JP3710921B2 - Open showcase - Google Patents

Abstract

PROBLEM TO BE SOLVED: To utilize low-temperature drain as a low heat source and reduce dust and the like, flowing into a storage chamber, effectively by a method wherein an absorbing member, absorbing the drain generated in a cooler, is provided in a cold air passage. SOLUTION: An open showcase 1 is provided with a storage chamber 3, refrigerating and receiving commodities and the like, and a recovered cold air passage 5, provided blow the storage chamber 3, while the recovered cold air passage 5 is partitioned from the storage chamber 3 through a bottom plate 7. The recovered cold air passage 5 is provided with a suction port 19, a draining port 21, a ventilating fan 23 for cooler and an absorbing member 25, absorbing drain. The suction port 19 is an opening, communicating the storage chamber 3 with the recovered cold air passage 5 and guides the cold air in the storage chamber 3 into the recovered cold air passage 5. The draining port 21 is connected to a draining pipe and leads excessive drain, not absorbed by the absorbing member 25, into the draining pipe. The ventilating fan 23 ventilates cold air, lead from the suction port 19, into the first and second cold air passages 9, 13 whereby the cold air in the showcase is circulated. The absorbing member 25 is formed of a material having rigidity and capillary effect.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an open showcase that cools the interior by suppressing the entry of heat by forming an air curtain.
[0002]
[Prior art]
Conventionally, in an open showcase, cool air is guided from the storage room, and the cool air is cooled by passing the guided cool air through a cooler, and the cooled cool air is transferred from the upper front of the case to the front of the storage room. An open showcase has been proposed in which an air curtain is formed by supplying and cooling the storage room while enhancing the heat insulation effect between the storage room and the outside. In addition, in order to enhance the heat insulation effect between the storage room and the outside, an open show in which cold air led from the storage room is divided into a plurality of cold air passages and blown out from the plurality of cold air passages to form an air curtain consisting of a plurality of layers. Cases have been proposed.
[0003]
In such an open showcase, since frost adheres to the cooler when the cooler is in an operating state, the defrosting operation is usually performed in a predetermined cycle in order to remove the frost. As the main defrosting operation method, a method such as turning the cooler in a non-operating state and rotating only the cooler blower or sending the heat of a heater provided in advance to the cooler is adopted. Frost adhering to is removed.
[0004]
When such a defrosting operation is performed, the frost adhering to the cooler is melted and low-temperature drain is generated. Conventionally, this drain has been drained to a drain tank, a drain tray or the like via a drain port or the like. . In the open showcase, the cool air forming the air curtain sucks external dust and the like, so the sucked dust and the like flow into the cooler together with the cool air, and the dust and the like adhere to the cooler along with the frost. In this way, if the cooler is interposed in the cool air passage, dust and the like adhere to the cooler and are removed, but in an open showcase having a cool air passage not including the cooler, it is sucked in by the air curtain. Dust and the like may be blown into the storage chamber as it is.
[0005]
[Problems to be solved by the invention]
As described above, when the low-temperature drain generated in the cooler is drained to the drain tank or drain tray, there is a problem that the cold heat of the drain cannot be used efficiently. In addition, when dust or the like sucked by the air curtain is blown out to the storage room as it is, there is a problem that it adheres to products etc. displayed in the storage room.
[0006]
Therefore, an object of the present invention is to provide an open showcase that can utilize low-temperature drain as a low heat source.
[0007]
Another object of the present invention is to provide an open showcase that can effectively reduce dust and the like flowing into a storage room.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 is characterized in that the cool air collected from the storage chamber is guided and a cooler is interposed between the first cool air passage and behind the first cool air passage. In an open showcase comprising a second cold air passage for guiding cold air collected from the chamber, a container-shaped saucer portion that is located below the cooler and absorbs drain generated by the cooler, and the saucer portion And a plurality of plate-like portions arranged at intervals in a direction substantially parallel to the flow of the cold air with respect to the cold air entering the second cold air passage from the storage chamber. An absorbent member is provided.
[0011]
In this invention, since the absorbing member absorbs the low-temperature drain from the cooler, the cold air passing through the absorbing member is effectively cooled and the humidity increases. Further, when cold air passes through the absorbing member, dust or the like contained in the cold air is adsorbed by the absorbing member.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0013]
In FIG. 1, the code | symbol 1 shows the open type refrigerated showcase with which the front surface was open | released. Although not shown, the open showcase 1 of the present embodiment is a stand-alone type that is connected to an external unit via a refrigerant pipe or the like, and liquid refrigerant is supplied from the external unit. The open showcase 1 is provided with a storage room 3 for refrigeration and storage of goods (not shown) and the like. A recovery cold air passage 5 is provided below the storage chamber 3, and the recovery cold air passage 5 and the storage chamber 3 are partitioned by a bottom plate 7. A first cold air passage 9 is provided above and behind the storage chamber 3, and the first cold air passage 9 and the storage chamber 3 are partitioned by a first partition plate 11. A second cold air passage 13 is provided above and behind the first cold air passage 9, and the second cold air passage 13 and the first cold air passage 9 are partitioned by a second partition plate 15.
[0014]
The storage room 3 is provided with a five-stage display shelf 17, and when the open showcase 1 is used in a store, products are displayed on these display shelves 17, and a customer of the store opens a door or the like. The product in a refrigerated state can be taken out.
[0015]
From the windward side, the recovery cool air passage 5 is provided with a suction port 19, a drain port 21, a cooler blower 23, and an absorption member 25 that absorbs drain. The suction port 19 is an opening that allows the storage chamber 3 and the recovery cold air passage 5 to communicate with each other, and guides the cool air in the storage chamber 3 to the recovery cold air passage 5. The drain port 21 is connected to a drain pipe (not shown), and guides the excess drain that could not be absorbed by the absorbing member 25 to the drain pipe (not shown). The cooler blower 23 circulates the cool air in the refrigerator by blowing the cool air guided through the suction port 19 toward the first cool air passage 9 and the second cool air passage 13.
[0016]
The absorbing member 25 is formed of a material having rigidity and capillary action, and as shown in FIG. 2, a container-shaped receiving tray portion 25a positioned at the lower portion of the cooler 27 and a plurality of connecting portions connected to the lower portion of the receiving tray portion 25a. The plate-like portion 25b. The cooler 27 is provided in the first cold air passage 9, and low-temperature drain from the cooler 27 is first absorbed by the tray portion 25 a and permeates the plate-like portion 25 b by capillary action. At this time, the absorbing member 25 supplies a low heat source to the flowing cold air and raises humidity while adsorbing dust and the like. The cold air that has passed through the absorbing member 25 mainly flows into the second cold air passage 13. As an example of the above-described absorbent member 25, a non-woven fabric such as polyester fiber is used as a base material, fine phenol is thermally cured on the base material to form a fixing material, and hydrophilicity is imparted to the base material soaked in an alcohol solvent. And then dried.
[0017]
As described above, the cooler 27 is provided on the windward side of the first cool air passage 9, and the cooler 27 cools the cool air guided to the first cool air passage 9. A first air outlet 29 is provided on the leeward side of the first cold air passage 9, and the cold air cooled by the cooler 27 is blown out to the front portion of the storage chamber 3 through the first air outlet 29. Thus, the first layer 31a of the air curtain 31 is formed. A second air outlet 33 is provided on the leeward side of the second cold air passage 13, and cold air is blown out through the second air outlet 33, whereby a second layer 31 b of the air curtain 31 is formed.
[0018]
Since the first layer 31 a constituting the air curtain 31 passes through the cooler 27, the temperature is lower than that of the second layer 31 b, and a part of the first layer 31 a flows into the display shelf 17 to store the storage chamber 3. The whole is cooled.
[0019]
Next, the operation according to the present embodiment will be described.
[0020]
When the refrigeration operation is started, the cooler blower 23 rotates, and the air in the refrigerator is forcibly circulated in the direction of the arrow as shown in FIG. The air guided through the suction port 19 is blown out to the leeward side via the cooler blower 23 and flows into the cooler 27 provided on the leeward side of the first cool air passage 9 as shown in FIG. At the same time, it flows into the second cold air passage 13 via the plate-like portion 25 b of the absorbing member 25. The air that has flowed into the cooler 27 is rapidly cooled, and a part of the water contained in the cold air forms frost on the cooler 27. As shown in FIG. 1, the cold air cooled by the cooler 27 moves toward the first air outlet 29 and is blown downward from the first air outlet 29, so that the first layer 31 a of the air curtain 31 is It is formed. A part of the cool air forming the air curtain 31 flows into the display shelves 17 and cools products (not shown) and the like displayed on the display shelves 17. As shown in FIG. 1, the cold air that has flowed into the plate-like portion 25 b of the absorbing member 25 flows into the second cold air passage 13 and moves toward the second air outlet 33.
[0021]
The cold air that has reached the second air outlet 33 is blown out downward, whereby the second layer 31b of the air curtain 31 is formed.
[0022]
In the open showcase 1 according to the present embodiment, in order to remove frost attached to the cooler 27, the defrosting operation is performed at predetermined intervals.
[0023]
During the defrosting operation, the cooler 27 is inactivated and only the cooler blower 23 is rotated. At this time, the temperature of the cool air in the refrigerator rises, the frost attached to the cooler 27 is melted, and low temperature drain is generated. The drain is collected at the lowermost end portion 27 a of the cooler 27 and is absorbed by the tray portion 25 a of the absorbing member 25. The drain absorbed in the tray part 25 a of the absorbing member 25 penetrates into the plate-like part 25 b of the absorbing member 25. At this time, surplus drain that could not be absorbed by the absorbing member 25 moves toward the drain port 21 through the bottom of the recovered cool air passage 5 and flows into the drain pipe via the drain port 21.
[0024]
When the refrigeration operation is resumed, heat exchange is resumed in the cooler 27. The cool air flowing into the cooler 27 from the recovered cool air passage 5 is cooled by the cooler 27 and then blown out from the first air outlet 29 in the same manner as when the refrigeration operation is started. 31a is formed. On the other hand, the cold air that has flowed into the plate-like portion 25b of the absorbing member 25 comes into contact with the low-temperature drain that has permeated the absorbing member 25, so that the temperature decreases, the humidity increases, and dust contained in the cold air is removed. Adsorbed.
[0025]
Therefore, compared with the cold air that flows into the second cold air passage 13 without passing through the absorbing member 25 that has absorbed the drain, the high-humidity and clean cold air is blown out from the second air outlet 33 to the air. A second layer 31b of the curtain 31 is formed.
[0026]
In this way, by increasing the humidity of the cold air forming the second layer 31b of the air curtain 31, the latent heat increases and the amount of heat exchange with the outside air in contact with the second layer 31b of the air curtain 31 is suppressed. can do. Further, since the second layer 31b of the air curtain 31 is formed with relatively cool air and the temperature difference between the second layer 31b and the first layer 31a is reduced, the second layer 31b and the first layer 31a of the air curtain 31 are reduced. The amount of heat exchange between the storage chamber 3 and the storage chamber 3 can be effectively cooled. Furthermore, since the second layer of the air curtain 31 is formed by clean cool air, dust or the like adhering to the displayed product or the like can be reduced.
[0027]
As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment. In the present embodiment, the first cold air passage 9 and the second cold air passage 13 are provided to form the double air curtain 31. However, in the open showcase that forms a single air curtain or a triple air curtain. Is also applicable. In the case of an open showcase that forms a single air curtain, the cool air that has passed through the absorbing member flows into the cooler. In the present embodiment, the defrosting operation in which the cooler 27 is in the non-operating state and only the cooler blower 23 is rotated has been described. However, the defrosting operation using a heater or the like may be used. Applicable. Moreover, in this embodiment, although the absorption member 25 is comprised by the saucer part 25a and the plate-shaped part 25b, for example, a plate-shaped part may be formed in a waveform and if drain is permeable to the whole absorption member. That's fine.
[0028]
【The invention's effect】
An air curtain is formed that has a high heat insulating effect between the outside and the storage room, and that effectively cools the storage room, thereby reducing power consumption. In addition, even if dust or the like is included in the cool air forming the air curtain, this cool air is guided to the second cool air passage after the dust or the like is adsorbed by the absorbing member, so that dust or the like flowing into the storage chamber is suppressed. can do.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing the structure of an open showcase of the present invention.
FIG. 2 is a perspective view showing an absorbing member.
[Explanation of symbols]
1 Open showcase 25 Absorbing member 25a Sauce tray 25b Plate-shaped part

Claims (1)

A first cold air passage that guides the cold air collected from the storage chamber and interposes a cooler, and a second cold air passage that is located behind the first cold air passage and guides the cold air collected from the storage chamber . In an open showcase,
A container-shaped receiving tray part that is located in the lower part of the cooler and absorbs the drain generated in the cooler, and is connected to the lower part of the receiving tray part, for the cold air that enters the second cold air passage from the storage chamber An open showcase comprising an absorbing member formed by a plurality of plate-like portions arranged at intervals in a direction substantially parallel to the cold air flow .

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