JP3634537B2 - Low temperature showcase - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a low temperature showcase in which two display rooms, an upper display room and a lower display room, are arranged.
[0002]
[Prior art]
It has been studied to arrange an upper display room and a lower display room in a low-temperature showcase, and to provide an upper cooler for cooling the upper display room and a lower cooler for cooling the lower display room.
[0003]
[Problems to be solved by the invention]
By the way, the load on the cooler differs depending on, for example, the outside air temperature, the frequency of putting in and taking out goods, the type of display room, and the like. In some cases, the load on the upper cooler is small and the load on the lower cooler is large. In such a case, the cooling capacity of the upper cooler is sufficient, but the cooling capacity of the lower cooler may be insufficient. Then, although the cooling capacity of the upper cooler has a margin, the cooling of the lower display chamber becomes insufficient.
[0004]
The present invention is to solve the above-described problems, and provides a low-temperature showcase having a simple structure and capable of assisting the lower cooler of the lower display chamber by the upper cooler of the upper display chamber. With the goal.
[0005]
[Means for Solving the Problems]
The low-temperature showcase of the present invention is disposed on the lower side of the upper cooling case part (1) having the upper display chamber (19) and the cool air flow path (14) for the upper display room, and below the upper cooling case part. A lower cooling case part (2) having a lower display chamber (51) and a cooling air flow path (46) for the lower display room, and an upper drain pipe (76) for discharging drain water from the upper cooling case part to the lower cooling case part And a machine room (3) disposed below the lower cooling case part, and a lower drain pipe (78) for discharging drain water from the lower cooling case part to the machine room.
[0006]
In the low temperature showcase according to the first aspect of the present application, the upper cooler (16) and the upper cooler blower (17) are disposed in the cool air flow path for the upper display chamber. A discharge port (14a) for discharging cool air to the upper display chamber is formed at one end of the cool air flow path, and a suction port (14b) for sucking air from the upper display chamber is formed at the other end. When the upper cooler blower operates, the upper display chamber cool air flow path is divided into a high pressure space (14d) having a higher atmospheric pressure than the atmosphere and a low pressure space (14c) having a lower atmospheric pressure than the high pressure space. The drain water inlet (76a) of the upper drain pipe is disposed in the high pressure space of the cool air flow path for the upper display chamber, while the drain water outlet (76b) of the upper drain pipe has a pressure lower than the atmospheric pressure of the drain water inlet. It is arranged in the lower display room or the cool air flow path for the lower display room.
[0007]
In the low-temperature showcase according to the second aspect of the present application, the lower cooler (47) and the lower cooler blower (48) are disposed in the cool air flow path for the lower display chamber. A discharge port (46a) for discharging cool air to the lower display chamber is formed at one end of the cool air flow path, and a suction port (46b) for sucking air from the lower display chamber is formed at the other end. When the lower cooler blower operates, the lower display chamber cool air flow path is divided into a high pressure space (46d) having a higher atmospheric pressure than the atmosphere and a low pressure space (46c) having a lower atmospheric pressure than the high pressure space. In the low pressure space of the cool air flow path for the lower display room, the drain water outlet of the upper drain pipe is disposed, while the drain water inlet of the upper drain pipe is at a pressure higher than the pressure of the drain water outlet. Or it arrange | positions at the cold flow path for upper display rooms.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of a low temperature showcase according to the present invention will be described with reference to FIGS. FIG. 1 is a perspective view of a low-temperature showcase according to the present invention. FIG. 2 is a perspective view of a low-temperature showcase for explaining the flow of cold air and drain water. FIG. 3 is a longitudinal sectional view of a low temperature showcase.
[0009]
In the low temperature showcase, the cooling case sections 1 and 2 are arranged at the upper part, and the machine room 3 is arranged at the lower part. The cooling case parts 1 and 2 are composed of an upper cooling case part 1 and a lower cooling case part 2 arranged on the lower side of the upper cooling case part 1, and the upper cooling case part 1 is a closed type, The case part 2 is an open type.
[0010]
The upper cooling case part 1 is a glass plate 6 that is a transparent plate at the front part of the upper surface, the upper part of the front surface and the upper part of both side surfaces, the rear part of the upper surface, the lower part of the front surface and the lower part of both side surfaces are the heat insulating plates 8 Is covered with a heat insulating rear wall 9 for the upper cooling case portion. The heat insulating plate 8 and the heat insulating rear wall 9 for the upper cooling case portion are made of a heat insulating material made of a foamed synthetic resin, for example, a hard foamed polyurethane, or the like, which is covered with a plate material such as a stainless steel plate or a coated steel plate. Further, a partition wall 12 made of a stainless steel plate or the like is disposed between the upper cooling case portion 1 and the lower cooling case portion 2. Above the partition wall 12, which is the bottom wall of the upper cooling case portion 1, a bottom plate 13 is disposed with a gap, and a space between the bottom plate 13 and the partition wall 12 serves as a cooling chamber 14. A blower cover 15 is provided inside the cooling chamber 14 serving as the cool air flow path for the upper display chamber, an upper cooler blower 17 is provided at the front opening of the blower cover 15, and an upper cooler 16 is provided within the blower cover 15. Is arranged. A cool air discharge port 14 a is formed on the rear side of the bottom plate 13 that is one end portion of the cooling chamber 14, and a suction port 14 b is formed on the front side of the bottom plate 13 that is the other end portion of the cooling chamber 14. .
[0011]
A space surrounded by the glass plate 6, the heat insulating plate 8 on the upper surface, the heat insulating rear wall 9 for the upper cooling case portion, and the bottom plate 13 is an upper display chamber 19. A display shelf 21 is detachably provided in the upper display chamber 19. Further, a product opening 23 for taking out or storing the product in the upper display chamber 19 is formed in the heat insulating rear wall 9 for the upper cooling case portion. The product opening 23 has a pair of left and right glasses as rear doors. A door 26 is slidably provided and closes the commodity opening 23 so as to be freely opened and closed.
[0012]
The lower cooling case portion 2 is a partition wall 12 whose upper surface is the top wall of the lower cooling case portion 2, the rear surface is a heat insulating rear wall 31 for the lower cooling case portion, and the lower surface is a heat insulating partition wall 32 between the machine chamber 3 and Both side surfaces are covered with a heat insulating side plate 33 made of a heat insulating material having a glass plate portion, and a product opening 36 for taking out or storing a product is formed on the front surface. And the heat insulation rear wall 31 for lower cooling case parts, and the heat insulation partition 32 are comprised with the heat insulating material.
[0013]
In addition, the heat insulation rear wall 31 for the lower cooling case portion is formed integrally with the heat insulation rear wall 9 for the upper cooling case portion 1 disposed on the upper side, and after the heat insulation for the upper cooling case portion. A step portion is formed at the boundary between the heat insulating rear wall 9 for the upper cooling case portion and the heat insulating rear wall 31 for the lower cooling case portion. And the thickness of the heat insulation rear wall 31 for lower cooling case parts is a little thinner than the thickness of the heat insulation rear wall 9 for upper cooling case parts. Further, the heat insulating side plate 33 is formed integrally with the heat insulating plate 8 constituting the side wall of the cooling chamber 14 of the upper cooling case portion 1.
[0014]
And the partition top plate 41 and the partition wall board 42 which consist of metal plates which do not rust, such as a coated steel plate and stainless steel, have an appropriate space | interval from the inner surface of the partition 12, the heat insulation rear wall 31 for lower cooling cases, and the heat insulation partition 32. And the division floor board 43 is arrange | positioned. A space between the partition top plate 41, the partition wall plate 42 and the partition floor plate 43, the partition wall 12, the heat insulation rear wall 31 for the lower cooling case portion and the heat insulation partition wall 32 becomes a cold air flow path 46. The cool air flow path 46 which is the cool air flow path for the lower display room is provided with a blower cover 45 below the partition floor plate 43, and a lower cooler blower 48 is provided at the front opening of the blower cover 45. A lower cooler 47 is disposed on the rear side of the partition wall plate 42. Then, both side plates 45 a of the blower cover 45 extend to the lower end of the lower cooler 47.
[0015]
Further, a cold air discharge port 46 a is formed on the front side of the partition top plate 41 that is one end portion of the cool air flow channel 46, and a suction port 46 b is formed on the front side of the partition floor plate 43 that is the other end portion of the cold air flow channel 46. ing. A product display shelf 52 is provided in a lower display chamber 51 serving as a storage room surrounded by the heat insulating side plate 33, the partition top plate 41, the partition wall plate 42 and the partition floor plate 43.
[0016]
The machine room 3 is provided with a condenser 56, a condenser blower 57, a compressor (not shown), and the like. The condenser 56, the compressor and the above-described upper cooler 16 and lower cooler 47 perform a refrigeration cycle. It is composed. The machine room 3 is covered with side panels 61 on both sides, a front panel 62 on the front, and a back panel 63 on the back. The front panel 62 has an intake port 62a, and the rear panel 63 has an exhaust port 63a.
[0017]
The upper end of the back panel 63 extends upward from the machine room 3. The extending portion 63b of the back panel 63 is spaced from the rear surface of the lower cooling case portion heat insulating rear wall 31, and a space is formed between the extending portion 63b and the lower cooling case portion heat insulating rear wall 31. This space is an exhaust duct 66. The upper end of the exhaust duct 66 extends to the vicinity of the upper end of the heat insulating rear wall 31 for the lower cooling case portion, and the lateral width of the exhaust duct 66 is substantially the same as the horizontal width of the heat insulating rear wall 31 for the lower cooling case portion. The exhaust duct 66 covers substantially the entire rear surface of the heat insulating rear wall 31 for the lower cooling case portion. The lower end of the exhaust duct 66 communicates with the rear end portion of the machine room 3, and an exhaust port 68 is formed at the upper end of the exhaust duct 66. The exhaust port 68 is opened upward so that air can be discharged upward.
[0018]
Next, the drain water drainage structure will be described. The upper drain pipe 76 that discharges the drain water of the upper cooling case portion 1 to the lower cooling case portion 2 is provided so as to extend one by one on the left side and the right side in the cold air flow path 46 of the lower cooling case portion 2. Yes. A drain water inlet 76 a that is one end of the upper drain pipe 76 is disposed on both sides of the rear end of the partition wall 12, that is, on both sides of the rear side of the upper cooler 16. The drain water outlet 76b which is an end portion is disposed on both the left and right sides on the heat insulating partition wall 32, that is, on the outer sides of the blower cover 45 of the lower cooling case portion 2. A gap is formed between the lower end of the side plate 45 a of the blower cover 45 and the heat insulating partition wall 32, and drain water can flow into the blower cover 45 through this gap.
[0019]
The lower drain pipe 78 is disposed in the machine room 3, and a drain water inlet 78 a that is the upper end of the lower drain pipe 78 opens near the center of the heat insulating partition wall 32, that is, near the center of the blower cover 45. . The upper surface of the heat insulating partition wall 32 is inclined so as to be on the lower side as it approaches the drain water inlet 78a. On the other hand, a drain water outlet (not shown) which is a lower end portion of the lower drain pipe 78 is connected to a drain outlet or the like, and drains the drain water out of the low temperature showcase. The lower drain pipe 78 is provided with cold air outflow prevention means (not shown) such as a U trap so that the cold air in the lower cooling case portion 2 does not flow out into the machine room 3 or the like. The upper drain pipe 76 is not provided with cold air outflow prevention means such as a U trap, and is configured to allow the cold air to flow through the upper drain pipe 76.
[0020]
When the refrigeration cycle of the low-temperature showcase configured as described above is operated, the upper cooler 16 and the lower cooler 47 are cooled to cool surrounding air. As shown in FIGS. 2 and 3, in the upper cooling case portion 1, the upper cooler blower 17 causes the cooler air cooled by the upper cooler 16 to enter the upper display chamber 19 from the cool air discharge port 14a. The air is discharged and the air in the upper display chamber 19 is sucked into the cooling chamber 14 from the suction port 14b. In this way, the upper display chamber 19 is cooled while forced air is circulated.
[0021]
In the lower cooling case section 2, the lower cooler blower 48 discharges the cool air cooled by the lower cooler 47 into the lower display chamber 51 from the cool air discharge port 46 a. The cool air discharged into the lower display chamber 51 flows along the product opening 36 of the lower cooling case portion 2 to form an air curtain 71 and flows into the cool air flow path 46 from the suction port 46b. In this way, the lower display chamber 51 is cooled while forced air is circulated.
[0022]
And since frost adheres to the upper cooler 16 of the upper cooling case part 1 and the lower cooler 47 of the lower cooling case part 2, defrosting is sometimes performed and defrosted water is generated. Drain water such as defrost water from the upper cooler 16 flows into the upper drain pipe 76 from the drain water inlet 76a, and is discharged from the drain water outlet 76b to the left and right sides of the heat insulating partition wall 32. The drain water discharged onto the heat insulating partition wall 32 enters the blower cover 45 through a gap between the side plate 45a of the fan cover 45 and the heat insulating partition wall 32 as shown by a double line arrow in FIG. . On the other hand, drain water such as defrost water from the lower cooler 47 falls on the heat insulating partition wall 32 and flows into the blower cover 45. In this way, drain water such as defrost water from the upper cooler 16 and defrost water from the lower cooler 47 flows into the blower cover 45 and then flows into the lower drain pipe 78 from the drain water inlet 78a. Then, it is discharged out of the low temperature showcase through the machine room 3.
[0023]
Further, in the upper cooling case portion 1, the atmospheric pressure in the upper display chamber 19 is approximately atmospheric pressure. When the upper cooler blower 17 is operated, the air pressure between the suction port 14b and the upper cooler blower 17, that is, the upstream side of the upper cooler blower 17, becomes lower, and the upper cooler blower 17 and the cool air discharge port 14a In other words, the pressure on the downstream side of the upper cooler blower 17 becomes higher. In this manner, the inside of the cooling chamber 14 includes a low pressure space 14c having a low pressure formed in a portion close to the upstream side and the upstream side, and a high pressure space 14d having a high pressure formed in a portion close to the downstream side and the downstream side. Divided into Thus, the atmospheric pressure in the low pressure space 14c is lower than the atmospheric pressure in the high pressure space 14d. Similarly, also in the lower cooling case part 2, the atmospheric pressure in the lower display chamber 51 is substantially atmospheric pressure, and when the lower cooler blower 48 is operated, it is between the suction port 46b and the lower cooler blower 48, that is, for the lower cooler. The pressure on the upstream side of the blower 48 is low, and the pressure between the lower cooler blower 48 and the cool air discharge port 46a, that is, the downstream side of the lower cooler blower 48 is high. The inside of the cold air flow path 46 is divided into a low-pressure space 46c having a low atmospheric pressure formed in a portion near the upstream side and the upstream side, and a high-pressure space 46d having a high atmospheric pressure formed in a portion near the downstream side and the downstream side. . Thus, the pressure in the low pressure space 46c is lower than the pressure in the high pressure space 46d.
[0024]
The drain water inlet 76 a of the upper drain pipe 76 is disposed in the high pressure space 14 d of the cooling chamber 14, while the drain water outlet 76 b of the upper drain pipe 76 is disposed in the low pressure space 46 c of the cool air flow path 46. In this way, since there is a difference in atmospheric pressure between the drain water inlet 76a and the drain water outlet 76b, the cool air in the cooling chamber 14 of the upper cooling case portion 1 passes through the upper drain pipe 76 and passes through the lower cooling case portion. 2 is supplied to the cold air flow path 46. The cold air supplied to the cold air flow path 46 flows forward along the side plate 45a of the blower cover 45 and is sucked into the lower cooler blower 48 as shown by a single line arrow in FIG. Yes. Then, it merges with the air sucked from the suction port 46 b of the cold air flow channel 46, flows through the cold air flow channel 46, and is discharged from the cold air discharge port 46 a into the lower display chamber 51.
[0025]
By the way, the drain water inlet 78a of the lower drain pipe 78 is disposed in the high pressure space 46d of the cool air flow path 46, but the lower drain pipe 78 is provided with a cool air outflow prevention means such as a U trap. Air does not flow. Therefore, it is possible to prevent the cold air in the lower cooling case portion 2 from flowing out of the low temperature showcase through the lower drain pipe 78.
[0026]
Further, in the machine room 3, when the condenser blower 57 is operated, the outside air is sucked from the intake port 62a of the front panel 62, the condenser 56 is air-cooled, and the air warmed by the condenser 56, that is, a part of the warm air, Exhaust air is exhausted rearward from the exhaust port 63 a of the back panel 63, while the remaining warm air is exhausted upward from the exhaust port 68 via the exhaust duct 66. The warm air exhausted from the exhaust port 68 flows upward along the rear surface of the glass door 26. The glass door 26 is heated by this warm air flow to prevent condensation on the glass door 26 of the upper cooling case portion 1.
[0027]
The exhaust port 63a of the back panel 63 is configured to be openable and closable. When the glass door 26 has a lot of condensation, for example, when the outside air is warm and humid, the exhaust port 63a of the back panel 63 is closed, The amount of exhaust from the exhaust port 68 of the exhaust duct 66 is increased. On the other hand, when the condensation on the glass door 26 is small, for example, when the outside air is cold and dry, the exhaust port 63a of the rear panel 63 is opened to reduce the exhaust amount from the exhaust port 68 of the exhaust duct 66. Yes. In this way, by configuring the exhaust port 63a to be openable and closable, it is possible to prevent the glass door 26 from being heated more than necessary.
[0028]
In such a low-temperature showcase, the temperature of the upper display chamber 19 and the temperature of the lower display chamber 51 are set to substantially the same value. In the upper display chamber 19, items that dislike drying such as cakes are displayed. ing. And according to a purchaser's order, a salesclerk opens the glass door 26 and takes out goods. On the other hand, in the lower display chamber 51, pudding, sandwiches, and the like contained in the container are displayed, and a customer can freely take out from the product opening 36.
[0029]
And since the upper cooling case part 1 is a closed type and there is little outflow of cold air, the cooling capacity of the upper cooler 16 has a margin. On the other hand, the lower cooling case portion 2 is an open type, and the outflow of cold air from the product opening 36 is larger than that of the upper cooling case portion 1, and the lower cooler 47 is loaded with a larger load than the upper cooler 16. The cooling capacity may not be enough. However, in this embodiment, the upper drain pipe 76 is used to supply cool air from the upper cooling case portion 1 to the lower cooling case portion 2 side. Therefore, the upper cooler 16 can assist the cooling of the lower display chamber 51 of the lower cooling case portion 2.
[0030]
As described above, in the embodiment, the drain water inlet 76 a that is one end portion of the upper drain pipe 76 is connected to the high-pressure space 14 d of the cooling chamber 14 of the upper cooling case portion 1, while at the other end of the upper drain pipe 76. Since a certain drain water outlet 76b is disposed in the low-pressure space 46c of the cool air flow path 46 of the lower cooling case section 2, the cool air in the cooling chamber 14 can be smoothly supplied to the cool air flow path 46. Further, this cold air flows in the same direction as the drain water, and the drain water can be drained more smoothly.
[0031]
Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims. Can be done. Examples of modifications of the present invention are illustrated below.
(1) In the embodiment, the upper cooling case portion 1 is a closed type and the lower cooling case portion 2 is an open type, but the upper cooling case portion 1 is an open type or the lower cooling case portion 2 is a closed type. It is also possible to do. The low temperature showcase can be refrigerated or frozen. Furthermore, the products to be displayed are not limited to cakes, puddings, sandwiches, etc., and other products can be displayed as appropriate.
[0032]
(2) In the embodiment, the temperature of the upper display chamber 19 and the temperature of the lower display chamber 51 are set to substantially the same value, but may be different values. If the temperature of the upper display chamber 19 is set lower than the temperature of the lower display chamber 51, the upper cooler 16 can efficiently assist the cooling of the lower display chamber 51.
(3) In the embodiment, one condenser 56 constitutes a refrigeration cycle with two coolers of the upper cooler 16 and the lower cooler 47, but two condensers 56 are provided, It is also possible for the condenser 56 to constitute the refrigeration cycle with the upper cooler 16 and the other condenser 56 to constitute the refrigeration cycle with the lower condenser 47.
[0033]
(4) In the embodiment, the drain water inlet 76a of the upper drain pipe 76 is in the high-pressure space 14d of the cooling chamber 14 that is the cool air flow path for the upper display chamber, while the drain water outlet 76b of the upper drain pipe 76 is If the atmospheric pressure at the drain water inlet 76a of the upper drain pipe 76 is higher than the atmospheric pressure at the drain water outlet 76b, it is disposed in the low pressure space 46c of the cold air flow path 46 of the lower display chamber cold air flow path. The drain water inlet 76a and the drain water outlet 76b can be arranged at appropriate locations in the display chamber and the cold air flow path.
(5) The structure and arrangement of the cool air flow path, the cooler, the cooler blower, and the like can be changed as appropriate.
[0034]
【The invention's effect】
In the low temperature showcase of the present invention, the drain water in the upper cooling case portion flows into the lower cooling case portion through the upper drain pipe, and merges with the drain water in the lower cooling case portion, and passes through the lower drain pipe. Have been discharged. In this way, the lower drain pipe is also used for draining drain water from the upper cooling case portion and the lower cooling case portion. Therefore, the drain pipe of the drain pipe is more than the case of providing a drain pipe dedicated to drain the drain water of the upper cooling case part into the machine room and a drain pipe dedicated to drain the drain water of the lower cooling case part to the machine room. The amount of piping can be reduced, and the number of parts and cost can be reduced.
[0035]
In the low-temperature showcase configured as described above, in the invention according to claim 1 of the present application, the drain water inlet of the upper drain pipe is disposed in the high-pressure space of the cool air flow path for the upper display chamber, The outlet is disposed in the lower display chamber or the cool air flow path for the lower display chamber that is lower in pressure than the pressure at the drain water inlet. Due to the pressure in the high pressure space, the cold air in the upper display chamber cool air flow path flows into the lower display chamber or the lower display chamber cool air flow path through the upper drain pipe. As a result, the cooler of the upper cooling case part can assist the cooling in the lower cooling case part by effectively using the upper drain pipe without separately providing a cooling air duct.
[0036]
Further, in the invention according to claim 2 of the present application, the drain water outlet of the upper drain pipe is disposed in the low pressure space of the cool air flow path for the lower display chamber, while the drain water inlet is more than the pressure of the drain water outlet. It is arrange | positioned in the cold air flow path for the upper display room or upper display room used as high pressure. Due to the suction force of the low-pressure space, the cold air in the upper display chamber or the upper display chamber cool air flow path flows into the lower display chamber cool air flow path through the upper drain pipe. As a result, the cooler in the upper cooling case part can assist the cooling in the lower cooling case part by effectively using the upper drain pipe without providing a separate duct for cold air.
[Brief description of the drawings]
FIG. 1 is a perspective view of a low-temperature showcase according to the present invention.
FIG. 2 is a perspective view of a low-temperature showcase for explaining the flow of cold air and drain water.
FIG. 3 is a longitudinal sectional view of a low temperature showcase.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Upper cooling case part 2 Lower cooling case part 3 Machine room 14 Cooling room (Cooling air flow path for upper display room)
14a Cold air discharge port 14b Suction port 14c Low pressure space 14d High pressure space 16 Upper cooler 17 Upper cooler blower 19 Upper display chamber 46 Cold air flow path (Cold air flow path for lower display room)
46a Cold air outlet 46b Suction port 46c Low pressure space 46d High pressure space 47 Lower cooler 48 Lower cooler 48 Lower cooler fan 51 Lower display chamber 76 Upper drain pipe 76a Drain water inlet 76b Drain water outlet 78 Lower drain pipe

Claims (2)

An upper cooling case part comprising an upper display room and a cold air flow path for the upper display room;
An upper cooler disposed in the cool air flow path for the upper display room and a blower for the upper cooler;
A discharge port that is formed at one end of the cool air flow path for the upper display chamber and discharges cool air to the upper display chamber;
Formed at the other end of the cool air flow path for the upper display chamber, and a suction port for sucking air in the upper display chamber;
A lower cooling case portion that is disposed below the upper cooling case portion, and includes a lower display chamber and a lower display chamber cold air flow path;
An upper drain pipe for discharging drain water from the upper cooling case part to the lower cooling case part;
A machine room disposed below the lower cooling case,
A lower drain pipe for discharging drain water from the lower cooling case part to the machine room,
The upper display chamber cool air flow path is divided into a high pressure space having a higher atmospheric pressure than the atmosphere and a low pressure space having a lower atmospheric pressure than the high pressure space by the operation of the blower for the upper cooler,
The drain water inlet of the upper drain pipe is disposed in the high pressure space of the cool air flow path for the upper display room,
The low temperature showcase, wherein the drain water outlet of the upper drain pipe is disposed in a lower display chamber or a lower display chamber cold air flow path whose pressure is lower than the pressure of the drain water inlet. An upper cooling case part comprising an upper display room and a cold air flow path for the upper display room;
A lower cooling case portion that is disposed below the upper cooling case portion, and includes a lower display chamber and a lower display chamber cold air flow path;
A lower cooler disposed in the cool air flow path for the lower display room and a blower for the lower cooler;
A discharge port that is formed at one end of the cool air flow path for the lower display chamber, and discharges cool air to the lower display chamber;
Formed at the other end of the cool air flow path for the lower display chamber, and a suction port for sucking air in the lower display chamber;
An upper drain pipe for discharging drain water from the upper cooling case part to the lower cooling case part;
A machine room disposed below the lower cooling case,
A lower drain pipe that discharges drain water from the lower cooling case section to the machine room, and the lower display chamber cool air flow path includes a high pressure space having a higher atmospheric pressure than the atmosphere by operating the lower cooler blower, and a high pressure Divided into a low-pressure space with a lower atmospheric pressure than the space,
The drain water outlet of the upper drain pipe is disposed in the low pressure space of the cool air flow path for the lower display room,
A low-temperature showcase, wherein the drain water inlet of the upper drain pipe is arranged in an upper display chamber or an upper display chamber cold air flow path whose pressure is higher than the pressure of the drain water outlet.

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