JP5186262B2 - Showcase - Google Patents

Description

  The present invention relates to a showcase in which a plurality of shelves for displaying merchandise are installed in a display room, and an electric heater for heating merchandise on the shelves is attached to each shelf.

  Open type showcases (open showcases) that have been installed in supermarkets and convenience stores in the past have been configured with a duct between the inside of the heat insulating wall and a space between the partition plates. In the duct, a display chamber opened in the front is configured, and a cooler and a blower of a cooling device are installed in the duct, and the cool air exchanged with the cooler is blown out from the duct into the display chamber by the blower. .

  In this case, a cold air discharge port is formed at the upper edge of the opening of the display chamber, and a cold air suction port is formed at the lower edge of the opening, both of which communicate with the duct. Then, cold air was blown out from the cold air discharge port at the upper edge of the opening, the display chamber was cooled while forming an air curtain, and the blown cold air was sucked from the cold air suction port at the lower edge of the opening.

  Further, a plurality of shelves are installed in the display room. A shelf duct (cold air passage) is formed inside the shelf, and a rear end communicates with a rear duct at the back of the heat insulating box. In addition, a cold air discharge port communicating with the shelf duct is formed at the front end of the shelf. As a result, the cool air that has risen in the rear duct is drawn into the shelf duct via the communication portion, and discharged from the cool air discharge port formed at the front end of the shelf, thereby cooling the product in the display room below the shelf. Do (refrigerated area).

A cord heater (electric heater) is attached to the shelf. A product such as canned coffee was placed on the shelf and heated by an electric heater (a warming region; see, for example, Patent Document 1).
JP 2004-215704 A

  In the showcase as described above, the heating region is controlled by controlling the energization of the electric heater based on the shelf temperature detected by the shelf sensor attached to the inside of the shelf. Therefore, energization control to the electric heaters provided in each shelf is controlled independently based on the detected temperature of the corresponding temperature sensor.

  Therefore, even when the temperature is maintained, the electric heaters are energized at the same time as the temperatures detected by the respective temperature sensors reach the ON point, and the energization time becomes longer for the entire showcase and the energization rate is high. There was a problem.

  Therefore, the present invention has been made to solve the conventional technical problem, and it reduces the energization rate of each shelf and reduces the maximum current value that is energized at the same time as the entire apparatus, while appropriately heating. A showcase capable of heating an area is provided.

  The showcase of the present invention has a plurality of product display shelves installed in the display room, and each shelf is provided with an electric heater for heating the product on the shelf, A temperature sensor that detects the temperature, and a control device that controls energization of the electric heaters of each shelf between a predetermined upper limit temperature and a lower limit temperature based on the output of the temperature sensor. When the temperature reaches a predetermined combination control start temperature between the upper limit temperature and the lower limit temperature, combination control is performed in which the electric heaters of the shelves are alternately energized.

  The showcase of the invention of claim 2 is characterized in that, in the above invention, when the control device starts combination control, the control device energizes the electric heater of the shelf with the lower temperature among the plurality of shelves first. To do.

  According to a third aspect of the present invention, in the above inventions, when the control device is executing the combination control, if the temperature of all the shelves falls below the combination control start temperature, the electric heaters of all the shelves It is characterized by energizing.

  The showcase of the invention of claim 4 is that, in each of the above inventions, when the control device is executing the combination control, the temperature of any shelf is higher than the lower limit temperature or the combination control start temperature higher than the lower limit temperature. When the temperature drops to a predetermined low combination control stop temperature, the combination control is released.

  According to the present invention, in a showcase in which a plurality of shelves for product display are installed in a display room, and an electric heater for heating the product on the shelf is attached to each shelf, the temperature of each shelf is set. A temperature sensor to detect, and a control device that controls the energization of the electric heaters of each shelf between a predetermined upper limit temperature and a lower limit temperature based on the output of the temperature sensor, and the control device has a temperature of all the shelves When a predetermined combination control start temperature between the upper limit temperature and the lower limit temperature is reached, combination control is performed by alternately energizing the electric heaters of each shelf, so that the temperature of each shelf is maintained above the predetermined lower limit temperature. By alternately energizing the shelves, it is possible to realize the heating control of the products on each shelf by the electric heater while reducing the current value that is simultaneously energized to the entire showcase.

  Therefore, energy saving operation of the entire showcase can be realized, and the maximum current value of the entire showcase can be reduced.

  According to the invention of claim 2, in the above invention, when starting the combination control, the control device first energizes the electric heater of the shelf with the lower temperature among the plurality of shelves, thereby each shelf It is possible to realize energy-saving heating control in which the simultaneous energization current value of the entire showcase is reduced while maintaining the temperature at a higher level.

  According to the invention of claim 3, in each of the above inventions, when the control device is executing the combination control, if the temperature of all the shelves falls below the combination control start temperature, the control device applies the electric heaters to all the shelves. Even if the shelf temperature temporarily drops due to, for example, product replenishment work, etc., by performing the energy saving operation by alternately energizing the electric heaters of the shelf device by energizing, as necessary Thus, the temperature of the shelf can be raised, and appropriate heating control of the products on the shelf can be realized.

  According to the invention of claim 4, in each of the above-mentioned inventions, when the control device is executing the combination control, the temperature of any shelf is higher than the lower limit temperature or the lower limit temperature and lower than the combination control start temperature. When the temperature drops to a predetermined combination control stop temperature, by canceling the combination control, it is possible to avoid the inconvenience that the shelf temperature decreases more than necessary, and appropriate heating control of the products on each shelf is performed. Can be realized.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of a showcase 1 according to an embodiment to which the present invention is applied, and FIG. 2 is a vertical side view of the showcase 1 of FIG. The showcase 1 according to the embodiment is a so-called desktop open showcase installed in a state where it is placed on a table such as a cashier counter in a store such as a convenience store or a supermarket. In the display room 11 for displaying products formed in the showcase 1, a cooling area, a heating area, or both a cooling area and a heating area can be configured, so that the use of cooling / heating is possible. It is supposed to be possible.

  The main body 2 is constituted by a heat insulating wall 3 having a substantially U-shaped cross section that opens to the front surface of the showcase 1 and side plates 4 and 4 attached to both sides thereof. A back panel 6 and a top panel 7 are disposed on the back and top surfaces of the inside of the heat insulating wall 3 with a space therebetween, and the back panel 6 and the top panel 7 and the heat insulating wall 3 are spaced from the back. A rear duct 9 extending upward is formed.

  In addition, a deck pan 10 extending forward is provided at the lower end of the back panel 6, and a display chamber 11 is formed inside the back panel 6, the top panel 7, and the deck pan 10. A lower duct 14 communicating with the rear duct 9 and constituting a part thereof is formed below the deck pan 10.

  The upper end of the rear duct 9 communicates with the upper cool air discharge port 16 positioned at the upper edge of the front opening of the display chamber 11, and the front end of the lower duct 14 is positioned at the lower edge of the front opening of the display chamber 11 and includes a plurality of slits. It communicates with the cold air inlet 17. In addition, a cool air circulation blower 19 is disposed in the lower duct 14 below the deck pan 10, and a cooler 15 constituting a refrigeration cycle of the cooling device R is vertically installed in the rear duct 9 behind the display chamber 11. ing.

  A machine room 25 is formed below the heat insulating wall 3. A compressor 26, a condenser 27, and a condenser for constituting a refrigerant circuit of the cooling device R together with the cooler 15 are formed in the machine room 25. A blower 28 is installed, and an electrical box (not shown) that houses a power source and a control board is also provided. A back plate 29 made of a steel plate is attached to the back of the heat insulating wall 3 with a predetermined distance from the back surface of the heat insulating wall 3, and an exhaust duct is provided between the back plate 29 and the heat insulating wall 3. 30 is configured.

  The lower end of the exhaust duct 30 opens and communicates with the rear portion of the machine room 25, and the upper end is open above the showcase 1. A panel 31 closes the front surface of the machine room 25 so that it can be opened and closed. Reference numeral 32 denotes an evaporating dish provided in the lower part of the machine room 25.

  A plurality of shelves 12 are installed in the display chamber 11, and in this embodiment, four shelves are installed vertically. In the present embodiment, the shelf device 12 at the top level is the shelf device 12A, the shelf device 12 at the second level from the top is the shelf device 12B, and the shelf device 12 at the third level from the top (second level from the bottom) is the shelf device. The shelf device 12 at the lowest level of 12C is referred to as a shelf device 12D.

  Each shelf device 12 has a pair of left and right brackets 20 having hook-like claws protruding rearward at the rear end, a shelf board 21 mounted on the bracket 20 and mounted thereon, and a product placement surface of the shelf board 21. And an electric heater 22 (shown in FIG. 3) for heating. In this embodiment, the electric heater 22 is provided in the shelf device 12A, the electric heater 22A is provided in the shelf device 12B, the electric heater 22B is provided in the shelf device 12C, the electric heater 22C is provided in the shelf device 12C, and the shelf device. What is provided in 12D is an electric heater 22D.

  Then, each shelf device 12 is engaged with the engagement holes of the shelf columns (not shown) attached to both front surfaces of the rear panel 6 in the display chamber 11 so that the rack devices 12 can be engaged and disengaged. It is installed so that the vertical position (height) can be changed inside.

  Moreover, in FIG. 2, 35 is a shelf duct member. A shelf duct 36 is formed in the shelf duct member 35, and the front end of the shelf duct 36 is communicated with a shelf cold air discharge port 37 that opens obliquely forward and downward at the front end of the shelf duct member 35, and the rear end is It opens at the cold air inlet 38, is superposed on the communication part 40 formed on the back panel 6, and communicates with the back duct 9.

  Further, the shelf duct member 35 is provided with a damper member 39 attached to the upper side of the cold air inlet 38 so as to be movable in the front-rear direction. Damper sensors (open / close detection means) 39A, 39B, 39C for detecting that the damper member 39 has closed the rear duct 9 are provided at the rear end of the damper member 39 and connected to the control device C. Has been.

  In such a configuration, by projecting the damper member 39 toward the rear duct 9, the rear duct 9 can be closed on the upper side of the communication portion 40, and the cool air in the rear duct 9 can be passed through the cool air inlet 38. It can be introduced into the shelf duct 36 and discharged from the under-shelf cold air outlet 37 that opens downward at the front opening of the display chamber 11.

  In the showcase 1 of the present embodiment, the shelf device 12A constituting the uppermost stage, the shelf device 12B constituting the second stage from the top, and the shelf apparatus 12C constituting the second stage from the bottom have the shelf duct 36. In addition, since the damper member 39 is provided, the damper member 39 can be operated, and the rear duct 9 can be closed at the height of the operated shelf device 12.

  Next, the control device C in the present embodiment will be described with reference to FIG. The control device C is constituted by a general-purpose microcomputer and includes a timer 48 as a time limit means. On the input side of the control device C, a control panel 42 provided with various setting switches, a display unit, etc., damper sensors 39A, 39B, 39C, an internal temperature sensor 44 for detecting the internal temperature, and the temperature of each shelf device 12 Are connected to a shelf sensor 45 (a temperature sensor 45A of the shelf device 12A, a temperature sensor 45B of the shelf device 12B, a temperature sensor 45C of the shelf device 12C, a temperature sensor 45D of the shelf device 12D), and the like. The inside temperature sensor 44 is provided, for example, on the ceiling inside the display room 11 of the showcase 1.

  On the output side of the control device C, there are a compressor motor 26M of the compressor 26, an electric heater 22 (22A to 22D) provided in each shelf device 12, a blower motor 19M of the cool air circulation blower 19, and a condenser blower 28. A blower motor 28M and the like are connected.

  With the above configuration, the control operation of the showcase 1 will be described with reference to FIGS. FIG. 4 is a flowchart for determining the usage pattern in the display room, and FIG. 5 is a timing chart of the electric heater 22 of each shelf device 12.

  In step S1 of FIG. 4, the control device C determines whether or not the entire display chamber 11 is to be refrigerated and used as a cooling region, based on the input settings by the control panel 42 and the outputs of the damper sensors 39A, 39B, and 39C. .

  Here, in the case where the entire display chamber 11 is refrigerated and used as a cooling area, the heating control of the electric heaters 22A to 22D of each of the shelf devices 12A to 12D is stopped, and in this state, the air circulation fan When 19 is operated, the cold air exchanged with the cooler 15 rises in the rear duct 9 and is discharged from the upper cold air discharge port 16. The discharged cool air cools the display chamber 11 while forming a cool air curtain in the front opening of the display chamber 11. Then, the circulation that is sucked into the lower duct 14 from the cold air suction port 17 and sucked into the blower 19 again is repeated. As a result, the entire area in the display chamber 11 is set as a cooling region cooled to the refrigeration temperature, and the products on all the shelf devices 12 are cooled.

  On the other hand, if the entire interior of the display chamber 11 is not refrigerated and used as a cooling region, the control device C proceeds to step S2 and displays the display chamber based on the input settings by the control panel 42 and the outputs of the damper sensors 39A, 39B, 39C. It is determined whether the entire area 11 is used as a heating area or is used for cold / warming (HC operation) in which a cooling area and a heating area are partitioned by a predetermined shelf device 12.

  In the case of cold / warm use (HC operation), the control device C proceeds to step S3 and determines the number of heating shelf devices by the electric heater 22. In the case of cold / warm use where the inside of the display chamber 11 above the uppermost shelf device 12A is a heating region and the inside of the display chamber 11 below the shelf device 12A is a cooling region, the number of the heating shelf devices Is one step.

  In such a case, when the temperature of the shelf device 12A reaches a predetermined lower limit temperature based on the detection of the temperature sensor 45A that detects the temperature of the shelf device 12A, the control device C controls the electric heater 22A of the shelf device 12A. When energization is started and a predetermined upper limit temperature is reached, energization of the electric heater 22A is stopped. By controlling energization to the electric heater 22A, the shelf of the shelf device 12A is controlled to a predetermined heating temperature.

  Then, the cool air rising in the back duct 9 enters the shelf ducts 36 of the shelf devices 12C, 12B, and 12A from the communication portion 40 formed in the back panel 6, and the inside of the display chamber 11 from the bottom shelf cool air discharge port 37. It is discharged toward. Thereby, the inside of the display chamber 11 below the uppermost shelf device 12A is made into a cooling region by cold air supply and is used for refrigeration.

  When the number of heating shelf devices by the electric heater 22 is two or more in step S3, and when the entire interior of the display chamber 11 is used as a heating area in step S2, the control device C Proceed to step S4.

  In step S4, the control device C sets the shelf device 12 used as a heating region to a continuous operation in which continuous energization is performed based on the detected temperatures of the temperature sensors 45A to 45D provided in each shelf device 12, or will be described later. It is determined whether to perform a combination operation in which the electric heaters 22 are alternately energized by the combination.

  In the case where the entire display chamber 11 is used as a heating area, the heating control based on the temperature detected by the temperature sensors 45A to 45D provided for the electric heaters 22A to 22D of all the shelf devices 12A to 12D, respectively. Execute.

  On the other hand, in the case of cold / warm use (HC operation), the control device C determines an electric heater to be energized according to the number of heating shelf devices, and the cooling device R as in the above case. To drive. That is, the damper member 39 of the second shelf device 12B from the top is operated, and the closing of the damper sensor 39B is detected, and the region above the shelf device 12B is used in a refrigerated state and below the shelf device 12B. When the inside of the display chamber 11 is refrigerated, the control device C sets the electric heaters 22A and 22B of the shelf devices 12A and 12B above the shelf device 12B in the second stage from the top to continuous operation or combination operation. Thereby, the inside of the display chamber 11 above the shelf device 12B at the second stage from the top is set as a heating region by stopping the supply of cold air and energizing the electric heaters 22A and 22B, and is used as a refrigerator.

  Then, the cool air rising in the back duct 9 enters the shelf duct 36 of the shelf devices 12C and 12B from the communication portion 40 formed in the back panel 6, and is directed from the under-shelf cool air discharge port 37 toward the lower part in the display chamber 11. Discharged. Thereby, the inside of the display chamber 11 below the shelf device 12B is made into a cooling region by cold air supply and used for refrigeration.

  In addition, the damper member 39 of the second shelf device 12C from the bottom is operated to detect the closing of the damper sensor 39C, and the area above the shelf device 12C is used in a warm state, and the display below the shelf device 12C is displayed. When the inside of the chamber 11 is refrigerated, the control device C sets the electric heaters 22A, 22B, 22C of the shelf devices 12A and 12B, 12C above the shelf device 12C of the second stage from the bottom to continuous operation or combination operation. . As a result, the inside of the display chamber 11 above the shelf device 12C, which is the second stage from the bottom, is set as a heating region by stopping the supply of cold air and energizing the electric heaters 22A, 22B, and 22C, and is used for warm storage.

  Then, the cool air rising in the back duct 9 enters the shelf duct 36 of the shelf device 12C from the communication portion 40 formed in the back panel 6, and is discharged from the under-shelf cool air discharge port 37 toward the lower part in the display chamber 11. Is done. Thereby, the inside of the display chamber 11 below the shelf device 12C is made into a cooling region by cold air supply and is used for refrigeration.

  Hereinafter, referring to the timing chart of FIG. 5, each shelf apparatus in the case where the upper side from the shelf apparatus 12 </ b> C in the second stage from the bottom is used as a heating area and the inside of the display chamber 11 below the shelf apparatus 12 </ b> C is used as a cooling area. The energization control of the electric heaters 22A, 22B, and 22C of 12A, 12B, and 12C will be described.

  First, when the shelf temperature detected by the temperature sensors 45A to 45C provided in all the shelf devices 12A, 12B, and 12C is lower than the predetermined combination operation start temperature in the temperature determination in step S4, the control device C is all The electric heaters 22A, 22B, 22C are continuously energized continuously. The combination operation start temperature is assumed to be higher than the lower limit temperature and lower than the upper limit temperature with respect to the set temperature used for shelf heating control as described above.

  When the temperature detected by the temperature sensors 45A to 45C of all the shelf devices 12A, 12B, and 12C reaches a predetermined combination operation start temperature or more by the continuous operation, the control device C proceeds to step S5 and performs the combination operation. The shelf device that performs (combination control) is determined.

  In the present embodiment, the top shelf device 12A and the electric heaters 22A and 22B of the shelf device 12B in the second stage from the top are combined and operated, and the remaining single shelf device 12C is, in principle, the shelf device 12C. Based on the temperature detected by the temperature sensor 45C, when the temperature reaches a predetermined lower limit temperature, energization of the electric heater 22C of the shelf device 12C is started, and when the temperature reaches a predetermined upper limit temperature, the electric heater 22C is energized. A single ON / OFF control to stop the operation is executed.

  In the above combined operation (control), the control device C alternately energizes the two electric heaters (in this case, the electric heaters 22A and 22B). When the combined operation is started, the control device C first energizes the electric heaters of the shelf device having the lower internal temperature of the shelf devices 12A and 12B performing the combined operation.

  In FIG. 5, the temperature of the shelf device 12B is lower when the temperature of the shelf devices 12A and 12B reaches the combined operation start temperature. Therefore, the electric heater 22B of the shelf device 12B is energized, and the electric heater 22A of the other shelf device 12A is de-energized.

  Therefore, the electric heater of the lower shelf device is energized first, thereby realizing energy-saving heating control that reduces the simultaneous energization current value of the entire showcase while maintaining the temperature of each shelf at a higher state. It becomes possible.

  In the present embodiment, the control device C determines whether or not a predetermined unit operation time T has elapsed since the start of the combination operation based on the built-in timer 48. Each time the unit operation time T elapses, the control device C, as a rule, performs a combined operation even before the energized shelf device reaches a predetermined upper limit temperature (OFF point). The energization of the electric heater of the other shelf apparatus is de-energized and the energization of the electric heater of the other shelf apparatus is started. And the control apparatus C measures the unit operation time T again from the said energization start, and heats the shelf apparatus which is performing combination operation alternately.

  Here, as shown in the unit operation time T1 of FIG. 5, the shelf temperature of the shelf device 12B gradually rises, and the temperature detected by the temperature sensor 45B of the shelf device 12B reaches a predetermined upper limit temperature (OFF point). When it has reached, the control device C stops energization of the electric heater 22B of the shelf device 12B that has reached the upper limit temperature and the electric heater of the other shelf device 12A even before the unit operation time T1 has elapsed. 22A energization is started.

  In this state, when the unit operation time T1 elapses, the control device C determines whether or not the electric heater has been energized during the previous unit operation time T1. Without switching the energized state, measurement of the unit operation time T2 is started again in this state. In addition, when the energization switching of the electric heater is not performed at the previous unit operation time T1, the energization of the combined electric heater is switched after the end of the unit operation time.

  When the temperature of the shelf device 12A heated by the energized electric heater 22A reaches the predetermined upper limit temperature (OFF point) during the unit operation time T2, the control device C, as described above, Even before the operation time T2 has elapsed, the energization of the electric heater 22A of the shelf apparatus 12A that has reached the upper limit temperature is stopped, and the energization of the electric heater 22B of the other shelf apparatus 12B is started.

  The control device C starts the operation of the unit operation time T3, and when the unit operation time T3 has elapsed, the control device C is in a state before the shelf device 12B reaches the predetermined upper limit temperature (OFF point). The electric heater 22B that is energized in the shelf apparatus 12B that is performing the combined operation is deenergized, and the electric heater 22A of the other shelf apparatus 12A is energized.

  Thereafter, the combined operation is similarly performed depending on the unit operation time count as described above and whether or not the temperature of the shelf device has reached the upper limit temperature.

  When the combined operation is performed, as shown in FIG. 5, when the unit operation time (in this case, T4) has elapsed, the temperature of one (in this case, one of the shelf devices) is a predetermined lower limit temperature ( When the temperature drops to a predetermined combination operation stop temperature that is higher than the lower limit temperature and lower than the combination operation start temperature, the control device C cancels the combination operation.

  And the control apparatus C performs said ON / OFF control (continuous operation) about each shelf apparatus 12A, 12B based on the temperature which each temperature sensor 45A, 45B detects.

  Thereby, it is possible to avoid the disadvantage that the temperature of the shelf is lowered more than necessary, and it is possible to realize appropriate heating control of the products on each shelf.

  When the temperature detected by the temperature sensors 45A and 45B of the temperature sensors 45A and 45B reaches a predetermined combination operation start temperature again, the control device C starts the combination operation again.

  Further, during the combined operation, as shown in FIG. 5, when the unit operation time (in this case, T5) has elapsed, the temperature of all the shelf devices that are executing the combined operation, in this case, the shelf devices 12A and 12B, When the temperature is lower than the combined operation start temperature, the control device C starts energization of the electric heaters 22A and 22B of both the shelf devices 12A and 12B without releasing the combined operation. At this time, in the present embodiment, since the electric heater 22C of the other shelf device 12C is independently turned on / off in addition to this, when the electric heater 22C is energized, the whole The energization of the electric heater 22C is stopped only when both the shelf devices 12A and 12B are energized at the same time in order to reduce the energization amount.

  Thereby, even if the shelf temperature temporarily decreases due to, for example, a product replenishment operation, by performing the energy saving operation by alternately energizing the electric heaters of the shelf device, The temperature of the product can be increased, and appropriate heating control of the goods on the shelf can be realized.

  In this case, the control device C counts the unit operation time again by the timer 48 when any one of the shelf devices (the shelf device 12B in FIG. 5) that has executed the combined operation reaches the combined operation start temperature. The electric heater of the shelf apparatus with the lower inside temperature of the shelf apparatuses 12A and 12B that have started and combined operation is energized first.

  Thus, according to the present invention, while maintaining the temperature of each shelf device at a predetermined lower limit temperature or more, by alternately energizing the shelf, while reducing the current value that is simultaneously energized to the entire showcase 1, It becomes possible to realize heating control of products on each shelf by each electric heater.

  Therefore, energy saving operation of the entire showcase can be realized, and the maximum current value of the entire showcase can be reduced.

  In the above embodiment, the uppermost shelf device 12A and the electric heaters 22A and 22B of the second shelf device 12B from the top are operated in combination, and the remaining single shelf device 12C has an electric heater 22C alone. However, the present invention is not limited to this, and all three stages may be combined operation as described above.

  In the above embodiment, the case where the three stages of the shelf device of the showcase 1 are controlled to be heated and the first stage is controlled to cool is described. For example, the upper two stages are controlled to be heated and the lower two stages are controlled to be cooled. In the case of performing, the combined operation as described above is executed for the upper two shelf devices 12A and 12B. When heating control is performed on all four stages, for example, a combination operation in which the upper two-stage shelf apparatuses 12A and 12B are combined and a combination operation in which the lower two-stage shelf apparatuses 12C and 12D are combined may be employed.

  Further, the set temperatures such as the combination operation start temperature and the combination operation stop temperature can be arbitrarily set by the control panel 42, but are not limited thereto, and the energization time and temperature gradient to each electric heater are not limited thereto. May be changed at any time.

It is a perspective view of the showcase of the Example to which this invention is applied. It is a vertical side view of the showcase of FIG. It is an electrical block diagram of a control apparatus. It is a usage pattern discrimination | determination flowchart in a display room. It is a timing chart of the electric heater of each shelf apparatus.

Explanation of symbols

R Cooling device C Control device 1 Showcase 2 Main body 3 Heat insulation wall 11 Display room 12, 12A, 12B, 12C, 12D Shelf device 15 Cooler 17 Cold air inlet 19 Cooling air circulation blower 22, 22A, 22B, 22C, 22D Electricity Heater 25 Machine room 39A, 39B, 39C Damper sensor 42 Control panel 44 Internal temperature sensor 45A, 45B, 45C, 45D Temperature sensor 48 Timer

Claims (4)

In a showcase in which a plurality of shelves for product display are installed in the display room, and each shelf is provided with an electric heater for heating the product on the shelf,
A temperature sensor that detects the temperature of each shelf; and a control device that controls energization of the electric heaters of each shelf between a predetermined upper limit temperature and a lower limit temperature based on the output of the temperature sensor;
The control device performs combination control in which the electric heaters of the shelves are alternately energized when the temperatures of all the shelves reach a predetermined combination control start temperature between the upper limit temperature and the lower limit temperature. Showcase.   2. The showcase according to claim 1, wherein, when starting the combination control, the control device first energizes an electric heater of the shelf at a lower temperature among the plurality of shelves. 3.   The control device, when executing the combination control, energizes the electric heaters of all the shelves when the temperature of all the shelves falls below the combination control start temperature. Or the showcase of Claim 2.   When the control device is executing the combination control, the temperature of any one of the shelves falls to the lower limit temperature or a predetermined combination control stop temperature that is higher than the lower limit temperature and lower than the combination control start temperature. The showcase according to any one of claims 1 to 3, wherein the combination control is canceled.

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