-shaped cross section with an open front surface, and the upper end thereof is attached to the bottom surface of the evaporating dish storage unit 45.

  Thereby, when the nightboard 57 is not required, each nightboard 57 is inserted from the front opening into the nightboard storage portion 61 provided below the heat insulating wall 3, in this embodiment, below the evaporating dish 47. Can be stored without hindrance. Thus, unlike the night cover housed in the vicinity of the front opening 11, the night board 57 in the housed state can be housed under the heat insulating wall 3 without hindrance, so the cold air formed in the front opening 11 The inconvenience of hindering the cool airflow of the curtain can be avoided.

  In the present embodiment, through holes 57 </ b> A that allow fingers to be inserted are formed at the end portions of the nightboards 57. Therefore, when the nightboard 57 is stored in the nightboard storage portion 61, each nightboard 57 is stored in a superposed state so that the through hole 57 is on the front side.

  And when taking out the night board 57, by inserting a finger toward the night board 57 side from the notch 49 formed in the lower edge of the front wall 47 for drawing out of the evaporating dish 47 provided on the upper side as described above. Then, the fingers are pulled forward from above through the through holes 57A of the night boards 57. Thereby, each nightboard can be easily taken out at once without the evaporating dish 47 located on the upper side being in the way. Thereby, the convenience can be improved.

R Cooling unit 1 Open showcase 2 Main body 3 Heat insulation wall 3A Top wall 3B Bottom wall 3C Rear wall 4 Side plate 6 Partition plate 6A Top 6B Back 7 Display room 8 Cold air duct 9 Deck pan 10 Bottom duct 11 Front opening 12 Cold air outlet 13 Cold air inlet 17 Rear panel (machine room cover)
18 Machine room 19 Top panel 20 Evaporator 21 Cooling air circulation blower (propeller fan)
21M Drive motor 21J Rotating shaft 22 Compressor 23 Condenser 24 Condenser blower 29 Rectifier plate portion 30 Fan casing 31 Blower opening 32 Rear surface 36 Cold air flow inlet 37 Closure plate 38, 39 Partition wall 38A, 39A Cold air blowout opening 40 Interval 41 Separation Wall 43 Baffle Plate 47 Evaporating Dish 48 Drawer Front Wall 49 Drawer Notch 50 Outside Air Inlet 51 Filter 52 Exhaust Port 53 Bottom Exhaust Port 54 Wind Direction Plate 57 Night Board 60 Night Board Holding Unit 61 Night Board Storage Unit

Claims (4)

In an open showcase comprising a display room whose front surface opens in a heat insulating wall and cooling the display room,
A partition plate that is provided inside the heat insulating wall with an interval, configures the display chamber on the inner side, and forms a cold air duct between the heat insulating wall;
An evaporator and a cool air circulation blower disposed in the cool air duct between the partition plate and the rear wall of the heat insulating wall, and constituting a refrigerant circuit of a cooling unit;
A machine room configured on the rear side of the heat insulating wall;
A compressor, a condenser, and a condenser fan installed in the machine room and constituting a refrigerant circuit of the cooling unit;
The compressor is disposed on one side in the left-right direction of the machine room, and the condenser, the blower for condenser, the evaporator, and the blower for circulating cold air are arranged from the center in the left-right direction of the heat insulating wall from the compressor. The exhaust port and the outside air introduction port are formed on one side and the other side of the machine room, respectively, and the condenser blower sucks outside air from the outside air introduction port, and the condenser An open showcase characterized in that after being passed through, it is discharged toward the compressor.   An evaporating dish is provided below the heat insulating wall and receives drain water from the evaporator, and the exhaust gas passed through the condenser flows out to a position corresponding to the evaporating dish on the bottom surface of the machine room. The open showcase according to claim 1, further comprising: a bottom exhaust port of the slab and a wind direction plate for guiding the exhaust to the bottom exhaust port.   3. The apparatus according to claim 1, further comprising a drive motor provided in the machine room for driving the cool air circulation blower, wherein the condenser and the condenser blower are disposed at positions avoiding the drive motor. Open showcase described in.   The open according to any one of claims 1 to 3, wherein the outside air introduction port is formed from the upper surface to the back surface of the machine room, and a filter is provided at the outside air introduction port. Showcase.

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