JP2005013571A - Showcase - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To selectively use a so-called flat showcase used both as a warming showcase and a refrigerating showcase. <P>SOLUTION: The showcase 1 provided with a display chamber 13 with an open top is provided with: a refrigerating device R for refrigerating the inside of the display chamber 13; an electric heater H1 for heating the inside of the display chamber 13; and a controller for controlling the refrigerating device R and the electric heater H. In the showcase, a mode for refrigerating merchandise in the display chamber 13 by the refrigerating device R and a mode for warming the merchandise within the display chamber 13 by the electric heater H are carried out. Thus, the showcase can selectively be used as a refrigerating or warming showcase according to the season and the kind of the merchandise to contribute to the improvement of sales results at a store. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a showcase opened upward in a store such as a supermarket or a convenience store.
[0002]
[Prior art]
Traditionally, stores such as supermarkets and convenience stores have been equipped with flat-type open-top showcases that store beverages, foods and other products in the display room that opens upwards, while refrigerated. I sell it.
[0003]
By the way, for example, in the case of beverages, they are often sold in the cold in the summer, but in the winter they need to be warmed for sale. In this case, in the so-called vertical showcase, electric heaters are usually attached to the display shelves in the cabinet to be cooled, and in the summer the products on the display shelves are refrigerated by circulating cold air in the cabinet, and in the winter A refrigeration / warm switching type has been developed in which the electric heater is energized in a state where the cold air circulation is stopped so that the commodity on the display shelf can be heated (see Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-168548 A
[0005]
[Problems to be solved by the invention]
Such use of refrigeration and warm storage has been recently requested for the flat-type showcase described above, but no such structure has been developed in the past.
[0006]
The present invention has been made in view of such a conventional situation, and an object thereof is to enable different use of refrigeration and warm storage in a so-called flat-type showcase.
[0007]
[Means for Solving the Problems]
That is, in the present invention, the showcase having a display chamber that opens upward includes a cooling device that cools the display chamber, a heating device that heats the display chamber, and a control device that controls the cooling device and the heating device. In a so-called flat showcase that opens upward, it is possible to execute a mode in which the product in the display room is cooled by the cooling device and a mode in which the product in the display room is heated by the heating device. As a result, it is possible to use refrigeration / warm storage according to the season and the type of product, and it is possible to contribute to the improvement of sales performance in the store.
[0008]
In the showcase of the invention of claim 2, in the above, the display chamber is partitioned into at least two display sections, and the control device cools both display sections by the cooling device, and both the display by the heating device. Since it has a heating mode for heating the inside of the compartment and a cooling / heating mode for heating the inside of the other display compartment by the heating device while cooling the inside of one display compartment by the cooling device, the type and quantity of the products to be displayed and sold Depending on the situation, it is possible to use a cooling mode in which the entire display room is cooled, a heating mode in which the entire display room is heated, and a cooling / warming mode in which one display section of the display room is cooled and the other is heated. Therefore, the convenience can be further improved.
[0009]
In the showcase of the invention of claim 3, in the above-mentioned display section, the cool air discharge port for discharging cool air from the cooling device into the display section and the cool air circulated in the display section are sucked into the cooling device. For example, in the cold / warm mode, the other display section heated by the heating device is provided with a cool air suction port and a shutter for closing and closing the cold air discharge port and the cold air suction port. By closing the shutter, the circulation of the cold air to the display section is surely stopped and smooth product warming can be realized.
[0010]
In the showcase of the invention of claim 4, the control device causes the heating device to generate heat when the cool air discharge port and / or the cool air suction port is closed by the shutter. Without this, heating the inside of the other display section can be started simply by closing the cold air outlet and / or the cold air inlet with the shutter, and the operability can be improved. It is.
[0011]
In the showcase of the invention according to claim 5, in the above, the control device stops the cooling device when the cold air discharge port and / or the cold air suction port of both display sections are closed by the shutter. Thus, it is possible to switch to the heating mode without performing the switching operation, and it is possible to further improve the operability.
[0012]
The showcase of the invention of claim 6 is disposed in the cooling chamber formed below the display chamber in claim 3, 4 or 5, and below the display compartments in the cooling chamber. A cooler of the cooling device, and a blower disposed at a position corresponding to the lower side of the other display section in the cooling chamber and for circulating air over substantially the entire area of the cooler, and the other display section by a shutter. In the state where the cold air discharge port and the cold air suction port are closed, the control device heats the inside of the other display section by the heating device and exchanges heat with the cooler of the cooling device by the blower. Since the cold / warm mode is executed by circulating the air in the inside, it is possible to circulate the cold air to both display sections by a single cooler and a blower, and it is possible to reduce the cost of parts.
[0013]
In particular, when the cool air and the blower are used to circulate cool air to both display sections, a blower is provided corresponding to the lower side of the one display section to circulate the cool air to the one display section, and the other display. When the shutter of the compartment is closed and heating is performed by the heating device, it is difficult for the cool air to flow through the cooler corresponding to the lower part of the other display compartment, so that frost formation occurs and the cool air passage is blocked. However, in the present invention, since the blower is provided corresponding to the lower side of the other display section to be heated, cold air is also circulated through the cooler of the part corresponding to the lower side of the other display section, and the frost blockage This problem is also solved.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
[0015]
[Example 1]
1 is a perspective view of a showcase 1 according to an embodiment to which the present invention is applied, FIG. 2 is a front view of the showcase 1, FIG. 3 is a plan view of the showcase 1, and FIG. 5 is another longitudinal side view illustrating the internal structure of the showcase 1.
[0016]
The showcase 1 is a so-called flat-type open showcase that is installed in a store such as a supermarket or a convenience store and is used for display sales of beverages including plastic bottles. The showcase 1 has a main body constituted by a horizontally-long rectangular container-like heat insulating wall 2 that opens upward, and a compressor 3 and a condenser 4 that constitute a refrigerant circuit of the cooling device R below the heat insulating wall 2. In addition, a machine room 5 is provided in which a condenser fan 6 and the like for air-cooling them are installed.
[0017]
Side plates 7 and 7 made of transparent walls (made of glass or hard resin) are erected on the left and right opening edges of the heat insulating wall 2. Further, vertical plates 8 and 8 made of transparent walls (made of glass or hard resin) are also erected on the front and rear opening edges of the heat insulating wall 2, and the upper portions of the vertical plates 8 and 8 are curved with a predetermined curvature. Oriented inward.
[0018]
Furthermore, a heat-insulating partition wall 9 is attached between the front and rear vertical plates 8 and 8 over the central portion thereof. In addition, duct plates 11... Made of transparent walls (made of glass or hard resin) are erected on the inner sides of the vertical plates 8 on the left and right sides of the partition wall 9 with a space therebetween. A space is also formed between the upper ends of the duct plates 11... And the front and rear vertical plates 8 and 8 corresponding thereto. Moreover, the lower end of each duct board 11 ... and the lower end of the partition wall 9 are made substantially the same, are located above the bottom face of the heat insulation wall 2, and the duct plates 11 and 11 before and after making a pair on the left and right of the partition wall 9 The bottom plates 12 and 12 are detachably mounted (FIG. 3 shows a state in which the bottom plates 12 and 12 are removed).
[0019]
A space surrounded by the duct plates 11, the bottom plates 12 and 12 and the side plates 7 and 7 is a display chamber 13 that opens upward, and the interior of the display chamber 13 is divided into left and right by a partition wall 9, The display sections 16 (on the left side) and 17 (on the right side) are adjacent to each other. Each of the bottom plates 12 and 12 is made of a heat-conducting steel plate, and an electric heater H1 constituting a heating device is attached to the inside of the bottom plate 12 of the display section 16, and the heating device is also installed inside the bottom plate 12 of the display section 17 The electric heater H2 which comprises is attached.
[0020]
A cooling chamber 19 is formed between the bottom plates 12 and 12 and the bottom surface of the heat insulating wall 2 below the display chamber 13. A cooling device 21 constituting a refrigerant circuit of the cooling device R is provided in the cooling chamber 19. A blower 22 for circulating cold air is installed. Further, between the rear vertical plate 8 and the lower left and right duct plates 11 and 11, cold air discharge ports 23 and 24 each having a plurality of slits are formed and communicated with the cooling chamber 19. Further, between the front vertical plate 8 and the lower left and right duct plates 11 and 11, cold air suction ports 26 and 27 each having a plurality of slits are formed and communicated with the cooling chamber 19.
[0021]
The cooler 21 is a so-called plate fin type heat exchanger composed of a refrigerant pipe and a plurality of heat exchange fins. The cooler 21 is arranged in the cooling chamber 19 from one display section 17 to below the other display section 16. (See FIG. 3). Further, the blower 22 is disposed at a position corresponding to the front side of the cooler 21 and below the other display section 16, and is surrounded by a fan casing 31. The fan casing 31 opens obliquely upward and forward on the front surface, and the rear surface communicates with the cooler 21. In addition, a high pressure chamber 32 opened to the rear side and the left side is configured on the front side of the cooler 21 at a position corresponding to the lower side of one display section 17, and the high pressure chamber 32 communicates with the rear portion of the fan casing 31. .
[0022]
Further, shutters S... Are attached to the cold air discharge ports 23 and 24 and the cold air suction ports 26 and 27 of the left and right display sections 16 and 17, respectively. Each shutter S... Can be moved left and right manually by loosening a decorative screw 33 as shown in FIG. 6, and thereby each cold air outlet 23, 24 and cold air inlet 26, 27 can be opened and closed, respectively. (FIG. 6 shows the cool air outlet 23 portion of the display section 16). Reference numeral 34 denotes a thermometer attached to the partition wall 9, which matches the height of the load line. Reference numeral 36 denotes a guide for attaching a cold / hot display board or an advertising board.
[0023]
Next, FIG. 7 shows an electric circuit of the control device C of the showcase 1. The compressor 3 is connected to a single-phase 100V power source AC via a cooling controller 41 and an overload relay 42. The cooling controller 41 performs ON / OFF control of the compressor 3 based on the discharge side cold air temperature of the cooler 21 so that the cold air temperature becomes a predetermined refrigeration temperature. 43 is a start relay, 44 and 46 are an operation capacitor and a start capacitor. Reference numeral 47 denotes an operation switch, and reference numeral 48 denotes a mode changeover switch connected in series thereto. The auxiliary relay 49 is connected in series with the power source AC at the cold / hot contact of the mode changeover switch 48, and the auxiliary relay 51 is connected in series with the power source AC at the hot contact.
[0024]
A normally open contact 49A of the auxiliary relay 49 and a contact 51A of the auxiliary relay 51 are connected in parallel between the operation switch 47 and the mode changeover switch 48, and a magnet switch 52 is connected between the contact 49A and the power source AC. A series circuit of a power supply 41A of the cooling controller 41, a condenser fan 6, a blower 22, a filter sensor 53, and a pilot lamp 54 is connected in parallel between the power supply AC to the normally closed terminal of the contact 51A. Further, the normally open terminal of the contact 51 </ b> A is connected between the normally open contact 49 </ b> A and the magnet switch 52.
[0025]
Following the normally open contact 52A of the magnet switch 52, a heating controller 56, a series circuit of the electric heater H1 and an overheat protector 57, a normally open contact 51B of the relay 51, a heating controller 58, and the electric heater are provided. A series circuit of H2 and the overheat protector 59 is connected in parallel. The heating controller 56 controls the energization of the electric heater H1 based on the temperature in the display section 16 so that the inside of the display section 16 has a predetermined storage temperature. Based on the temperature in the compartment 17, the energization of the electric heater H2 is ON / OFF controlled so that the inside of the display compartment 17 reaches a predetermined temperature.
[0026]
Next, the operation of the showcase 1 of the present invention having the above configuration will be described. It is assumed that commodities such as beverages in plastic bottles are placed and displayed on the bottom plates 12 and 12 of both display sections 16 and 17.
[0027]
(1) Cooling mode
First, when the cooling mode for cooling both the display sections 16 and 17 is set in the summer season, the shutters S of the cool air discharge ports 23 and 24 and the cool air suction ports 26 and 27 of the display sections 16 and 17 are opened, and the operation switch 47 is operated. And the mode changeover switch 48 is set to a cold junction. At this time, since the auxiliary relays 49 and 51 are not energized, the contact 49A is open. Therefore, since the magnet switch 52 is not energized and the contact 52A is open, the electric heaters H1 and H2 of the circuit after the contact 52A are not energized. Further, since the contact 51A is closed to the normally closed terminal, power is supplied to the power supply 41A of the cooling controller 41, and the condenser fan 6 and the fan 22 are operated.
[0028]
Thereby, the cooling controller 41 turns the compressor 3 on and off based on the discharge side cold air temperature of the cooler 21 as described above. When the compressor 3 is operated, the cooler 21 exhibits a cooling action. Moreover, since the air blower 22 is also operated, the air in the cooling chamber 19 is sucked and discharged to the cooler 21 side. The air discharged from the blower 22 flows into the cooler 21 at the rear portion thereof, that is, the portion corresponding to the lower portion of the display section 16. Moreover, after air also flows into the high-pressure chamber 32, it also flows into the cooler 21 corresponding to the lower part of the display section 17 (shown by an arrow picture in FIG. 3).
[0029]
In this manner, air is distributed over substantially the entire area of the cooler 21 and is cooled by exchanging heat, and then discharged from the cold air discharge ports 23 and 24 into the display sections 16 and 17 (see FIG. 5). Indicated by an arrow). The cold air circulates in the display compartments 16 and 17 to cool the products on the bottom plates 12 and 12, and then is sucked from the cold air suction ports 26 and 27, returned to the cooling chamber 19, and sucked into the blower 22 again. . As a result, the inside of the display sections 16 and 17 is cooled to a predetermined refrigeration temperature by the single cooler 21 and the blower 22.
[0030]
(2) Cold / warm mode
Next, when a product to be cooled and a product to be heated are mixed, when the cooling / warm mode is set in which the left display section 16 is heated and the right display section 17 is cooled, 9, the shutters S and S of the cool air outlet 23 and the cool air inlet 26 of the display section 16 are closed, the shutters S and S of the cool air outlet 24 and the cool air inlet 27 of the display section 17 are kept open, and the operation switch 47 is turned on to switch the mode changeover switch 48 to the cold / hot contact. As a result, the auxiliary relay 49 is energized, and the auxiliary relay 51 remains non-energized.
[0031]
Since the contact 49A is closed by energization of the auxiliary relay 49, the magnet switch 52 is energized and the contact 52A is closed. As a result, the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56. Since the contact point 51A remains closed at the normally closed terminal, the cooling controller 41 continues to operate the compressor 3, and the blowers 6 and 22 are also continuously operated. Further, since the contact 51B remains open, the electric heater H2 of the bottom plate 12 of the display section 17 is not energized.
[0032]
By operating the compressor 3 and the blower 22, the cool air exchanged with the cooler 21 is circulated by the blower 22. At this time, the shutters S of the cool air discharge port 23 and the cool air suction port 26 of the display section 16 are closed. Therefore, the cool air is not circulated in the display section 16 (FIG. 9). Then, the electric heater H1 generates heat and is energized and controlled by the heating controller 56, whereby the inside of the display section 16 is heated to a predetermined storage temperature.
[0033]
On the other hand, the cold air discharged from the blower 22 passes through the cooler 21 at the rear portion thereof, that is, the portion corresponding to the lower portion of the display section 16 as indicated by an arrow in FIG. Since the shutter S of 23 is closed, as shown by the arrow in FIG. Further, the cold air that has flowed into the high-pressure chamber 32 flows into the cooler 21 corresponding to the lower portion of the display section 17 as described above.
[0034]
Thus, in this case as well, cold air is distributed over substantially the entire area of the cooler 21, and is cooled by exchanging heat and then discharged from the cold air discharge port 24 into the display section 17. The cool air circulates in the display compartment 17 to cool the product on the bottom plate 12, and then is sucked from the cool air suction port 27, returned to the cooling chamber 19, and sucked into the blower 22 again. Thereby, the inside of the display section 17 is cooled to a predetermined refrigeration temperature.
[0035]
Here, when the cool air is circulated to both the display sections 16 and 17 in the cooling mode by the single cooler 21 and the blower 22 as in the embodiment, the blower 22 is provided corresponding to the lower part of the display section 17, / Cooling air is circulated to the display section 17 in the temperature mode, the shutter S of the display section 16 is closed, and heating is performed by the electric heater H1, so that the cooler 21 corresponding to the lower part of the display section 16 includes Since it becomes difficult for cold air to circulate, there arises a problem that frost formation occurs in this portion and the cold air passage is blocked, but a blower 22 is provided corresponding to the lower portion of the display section 16 heated as the structure as described above. For example, since cold air is also circulated through the cooler 21 corresponding to the lower side of the display section 16, the problem of frost blockage is also solved.
[0036]
(3) Heating mode
Next, when the heating mode in which both the display sections 16 and 17 are heated in winter or the like is set, the operation switch 47 is turned on and the mode changeover switch 48 is set as a hot contact. Thereby, the auxiliary relay 51 is energized. At this time, each shutter S ... may or may not be closed.
[0037]
Since the contact 51A is closed to the normally open terminal by energization of the auxiliary relay 51, the magnet switch 52 is energized and the contact 52A is closed. As a result, the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56. Further, since the contact 51B is also closed, the electric heater H2 of the bottom plate 12 of the display section 17 is energized.
[0038]
On the other hand, since the cooling controller 41, the blowers 6, 22 and the filter sensor 53 are not energized, the cooling device R and the blower 22 stop operating. The electric heaters H1 and H2 generate heat and are energized and controlled by the heating controllers 56 and 58, whereby the display sections 16 and 17 are heated to a predetermined storage temperature.
[0039]
[Example 2]
Next, FIG. 10 shows an electric circuit of a control device C according to another embodiment of the present invention. In addition, what is shown with the same code | symbol as FIG. 7 shall show | play the same or the same function. In this case, the mode changeover switch 48 of FIG. 7 is not provided, but instead the temperature mode switch 61 is connected at that position, and the auxiliary relay 62 is connected between the temperature mode switch 61 and the power source AC. Further, the contact 62A of the auxiliary relay 62 is connected to the position of the contact 51A in FIG. 7, and the position of the contact 49A is interlocked with the opening / closing of the cold air discharge port 23 (and / or the cold air intake port 26) of the display section 16. A limit switch 63 that opens and closes is connected. The limit switch 63 closes the contact when the shutter S is closed and opens the contact when the shutter S is opened. Furthermore, the normally open contact 62B of the auxiliary relay 62 is connected to the position of the contact 51B in FIG.
[0040]
(1) Cooling mode
In the case of the cooling mode for cooling both the display sections 16 and 17 with the above configuration, the shutters S of the cool air discharge ports 23 and 24 and the cool air suction ports 26 and 27 of the display sections 16 and 17 are opened, and the operation switch 47 is turned on. At the same time, the temperature mode switch 61 is turned OFF (contact opening). Thereby, since the auxiliary relay 62 is not energized, the contact 62A is closed to the normally closed terminal, and the power supply 41A of the cooling controller 41 is supplied with power, and the condenser blower 6 and the blower 22 are operated.
[0041]
Further, since the shutter S of the cold air outlet 23 (and / or the cold air inlet 26) is open, the limit switch 63 is also open. Therefore, since the magnet switch 52 is not energized and the contact 52A is open, the electric heaters H1 and H2 of the circuit after the contact 52A are not energized. Thereby, the inside of both the display sections 16 and 17 is cooled by the single cooler 21 and the air blower 22 to predetermined | prescribed refrigeration temperature like the above.
[0042]
(2) Cold / warm mode
Next, in the case of the cold / warm mode in which the left display section 16 is heated and the right display section 17 is cooled toward the right, the cool air discharge port 23 and the cool air suction port of the display section 16 as shown in FIG. 26, the shutters S and S of the display section 17 are closed, the shutters S and S of the cold air outlet 24 and the cold air inlet 27 of the display section 17 are kept open, the operation switch 47 is turned on, and the temperature mode switch 61 is kept off. . Since the limit switch 63 closes the contact when the shutter S of the cool air discharge port 23 (and / or the cool air suction port 26) is closed, the magnet switch 52 is energized and the contact 52A closes. As a result, the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56.
[0043]
Since the contact 62A remains closed at the normally closed terminal, the cooling controller 41 continues to operate the compressor 3, and the fans 6 and 22 are also continuously operated. Further, since the contact 62B remains open, the electric heater H2 of the bottom plate 12 of the display section 17 is not energized.
[0044]
As a result, the display compartment 17 is cooled to a predetermined refrigeration temperature as described above, and the display compartment 16 is heated to a predetermined refrigeration temperature. In particular, in this case, the electric heater H1 of the bottom plate 12 of the display section 16 is energized by closing the shutter S of the cold air discharge port 23 (and / or the cold air suction port 26), so that the mode as described above is used. It is possible to start heating in the display section 16 simply by closing the cold air discharge port 23 (and / or the cold air suction port 26) with the shutter S without performing a changeover operation of the changeover switch, thereby improving operability. Can be planned.
[0045]
(3) Heating mode
Next, when setting to the heating mode which heats both the display sections 16 and 17, the operation switch 47 is turned ON and the temperature mode switch 61 is turned ON (closed). At this time, each shutter S ... may or may not be closed. As a result, the auxiliary relay 62 is energized.
[0046]
Since the contact 62A is closed to the normally open terminal by energization of the auxiliary relay 62, the magnet switch 52 is energized and the contact 52A is closed. As a result, the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56. Further, since the contact 62B is also closed, the electric heater H2 of the bottom plate 12 of the display section 17 is energized.
[0047]
On the other hand, since the cooling controller 41, the blowers 6, 22 and the filter sensor 53 are not energized, the cooling device R and the blower 22 stop operating. The electric heaters H1 and H2 generate heat and are energized and controlled by the heating controllers 56 and 58, whereby the display sections 16 and 17 are heated to a predetermined storage temperature.
[0048]
[Example 3]
Next, FIG. 11 shows an electric circuit of the control device C of still another embodiment of the present invention. In addition, what is shown with the same code | symbol as FIG. 7 shall show | play the same or the same function. In this case, the operation switch 47 includes a limit switch 66 and an auxiliary relay 67 whose contacts are opened and closed in conjunction with the opening and closing of the shutter S of the cold air outlet 23 (and / or the cold air inlet 26) of the display section 16. Limit switch whose contact is opened and closed between the operation switch 47 and the limit switch 66 in conjunction with the opening and closing of the shutter S of the cool air discharge port 24 (and / or the cool air suction port 27) of the display section 17 68 and the auxiliary relay 69 are connected in series with the power source AC.
[0049]
Each limit switch 66, 68 closes the contact when the shutter S is closed, and opens the contact when opened. Further, a parallel circuit of normally closed contacts 67A and 69A of the auxiliary relays 67 and 69 is connected to the position of the contact 51A in FIG. Further, the magnet switch 52 is not provided. Further, normally open contacts 67B and 67C of the auxiliary relay 67 are connected before and after the series circuit of the heating controller 56 and the electric heater H1, and these series circuits are connected to the power source AC. Further, normally open contacts 69B and 69C of the auxiliary relay 69 are connected before and after the series circuit of the heating controller 58 and the electric heater H2, and these series circuits are connected to the power source AC.
[0050]
(1) Cooling mode
In the case of the cooling mode for cooling both the display sections 16 and 17 with the above configuration, the shutters S of the cool air discharge ports 23 and 24 and the cool air suction ports 26 and 27 of the display sections 16 and 17 are opened, and the operation switch 47 is turned on. Turn on. Since the shutters S and S of the cold air outlet 23 (and / or the cold air inlet 26) and the cold air outlet 24 (and / or the cold air inlet 27) are open, the limit switches 66 and 68 are also open. Therefore, since the auxiliary relays 67 and 69 are not energized, the contacts 67A and 69A are closed to the normally closed terminals. Thus, power is supplied to the power supply 41A of the cooling controller 41, and the condenser fan 6 and the fan 22 are operated.
[0051]
Further, since the contacts 67B and 67C and the contacts 69B and 69C are open, the electric heaters H1 and H2 are not energized. Thereby, the inside of both the display sections 16 and 17 is cooled by the single cooler 21 and the air blower 22 to predetermined | prescribed refrigeration temperature like the above.
[0052]
(2) Cold / warm mode
Next, in the case of the cold / warm mode in which the left display section 16 is heated and the right display section 17 is cooled toward the right, the cool air discharge port 23 and the cool air suction port of the display section 16 as shown in FIG. 26, the shutters S and S of the display section 17 are closed, the shutters S and S of the cold air outlet 24 and the cold air inlet 27 of the display section 17 are kept open, and the operation switch 47 is turned on. Since the shutter S of the cool air discharge port 23 (and / or the cool air suction port 26) is closed, the limit switch 66 also closes the contact point, so that the auxiliary relay 67 is energized. As a result, the contacts 67B and 67C are closed, so that the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56.
[0053]
On the other hand, since the auxiliary relay 69 is not energized, the contact 69A remains closed, so the cooling controller 41 continues to operate the compressor 3 and the blowers 6 and 22 are also continuously operated. Further, since the contacts 69B and 69C remain open, the electric heater H2 of the bottom plate 12 of the display section 17 is not energized.
[0054]
As a result, the display compartment 17 is cooled to a predetermined refrigeration temperature as described above, and the display compartment 16 is heated to a predetermined refrigeration temperature. In particular, also in this case, the electric heater H1 of the bottom plate 12 of the display section 16 is energized by closing the shutter S of the cold air discharge port 23 (and / or the cold air suction port 26), so that the mode changeover switch is switched as described above. Without any operation, heating in the display section 16 can be started simply by closing the cool air discharge port 23 (and / or the cool air suction port 26) with the shutter S, thereby improving operability. become able to.
[0055]
(3) Heating mode
Next, when the heating mode for heating both the display sections 16 and 17 is set, the operation switch 47 is turned on, and the shutters S of the cool air discharge ports 23 and 24 and the cool air suction ports 26 and 27 are closed. . As a result, both limit switches 66 and 68 are closed, so that both auxiliary relays 67 and 69 are energized.
[0056]
When the auxiliary relays 67 and 69 are energized, the contacts 67B, 67C and 69B, 69C are closed. Thus, the electric heater H1 attached to the bottom plate 12 of the display section 16 is energized via the heating controller 56, and the electric heater H2 of the bottom plate 12 of the display section 17 is also energized. Become.
[0057]
On the other hand, since the contacts 67A and 69A are opened, the cooling controller 41, the blowers 6, 22 and the filter sensor 53 are not energized, and the cooling device R and the blower 22 stop operating. The electric heaters H1 and H2 generate heat and are energized and controlled by the heating controllers 56 and 58, whereby the display sections 16 and 17 are heated to a predetermined storage temperature.
[0058]
Thus, according to the circuit in this case, the cooling device R is stopped by closing the shutters S and S of the cold air discharge ports 23 and 24 (and / or the cold air suction ports 26 and 27) of the display sections 16 and 17. Since it did in this way, it becomes possible to switch to a heating mode, without performing switching operation of a special switch, and it becomes possible to aim at the further improvement of operativity.
[0059]
In each embodiment, the interior of the display chamber 13 is divided into two left and right chambers (display compartments 16 and 17), but it may be partitioned into more display compartments.
[0060]
【The invention's effect】
As described in detail above, according to the present invention, in a showcase having a display chamber that opens upward, the cooling device that cools the display chamber, the heating device that heats the display chamber, the cooling device, and the heating device are controlled. Since the control device is provided, in a so-called flat showcase opening upward, a mode for cooling the product in the display room by the cooling device and a mode for heating the product in the display room by the heating device can be executed. It becomes possible. As a result, it is possible to use refrigeration / warm storage according to the season and the type of product, and it is possible to contribute to the improvement of sales performance in the store.
[0061]
According to the invention of claim 2, in addition to the above, the display chamber is partitioned into at least two display compartments, and the control device cools both the display compartments by the cooling device, and the heating device. A heating mode for heating the inside of both display compartments and a cooling / heating mode for heating the inside of the other display compartment by the heating device while cooling the inside of the one display compartment by the cooling device. Depending on the type and quantity, it is possible to use a cooling mode that cools the entire display room, a heating mode that heats the entire display room, and a cooling / warm mode that heats the other display compartment while heating the other display compartment. Thus, the convenience can be further improved.
[0062]
According to the invention of claim 3, in addition to the above, the display section cools the cool air discharge port for discharging the cool air from the cooling device into the display section and the cold air circulated in the display section. Since there is provided a cool air inlet for sucking into the apparatus and a shutter for opening and closing the cold air outlet and the cold air inlet, the other one heated by the heating device in the cold / warm mode, for example, By closing the shutter of the display section, the circulation of the cold air to the display section is surely stopped and smooth product warming can be realized.
[0063]
According to the invention of claim 4, in addition to the above, the control device causes the heating device to generate heat when the cool air discharge port and / or the cool air suction port is closed by the shutter. It is possible to start the heating in the other display section by simply closing the cold air discharge port and / or the cold air suction port with the shutter without performing a switching operation, so that the operability can be improved. It will be.
[0064]
According to the invention of claim 5, in addition to the above, the control device stops the cooling device when the cold air outlet and / or the cold air inlet of both display sections are closed by the shutter. This makes it possible to perform the switching to the heating mode without performing a special switch switching operation, thereby further improving the operability.
[0065]
According to the invention of claim 6, in addition to claim 3, claim 4, or claim 5, a cooling chamber configured below the display chamber, and the cooling chamber arranged below both display compartments. A cooling device provided in the cooling chamber and a blower that is disposed at a position corresponding to the lower side of the other display section in the cooling chamber and circulates air over substantially the entire area of the cooling device. In a state where the cold air discharge port and the cold air suction port of the display section are closed, the control device heats the inside of the other display section by the heating device and exchanges heat with the cooler of the cooling device by the blower. Since the cool / warm mode is executed by circulating in the display compartment, it is possible to circulate the cold air to both display compartments with a single cooler and blower, and to reduce the part cost. .
[0066]
In particular, when the cool air and the blower are used to circulate cool air to both display sections, a blower is provided corresponding to the lower side of the one display section to circulate the cool air to the one display section, and the other display. When the shutter of the compartment is closed and heating is performed by the heating device, it is difficult for the cool air to flow through the cooler corresponding to the lower part of the other display compartment, so that frost formation occurs and the cool air passage is blocked. However, in the present invention, since the blower is provided corresponding to the lower side of the other display section to be heated, cold air is also circulated through the cooler of the part corresponding to the lower side of the other display section, and the frost blockage This problem is also solved.
[Brief description of the drawings]
FIG. 1 is a perspective view of a showcase of an embodiment to which the present invention is applied.
FIG. 2 is a front view of the showcase of FIG.
FIG. 3 is a plan view of the showcase of FIG.
4 is a vertical side view of the showcase of FIG. 1. FIG.
FIG. 5 is another longitudinal side view for explaining the internal structure of the showcase of FIG. 1;
6 is an enlarged cross-sectional view of a cold air discharge port portion of the showcase of FIG. 1 in a state where a shutter is opened.
FIG. 7 is an electric circuit diagram of the control device of the showcase of FIG.
FIG. 8 is another plan view of the showcase of FIG.
9 is an enlarged cross-sectional view of a cold air discharge port portion of the showcase of FIG. 1 with a shutter closed.
FIG. 10 is an electric circuit diagram of a control device according to another embodiment of the showcase of the present invention.
FIG. 11 is an electric circuit diagram of a control device according to yet another embodiment of the showcase of the present invention.
[Explanation of symbols]
1 showcase
2 Insulation wall
3 Compressor
9 division wall
12 Bottom plate
13 display room
16, 17 display section
19 Cooling room
21 Cooler
22 Blower
23, 24 Cold air outlet
26, 27 Cold air inlet
63, 66, 68 Limit switch
H1, H2 Electric heater (heating device)
R Cooling device
S Shutter

Claims (6)

In a showcase with a display room that opens upward,
A showcase comprising: a cooling device that cools the display chamber; a heating device that heats the display chamber; and a control device that controls the cooling device and the heating device. The display chamber is partitioned into at least two display compartments, and the control device includes a cooling mode for cooling the display compartments by the cooling device, and an heating unit for heating the display compartments by the heating device. The showcase according to claim 1, further comprising: a temperature mode; and a cooling / warming mode in which the inside of the other display section is heated by the heating device while the inside of the display section is cooled by the cooling device. In the display section, a cool air discharge port for discharging cool air from the cooling device into the display section, a cool air suction port for sucking cold air circulated in the display section into the cooling device, and 3. A showcase according to claim 2, further comprising a shutter for closing the cold air discharge port and the cold air suction port so as to be freely opened and closed. 4. The showcase according to claim 3, wherein the control device causes the heating device to generate heat when the cool air discharge port and / or the cold air suction port are closed by the shutter. 5. The showcase according to claim 4, wherein the control device stops the cooling device when a cold air discharge port and / or a cold air suction port of both display sections are closed by the shutter. A cooling chamber configured below the display chamber, a cooler of the cooling device disposed below the display compartments in the cooling chamber, and below the other display compartment in the cooling chamber. A blower that is disposed at a corresponding position and circulates air over substantially the entire area of the cooler;
In a state where the cool air discharge port and the cool air suction port of the other display section are closed by the shutter, the control device heats the other display section by the heating device, and heats the cooler and the heat of the cooling device. 6. The showcase according to claim 3, wherein the cold / hot mode is executed by circulating the exchanged cold air into the one display section by the blower.

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