JP2015215094A - Show case - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a show case capable of restricting the reduction in dehumidification performance of a dehumidification part resulted from the blockage of a dehumidifier.SOLUTION: A show case 100 comprises: a dehumidification part 30 disposed in an inner case duct 12 on the upstream side of an evaporator 27 as well as in a back face duct 15 on the downstream side of a condenser 24 straddling the inner case duct 12 and the back face duct 15 so as to be replaceable between a part 30a disposed in the inner case duct 12 and a part 30b disposed in the back face duct 15; a blockage restraint fan 31 disposed on the upstream side of the dehumidification part 30 as well as in the back face duct 15 on the downstream side of the condenser 24 for restraining the blockage of the dehumidification part 30 by removing debris adhering to the dehumidification part 30 with blast; and a control part 33 for starting the operation of the blockage restraint fan 31 when the dehumidification part 30 is blocked.

Description

  The present invention relates to a showcase, and more particularly, to a showcase having a dehumidifying portion disposed in a duct in a warehouse.

  Conventionally, a showcase including a dehumidifying part (dehumidifier) disposed in an internal duct (ventilation passage) is known (see, for example, Patent Document 1). In Patent Document 1, a dehumidifier is disposed in an air passage upstream of a cooling heat exchanger (evaporator). Thereby, since the air supplied to the cooling heat exchanger is dehumidified, it is suppressed that frost adheres to the cooling heat exchanger.

  In addition, the dehumidifier of Patent Document 1 described above is a flow in which part of the dehumidifier is arranged in an air flow path (ventilation path) supplied to the cooling heat exchanger, and the other part is a flow of heated air from the hot water heater. Placed on the road. In addition, the dehumidifier is configured to rotate, and includes a portion disposed in a flow path (air passage) of air supplied to the cooling heat exchanger and a flow path through which heated air from the hot water heater flows. It is comprised so that the part currently arrange | positioned may be replaced. When the dehumidifier is rotated, the portion where moisture is adsorbed by dehumidification (the portion disposed in the flow path of the air supplied to the heat exchanger for cooling) flows through the heated air from the hot water heater. Placed on the road. As a result, the moisture adsorbed on the dehumidifier is removed.

  Conventionally, a dehumidifier in which a dehumidifying material is contained in a breathable sheet such as paper formed in a honeycomb shape or a corrugated shape is known (for example, see Patent Document 2). And when air passes through this dehumidifier, the moisture contained in the air is dehumidified.

JP 2006-29743 A JP 58-109118 A

  When the dehumidifier made of the breathable sheet described in Patent Document 2 is used as the dehumidifier described in Patent Document 1, dust contained in the air passes through the dehumidifier. May adhere to the dehumidifier and the dehumidifier may become blocked. In this case, there exists a problem that the dehumidification performance of a dehumidifier (dehumidification part) falls.

  The present invention has been made to solve the above-described problems, and one object of the present invention is to suppress the dehumidifying performance of the dehumidifying portion from being deteriorated due to the dehumidifier being blocked. It is to provide a showcase that can be done.

  The showcase according to one aspect of the present invention includes an internal duct for supplying cool air to the interior, an exhaust duct for exhausting the condensation heat of the condenser, and an internal duct on the upstream side of the evaporator. In the exhaust duct on the downstream side of the condenser, the portion disposed in the internal duct and the portion disposed in the exhaust duct can be interchanged so as to straddle the internal duct and the exhaust duct. The dehumidifying part is arranged in the exhaust duct on the upstream side of the dehumidifying part and on the downstream side of the condenser, and the blockage of the dehumidifying part is suppressed by removing foreign matter adhering to the dehumidifying part by blowing air. And a control unit that starts operation of the blockage suppression unit when the dehumidifying unit is blocked. In addition, the blockage in this application is a wide concept including not only the case where foreign matter is clogged and the air cannot pass at all, but also the case where the foreign matter is partially clogged in the dehumidifying part and the air becomes difficult to pass.

  In the showcase according to one aspect of the present invention, as described above, blockage suppression means for suppressing blockage of the dehumidification part by removing foreign matter attached to the dehumidification part by blowing, and blockage suppression when the dehumidification part is blocked And a control unit for starting the operation of the means. Thereby, when the dehumidification part is obstruct | occluded, since the operation | movement of the obstruction | occlusion suppression means is started and the foreign material adhering to the dehumidification part is removed by ventilation, it can suppress that the dehumidification performance of a dehumidification part falls.

  In the showcase according to the above one aspect, preferably, the display unit further includes a detection unit that detects that the dehumidification unit is blocked due to foreign matter attached, and the control unit detects that the dehumidification unit is blocked In addition, the operation of the blockage suppressing means is started, and the foreign matter adhering to the dehumidifying part is removed by blowing. If comprised in this way, since the obstruction | occlusion of a dehumidification part is detected by a detection part, the driving | operation of an obstruction | occlusion suppression means can be started easily.

  In this case, preferably, the detection unit is provided in the internal duct, and when the detection unit detects the blockage of the dehumidification unit, the control unit includes a portion disposed in the internal duct of the dehumidification unit and the exhaust duct. It replaces with the part arrange | positioned in the inside, and the driving | operation of the obstruction | occlusion suppression means is started, and it is comprised so that the foreign material adhering to a dehumidification part may be removed by ventilation. If comprised in this way, when the detection part detects the obstruction | occlusion of a dehumidification part, since the part to which the foreign material of the dehumidification part adhered is arrange | positioned in the exhaust duct in which an obstruction | occlusion suppression means is arrange | positioned, Foreign matter can be removed by blowing air.

  In the showcase in which the detection unit is provided in the internal duct, preferably, the dehumidifying unit is configured to be rotatable, and the dehumidifying unit rotates and is disposed in the internal duct every predetermined first time. And the part disposed in the exhaust duct are interchanged, and the moisture adsorbed in the part disposed in the exhaust duct of the dehumidifying part is removed by the heat of condensation. When the blockage of the part is detected, the dehumidifying part is rotated to replace the part disposed in the internal duct and the part disposed in the exhaust duct even if the predetermined first time has not elapsed. It is configured to start the operation of the blockage suppression means and remove the foreign matter adhering to the dehumidifying portion by blowing air. If comprised in this way, unlike the case where a dehumidification part rotates only for every predetermined | prescribed 1st time, when a dehumidification part obstruct | occludes, the foreign material adhering to a dehumidification part can be rapidly removed by ventilation.

  In this case, preferably, the control unit is configured to rotate the dehumidifying unit and reset a timer that counts a predetermined first time when detecting the blockage of the dehumidifying unit. If comprised in this way, while the foreign material adhering to a dehumidification part is removed by ventilation, predetermined 1st time passes and the dehumidification part in the state in which the removal of a foreign material is inadequate is inside a duct in a store | warehouse | chamber. It can suppress arrange | positioning.

  In the showcase in which the dehumidifying unit rotates every predetermined first time, preferably, the control unit stops the operation of the blockage suppression unit after a predetermined second time has elapsed after starting the operation of the blockage suppression unit. It is configured as follows. If comprised in this way, since the obstruction | occlusion suppression means can be operated only for the time required for the removal of a foreign material, it can suppress that electric power is consumed wastefully.

  In the showcase in which the detection unit is provided in the internal duct, it is preferable that the detection unit further includes an evaporator blower fan provided on the upstream side of the evaporator for blowing air to the evaporator, and the detection unit is located upstream of the evaporator. And a wind speed sensor that is disposed in the internal duct on the downstream side of the evaporator blower fan and detects the wind speed of the air flowing through the internal duct. Here, when a foreign substance adheres to a dehumidification part, it originates in air becoming difficult to pass a dehumidification part, and the wind speed of the air which flows through the inside duct is small. Therefore, the blockage of the dehumidifying part can be easily detected by detecting the wind speed of the air flowing in the internal duct by the wind speed sensor.

  According to this invention, it can suppress that the dehumidification performance of a dehumidification part falls resulting from obstruction | occlusion of a dehumidifier as mentioned above.

It is sectional drawing of the showcase by one Embodiment of this invention. It is a front view of the showcase by one Embodiment of this invention. It is a block diagram of the showcase by one Embodiment of this invention. It is a flowchart for demonstrating operation | movement of the showcase by one Embodiment of this invention.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying the present invention will be described below with reference to the drawings.

  First, the configuration of the showcase 100 according to the present embodiment will be described with reference to FIG.

  As shown in FIG. 1, the showcase 100 is provided with a case body 10. The case main body 10 is an open type (open type) in which products (not shown) are displayed and sold in a display chamber 11 whose front side is open. The display room 11 is an example of “inside” of the present invention.

  The case body 10 is provided with an internal duct 12. The internal duct 12 is provided on the back side (X1 direction side) of the display chamber 11 via the heat insulating material 13, and extends in the vertical direction (Z direction), and below the display chamber 11 (Z2 direction side). And a portion 12b extending in the horizontal direction (X direction). Moreover, the internal duct 12 (part 12a) is connected to the display chamber 11, and is configured to supply cool air for cooling the products displayed in the display chamber 11.

  A machine room 14 is provided below the case body 10 (in the Z2 direction).

  The case body 10 is provided with a back duct 15. The back duct 15 is provided on the back side (X1 direction side) of the internal duct 12 via the heat insulating material 13 so as to extend upward (Z1 direction). The lower part of the back duct 15 is connected to the machine room 14. The rear duct 15 is configured such that condensation heat (exhaust heat) from a condenser 24 (described later) disposed in the machine room 14 is exhausted. The back duct 15 is an example of the “exhaust duct” in the present invention.

In addition, the case main body 10 is provided with a refrigerator unit 20 that uses, for example, carbon dioxide (CO ₂ ) as a refrigerant.

  As shown in FIGS. 1 and 3, the refrigerator unit 20 is provided with a compressor 21. The compressor 21 is provided in the machine room 14. The compressor 21 is configured to be rotationally driven by a drive unit 23 (see FIG. 3) that is driven by AC power supplied from an AC power source 22 (see FIG. 3). The compressor 21 has a role of compressing the gas refrigerant sucked from the low pressure side in the refrigerator unit 20 and discharging it to the high pressure side.

  The refrigerator unit 20 is provided with a condenser 24. The condenser 24 is provided in the machine room 14. The condenser 24 has a function of cooling (condensing) the superheated gas refrigerant circulating inside using outside air. At this time, heat of condensation of the refrigerant is generated. The refrigerant condensed (liquefied) in the condenser 24 flows into an expansion valve 25 described later.

  The refrigerator unit 20 is provided with a condenser blower fan 26 (see FIG. 1). The condenser blower fan 26 is provided in the machine room 14. Specifically, the condenser blower fan 26 is provided between the condenser 24 and the compressor 21. The condenser blower fan 26 is configured to take in outside air through the filter 16 provided below the case body 10 and blow the air to the condenser 24.

  The refrigerator unit 20 is provided with an expansion valve 25 (see FIG. 3). The expansion valve 25 has a role of expanding and reducing (reducing pressure) the refrigerant cooled (liquefied) by the condenser 24 and supplying the refrigerant 27 to the evaporator 27. Further, the liquid refrigerant expanded by the expansion valve 25 flows into the evaporator 27 in a gas-liquid two-phase state composed of a gas phase and a liquid phase.

  The refrigerator unit 20 is provided with an evaporator 27. As shown in FIG. 1, the evaporator 27 is provided in a portion 12 a extending in the vertical direction (Z direction) of the internal duct 12. When the circulating refrigerant evaporates (vaporizes), the evaporator 27 cools by taking heat from the air circulating in the internal duct 12. The air (cold air) cooled by the evaporator 27 is supplied to the display chamber 11. The evaporated refrigerant in the evaporator 27 is returned to the compressor 21 in a gas state containing a large amount of gas phase.

  The refrigerator unit 20 is provided with an evaporator blower fan 28 (see FIG. 1). The evaporator blower fan 28 is provided on the upstream side of the evaporator 27. Specifically, the evaporator blower fan 28 is provided at a boundary portion between a portion 12a extending in the vertical direction (Z direction) and a portion 12b extending in the horizontal direction (X direction) of the internal duct 12. And the evaporator ventilation fan 28 is comprised so that cold air may be taken in from the lower cold-air inlet 17 provided in the front side (X2 direction) of the case main-body part 10, and it may ventilate to the evaporator 27. FIG. At this time, a part of the outside air including moisture is sucked into the lower cold air inlet 17 together with the cold air.

  The refrigerator unit 20 is configured to repeat a cycle in which the refrigerant discharged from the compressor 21 flows in the order of the condenser 24, the expansion valve 25, and the evaporator 27 and is returned to the compressor 21.

  The showcase 100 (case body 10) is provided with a dehumidifying part 30. The dehumidifying unit 30 is provided in the internal duct 12 on the upstream side (Z2 direction side) of the evaporator 27 and in the rear duct 15 on the downstream side (Z1 direction side) of the condenser 24. Moreover, the dehumidification part 30 straddles the internal duct 12 and the back surface duct 15 so that the part 30a arrange | positioned in the internal duct 12 and the part 30b arrange | positioned in the back surface duct 15 can be replaced. Has been placed.

  Moreover, as shown in FIG. 2, the dehumidification part 30 has a horizontally long shape along a horizontal direction (Y direction). Specifically, the dehumidifying part 30 is provided so as to extend from the vicinity of one end (Y1 direction side) of the case main body 10 to the vicinity of the other end (Y2 direction side). And the dehumidification part 30 is comprised rotatably about the rotating shaft A extended in the direction along the Y direction. Moreover, the dehumidifying part 30 rotates so that the dehumidifying part 30 rotates every predetermined first time t1, and the part 30a arranged in the internal duct 12 and the part 30b arranged in the back duct 15 are switched. It is configured. And the water | moisture content adsorb | sucked to the part arrange | positioned in the back surface duct 15 of the dehumidification part 30 (part 30a arrange | positioned in the internal duct 12 before rotation of the dehumidification part 30) by condensation heat (exhaust heat) is removed. It is comprised so that.

  Moreover, the dehumidifying part 30 is comprised by including a dehumidifying material in breathable sheets, such as paper, for example.

  Here, in the present embodiment, the showcase 100 (case main body portion 10) is provided with a closing suppression fan 31. The blockage suppression fan 31 is disposed in the rear duct 15 on the upstream side (Z2 direction side) of the dehumidifying unit 30 and on the downstream side (Z1 direction side) of the condenser 24. Further, one (or a plurality) of the blocking suppression fans 31 are provided. And the obstruction | occlusion suppression fan 31 is comprised so that the obstruction | occlusion of the dehumidification part 30 may be suppressed by removing the foreign material (dust etc.) adhering to the dehumidification part 30 by ventilation. In addition, a foreign material adheres to the part 30c by the side of the evaporator ventilation fan 28 (Z2 direction side) in the part 30a arrange | positioned in the internal duct 12 of the dehumidification part 30. FIG. The blockage suppression fan 31 is an example of the “blocking suppression unit” in the present invention.

  In the present embodiment, the wind speed sensor 32 is provided in the showcase 100 (case body 10). The wind speed sensor 32 is disposed in the internal duct 12 on the upstream side (Z2 direction side) of the evaporator 27 and on the downstream side (Z1 direction side) of the evaporator blower fan 28. And the wind speed sensor 32 is comprised so that the wind speed of the air which flows through the inside of the warehouse duct 12 may be detected. The wind speed sensor 32 is an example of the “detecting unit” in the present invention.

  Further, as shown in FIG. 3, the showcase 100 (case body 10) is provided with a control unit 33. The control unit 33 is configured to control the entire showcase 100. In the present embodiment, the control unit 33 rotates the dehumidification unit 30 when the wind speed sensor 32 detects the blockage of the dehumidification unit 30, and the portion 30 a disposed in the internal duct 12 of the dehumidification unit 30. And the portion 30b disposed in the rear duct 15 are interchanged. And the control part 33 starts the driving | operation of the obstruction | occlusion suppression fan 31, and the foreign material adhering to the dehumidification part 30 (the part 30c arrange | positioned in the internal duct 12 before rotation of the dehumidification part 30 see FIG. 1). Is removed by blowing air. For example, the control unit 33 is configured to determine that the dehumidifying unit 30 is closed when the wind speed sensor 32 detects a wind speed less than a predetermined threshold.

  Moreover, when the control part 33 detects the obstruction | occlusion of the dehumidification part 30, even if the predetermined 1st time t1 has not passed, the dehumidification part 30 is rotated and the part 30a arrange | positioned in the duct 12 in a warehouse And the portion 30b disposed in the rear duct 15 are interchanged. And the control part 33 starts the driving | operation of the obstruction | occlusion suppression fan 31, and is comprised so that the foreign material adhering to the dehumidification part 30 may be removed by ventilation. Further, when detecting the blockage of the dehumidifying unit 30, the control unit 33 is configured to rotate the dehumidifying unit 30 and reset the timer 34 (see FIG. 3) that counts a predetermined first time t1. . That is, the time t counted by the timer 34 is reset to zero. Further, the control unit 33 is configured to stop the operation of the blockage suppression fan 31 after a predetermined second time t2 has elapsed since the operation of the blockage suppression fan 31 was started.

  Next, the flow of cool air in the showcase 100 will be described with reference to FIG.

  In the showcase 100, the cold air cooled by the evaporator 27 is supplied from the internal duct 12 to the display chamber 11. Further, the cold air is blown out from the upper cold air outlet 18 provided above the case body 10 (Z1 direction) and from the lower cold air inlet 17 provided below the case body 10 (Z2 direction). Inhaled. Thereby, the air curtain 19 is formed in the front side (X2 direction side) of the case main-body part 10. FIG. As a result, outside air is prevented from entering the display chamber 11. Further, the cold air and the outside air sucked from the lower cold air suction port 17 are blown again to the evaporator 27 by the evaporator blower fan 28.

  Next, the operation of the control unit 33 of the showcase 100 will be described with reference to FIG.

  First, in step S1, it is determined whether or not the time t counted by the timer 34 has passed a predetermined first time t1. In step S1, when it is determined that the time t counted by the timer 34 has passed the predetermined first time t1 (t ≧ t1), the process proceeds to step S2. In step S <b> 2, the dehumidifying unit 30 rotates and the portion 30 a disposed in the internal duct 12 of the dehumidifying unit 30 and the portion 30 b disposed in the back duct 15 are switched. Thereby, the part arrange | positioned in the back surface duct 15 of the dehumidification part 30 (part 30a arrange | positioned in the inside duct 12 before rotation of the dehumidification part 30) by the condensation heat ventilated by the condenser ventilation fan 26 Moisture adsorbed on is removed. In step S2, the timer 34 is reset. Then, it returns to step S1.

  In step S1, when the time t counted by the timer 34 has not passed the predetermined first time t1 (t <t1), it is determined in step S3 whether the blockage of the dehumidifying unit 30 has been detected. If blockage of the dehumidifying unit 30 is not detected in step S3, the process returns to step S1. And when blockade of dehumidification part 30 is detected in Step S3, it progresses to Step S4.

  And in step S4, the dehumidification part 30 rotates and the part 30a arrange | positioned in the internal duct 12 of the dehumidification part 30 and the part 30b arrange | positioned in the back surface duct 15 are replaced. Thereby, the part 30c of the dehumidifying part 30 to which a foreign substance adheres will be in the state (part 30c shown with the dotted line of FIG. 1) which faced the upper side (Z1 direction side) in the back surface duct 15. FIG. In addition, the timer 34 is reset.

  Next, in step S5, the operation of the blockage suppression fan 31 is started. Thereby, the foreign material adhering to the dehumidification part 30 (The part 30c arrange | positioned in the internal duct 12 before rotation of the dehumidification part 30) is removed by ventilation.

  Then, in step S6, it is determined whether or not the time t counted by the timer 34 has passed a predetermined second time t2. That is, it is determined whether or not the operation time of the blockage suppression fan 31 has passed a predetermined second time t2. When it is determined that the time t counted by the timer 34 has not passed the predetermined second time t2 (t <t2), the operation of step S6 is repeated. When it is determined that the time t counted by the timer 34 has passed the predetermined second time t2 (t ≧ t2), the process proceeds to step S7. The predetermined second time t2 is set to be shorter than the predetermined first time t1 (t2 <t1). Accordingly, it is determined that the predetermined first time t1 has elapsed before the predetermined second time t2 has elapsed, and the dehumidifying unit 30 is prevented from rotating in a state where the removal of foreign matter is incomplete. In step S7, the operation of the blockage suppression fan 31 is stopped. Then, it returns to step S1.

  In the present embodiment, the following effects can be obtained.

  In the present embodiment, as described above, the dehumidifying unit 30 is disposed in the rear duct 15 upstream of the dehumidifying unit 30 and downstream of the condenser 24 and removes foreign matter adhering to the dehumidifying unit 30 by blowing air. And a control unit 33 that starts operation of the blockage suppression fan 31 when the dehumidifying unit 30 is blocked. Thereby, when the dehumidification part 30 obstruct | occludes, since the operation | movement of the obstruction | occlusion suppression fan 31 is started and the foreign material adhering to the dehumidification part 30 is removed by ventilation, it suppresses that the dehumidification performance of the dehumidification part 30 falls. Can do.

  Moreover, in this embodiment, the wind speed sensor 32 which detects that the dehumidification part 30 is obstruct | occluded by adhering a foreign material as mentioned above is provided. The control unit 33 is configured to start the operation of the blockage suppression fan 31 and remove the foreign matter attached to the dehumidification unit 30 by blowing air when the wind speed sensor 32 detects the blockage of the dehumidification unit 30. Thereby, since the obstruction | occlusion of the dehumidification part 30 is detected by the wind speed sensor 32, the driving | operation of the obstruction | occlusion suppression fan 31 can be started easily.

  In the present embodiment, the wind speed sensor 32 is provided in the internal duct 12 as described above. Then, when the wind speed sensor 32 detects the blockage of the dehumidifying unit 30, the controller 33 determines a portion 30 a disposed in the internal duct 12 of the dehumidifying unit 30 and a portion 30 b disposed in the rear duct 15. It replaces and starts the driving | operation of the obstruction | occlusion suppression fan 31, and it comprises so that the foreign material adhering to the dehumidification part 30 may be removed by ventilation. As a result, when the wind speed sensor 32 detects the blockage of the dehumidifying unit 30, the portion of the dehumidifying unit 30 to which foreign matter has adhered (the portion 30 c disposed in the internal duct 12 before the rotation) is blocked by the blockage suppression fan 31. Therefore, the foreign matter can be removed by blowing air from the blockage suppression fan 31.

  Further, in the present embodiment, as described above, when the control unit 33 detects the blockage of the dehumidifying unit 30, the dehumidifying unit 30 is rotated even if the predetermined first time t1 has not elapsed. The part 30a arranged in the inner duct 12 and the part 30b arranged in the rear duct 15 are exchanged, and the operation of the blockage suppression fan 31 is started so that the foreign matter adhering to the dehumidifying part 30 is removed by blowing air. Configure. Thereby, unlike the case where the dehumidification part 30 rotates only every predetermined | prescribed 1st time t1, when the dehumidification part 30 obstruct | occludes, the foreign material adhering to the dehumidification part 30 can be rapidly removed by ventilation.

  In the present embodiment, as described above, when the controller 33 detects the blockage of the dehumidifying unit 30, the controller 33 rotates the dehumidifying unit 30 and resets the timer 34 that counts a predetermined first time t1. Configure. Thereby, while the foreign matter adhering to the dehumidifying part 30 is being removed by blowing, the dehumidifying part 30 in a state where the predetermined first time t1 has passed and the removal of the foreign matter is insufficient is inside the internal duct 12. It can suppress arrange | positioning.

  In the present embodiment, as described above, the controller 33 is configured to stop the operation of the blockage suppression fan 31 after a predetermined second time t2 has elapsed since the operation of the blockage suppression fan 31 was started. . Thereby, since the obstruction | occlusion suppression fan 31 can be drive | operated only for the time required for the removal of a foreign material, it can suppress that power is consumed wastefully.

  Further, in the present embodiment, as described above, the wind speed of the air that is disposed in the internal duct 12 upstream of the evaporator 27 and downstream of the evaporator blower fan 28 and flows in the internal duct 12 is detected. A wind speed sensor 32 is provided. Here, when a foreign substance adheres to the dehumidification part 30, since the air becomes difficult to pass through the dehumidification part 30, the wind speed of the air which flows through the inside duct 12 becomes small. Therefore, by detecting the wind speed of the air flowing through the internal duct 12 by the wind speed sensor 32, the blockage of the dehumidifying unit 30 can be easily detected.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the above-described embodiment, the example in which the foreign matter attached to the dehumidifying portion is removed by the blockage suppression fan is shown, but the present invention is not limited to this. For example, you may provide the wind tunnel which ventilates to a dehumidification part in the dehumidification part vicinity. And you may make it remove the foreign material adhering to a dehumidification part by the ventilation from a wind tunnel.

  Moreover, although the dehumidification part showed the example comprised so that rotation was possible centering on the rotating shaft (refer FIG. 2) extended in the direction along the Y direction in the said embodiment, this invention is not limited to this. For example, the dehumidifying unit may be configured to be rotatable around a rotation axis extending in the direction along the Z direction.

  Moreover, in the said embodiment, although the example in which the dehumidification part is provided in a showcase along a horizontal direction (Y direction) was shown, this invention is not limited to this. For example, a plurality of dehumidifying units may be provided along the horizontal direction (Y direction).

  Moreover, in the said embodiment, although the example which detects that the foreign material adhered to the dehumidification part was shown with the wind speed sensor, this invention is not limited to this. For example, the humidity of the air entering the dehumidifying part and the air coming out of the dehumidifying part are measured, and based on the measured humidity, it is detected that foreign matter has adhered to the dehumidifying part (the dehumidifying amount has decreased). It may be. Moreover, you may comprise so that the adhering foreign material may be detected using an optical sensor.

  In the above embodiment, an example in which the wind speed sensor is provided in the internal duct is shown, but the present invention is not limited to this. For example, if it is a place where blockage of the dehumidifying part can be detected, a wind speed sensor may be provided in a place other than the internal duct (for example, a display room to which cold air is supplied).

  In the above embodiment, the example in which the operation of the blockage suppression fan is stopped after the predetermined second time has elapsed has been described, but the present invention is not limited to this. For example, the operation of the blockage suppression fan may be stopped after detecting the removal of the foreign matter attached to the dehumidifying unit using an optical sensor or the like.

11 Display room (inside)
12 Internal duct 15 Back duct (exhaust duct)
24 Condenser 27 Evaporator 28 Evaporator Blower Fan 30 Dehumidifying Part 30a Part 30b Part 31 Clogging Suppression Fan (Clogging Suppression Unit)
32 Wind speed sensor (detector)
33 Control unit 34 Timer 100 Showcase t1 1st time t2 2nd time

Claims (7)

An evaporator duct is arranged, and an internal duct for supplying cold air into the internal compartment;
An exhaust duct for exhausting the condensation heat of the condenser;
In the internal duct on the upstream side of the evaporator and in the exhaust duct on the downstream side of the condenser, the portion disposed in the internal duct and the portion disposed in the exhaust duct are switched. As possible, a dehumidifying part arranged so as to straddle the internal duct and the exhaust duct;
A clogging suppression means that is disposed in the exhaust duct on the upstream side of the dehumidifying part and on the downstream side of the condenser, and that suppresses the clogging of the dehumidifying part by removing foreign matter attached to the dehumidifying part by air blowing;
A showcase comprising: a control unit that starts operation of the blockage suppressing means when the dehumidifying unit is blocked. A detection unit for detecting that the dehumidification unit is blocked by the adhering foreign matter;
The control unit is configured to start operation of the blockage suppression unit when the detection unit detects blockage of the dehumidification unit, and to remove foreign matters attached to the dehumidification unit by blowing air. The showcase according to claim 1. The detector is provided in the internal duct,
When the detection unit detects the blockage of the dehumidification unit, the control unit replaces a portion of the dehumidification unit disposed in the internal duct with a portion disposed in the exhaust duct and the blockage The showcase according to claim 2, configured to start operation of the suppression unit and remove foreign matter attached to the dehumidifying unit by blowing air. The dehumidifying part is configured to be rotatable, and the dehumidifying part is rotated every predetermined first time, and a part disposed in the internal duct and a part disposed in the exhaust duct are provided. It is configured so that moisture adsorbed on the portion of the dehumidifying part disposed in the exhaust duct is removed by the heat of condensation.
When the control unit detects the blockage of the dehumidifying unit, even if the predetermined first time has not elapsed, the control unit rotates the dehumidifying unit to dispose the portion disposed in the internal duct and the exhaust 4. The showcase according to claim 3, wherein the showcase is configured to replace a portion disposed in the duct and start the operation of the blockage suppression unit to remove the foreign matter attached to the dehumidifying portion by blowing air.   The show according to claim 4, wherein the controller is configured to rotate the dehumidifying unit and reset a timer that counts the predetermined first time when detecting the blockage of the dehumidifying unit. Case.   The showcase according to claim 4 or 5, wherein the control unit is configured to stop the operation of the blockage suppression unit after a predetermined second time has elapsed since the operation of the blockage suppression unit was started. . Provided further on the upstream side of the evaporator, further comprising an evaporator blower fan for blowing air to the evaporator;
The detection unit includes a wind speed sensor that is disposed in the internal duct upstream of the evaporator and downstream of the evaporator blower fan and detects a wind speed of air flowing in the internal duct. Item 7. The showcase according to any one of Items 3 to 6.

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