JP2008295534A - Showcase - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a showcase capable of easily achieving appropriate illumination corresponding to merchandise displayed inside a display chamber. <P>SOLUTION: The showcase 1 includes the display chamber 11 for displaying the merchandise and an illuminating device 38 for illuminating the inside of the display chamber 11. The illuminating device 38 includes a white LED 41W for emitting white light LW and color rendering LEDs (red LED 41R and green LED 41G) for emitting light having color rendering property, the white light LW is emitted from the white LED 41W to one or two or more parts of the inside of the display chamber 11, the front part of the display chamber 11 and the front, and the light (LR and LG) having the color rendering property is emitted from the color rendering LEDs to the inside of the display chamber 11. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a showcase provided with a display room for displaying products and a lighting device for illuminating the display room.

  Conventionally, this type of showcase, for example, as shown in Patent Document 1, by discharging cool air from the discharge port formed at the upper edge of the opening of the heat insulating wall having a substantially U-shaped cross section toward the suction port at the lower edge of the opening, An air curtain is formed in the opening, and the display chamber surrounded by the heat insulating wall is cooled to a predetermined temperature. A plurality of fluorescent lamps are attached to the outside of the upper edge of the opening or both sides of the opening and the bottom of the shelf to illuminate the display room and the showcase itself.

  Usually, a fluorescent lamp is used as an illuminating device that cools the interior of the cabinet as shown in Patent Document 1 and illuminates the products displayed in the cooling environment. As the fluorescent lamp, for example, FL4, FL6, FL8, FL10 and the like according to JIS (Japanese Industrial Standards) C7601 are adopted, and each of them has an elongated cylindrical shape. Therefore, the fluorescent lamp is attached by being locked to a holder attached to the display chamber side.

  When the AC power supply AC is turned on, the fluorescent lamp causes the starter to conduct for a certain period of time and allows a current to flow through the filament of the fluorescent lamp. And after a filament is heated, a ballast applies a high voltage between filaments by interrupting a starter. This high voltage causes a discharge between both filaments, which causes the fluorescent lamp to emit light. Once emitted, the fluorescent lamp continues to emit light by the ballast.

  An object that emits light by itself such as a fluorescent lamp, that is, a light source, has a different light emission color, and can express a light source color by a color temperature (K: Kelvin). For example, the fluorescent lamp has a white color, white white color, etc., 4000K to 7000K, the halogen bulb has about 3200K, and the bulb has about 2800K. In general, light emitted from a material having a low color temperature is red, and becomes white as the color temperature becomes higher, and becomes blue when the color temperature becomes higher. Therefore, the light emitted from the light bulb is reddish, and the halogen light bulb has a white temperature higher than that of the light bulb.

In recent years, by combining various light emissions created from artificial light such as fluorescent lamps, light is concentrated in the three wavelength regions of blue, green, and red, which have a strong color vision response, thereby improving illuminance and color rendering. Fluorescent lamps are being developed. That is, by using a fluorescent lamp in which more light is concentrated in the red wavelength region for illumination of the display room in the showcase, it is possible to produce a product such as meat displayed in the display room in a red color. In addition, by using a fluorescent lamp in which more light is concentrated in the green wavelength region for illumination of the display room, it is possible to produce products such as blue objects displayed in the display room in a greener manner.
JP-A-5-317146

  However, in stores such as supermarkets, even if vegetables, meat, and seafood are displayed, multiple showcases of the same type are installed for versatility. Therefore, in order to effectively illuminate the products displayed in the display room of the showcase, it is necessary to select and install a fluorescent lamp having color rendering properties according to the type of the product.

  Therefore, there is a problem that the store must have a plurality of types of fluorescent lamps that can realize color rendering properties according to the type of product. In addition, if the dedicated fluorescent lamps are not used, the color rendering properties of the fluorescent lamps may have an adverse effect on the product display. Therefore, in order to obtain an appropriate color rendering effect, there have been problems that cost increases and lighting management work becomes complicated.

  Therefore, the present invention has been made to solve the conventional technical problems, and provides a showcase capable of easily realizing appropriate lighting in accordance with products displayed in a display room.

  The showcase of the present invention includes a display room for displaying products, and a lighting device for illuminating the display room. The lighting device is a white LED that emits white light, and a color rendering that emits light having color rendering properties. LED, and white light is emitted from the white LED toward any one of the display room, the front part of the display room, or the front of the display room, or a plurality of them, and the color rendering LED Further, the present invention is characterized in that light having color rendering properties is irradiated toward the display room.

  The showcase of the invention of claim 2 is characterized in that, in the above invention, the color rendering LED is one of a red LED, a green LED, or a blue LED, or a combination thereof.

  According to a third aspect of the showcase of the present invention, in each of the above-described inventions, the lighting device includes a control device that controls energization of each LED, and the control device controls energization of the color rendering LEDs, thereby providing a display room. Irradiation light having a color rendering property suitable for a product to be displayed is irradiated into the display room.

  According to a fourth aspect of the present invention, in the above invention, the control device determines the product from the identification information attached to the product, and irradiates the display room with irradiation light having a color rendering property suitable for the product. It is characterized by that.

  The showcase according to a fifth aspect of the present invention is characterized in that, in each of the above inventions, the control device receives instruction data transmitted from the outside, and controls energization to the color rendering LED based on the instruction data.

  The showcase of the invention of claim 6 is characterized in that, in each of the above inventions, the color rendering LED is configured to be detachable independently of the white LED.

  According to the present invention, in a showcase provided with a display room for displaying products and a lighting device for illuminating the display room, the lighting device includes a white LED that emits white light, and a color rendering LED that emits light having color rendering properties. And irradiating white light from the white LED toward the display room, the front part of the display room, or one of the front of the display room, or a plurality of them, and displaying from the color rendering LED By irradiating the room with color rendering light, the front and front of the display room can be brightly illuminated with white light from the white LED, and the display room can be illuminated with color rendering light. By irradiating, the display room can be effectively illuminated.

  Accordingly, it is possible to realize lighting that emphasizes the color rendering properties suitable for the products displayed in the display room, and the displayed products can be effectively produced by the lighting device. In addition, the front and front of the display room are illuminated with white light, and in particular, the lighting effect is eliminated while eliminating the uncomfortable feeling caused by irradiating light that has color rendering properties to areas where products are not displayed. Can be improved.

  Further, the color rendering LED is one of red LED, green LED, or blue LED, or a combination thereof, as in the invention of claim 2, so that it is suitable for a product displayed in the display room. Thus, it is possible to realize lighting that emphasizes the color rendering properties, and the products to be displayed can be effectively produced by the lighting device.

  According to the invention of claim 3, in each of the above inventions, the lighting device includes a control device that controls energization to each LED, and the control device controls energization to the color rendering LED, thereby In order to irradiate the display room with illuminating light having a color rendering property suitable for the product displayed in the display, this also realizes lighting that emphasizes the color rendering property suitable for the product displayed in the display room This makes it possible to effectively produce products to be displayed by the lighting device.

  Therefore, by increasing the energization current to the green LED, it becomes possible to make a green product such as vegetables appear more brilliant, and by increasing the energization current to the red LED, for example, the reddish portion of meat is made to appear red. It becomes possible. In addition, by increasing the energization current to the blue LED, for example, it is possible to make seafood look more fresh. Thus, it becomes possible to improve the display effect of goods by changing color rendering property according to the kind of goods.

  According to invention of Claim 4, in the said invention, a control apparatus discriminate | determines goods from the identification information attached | subjected to goods, and irradiates the display room with the irradiation light which has the color rendering property of the color suitable for the said goods Accordingly, it is possible to irradiate merchandise in the display room with irradiation light having color rendering properties corresponding to the merchandise, and it is possible to improve the merchandise display effect.

  Therefore, effective lighting can be realized only by displaying the product in the display room. Therefore, it is not necessary to change the color rendering properties, and convenience can be improved.

  According to the invention of claim 5, in each of the above inventions, the control device receives the instruction data transmitted from the outside, and controls the energization to the color rendering LED based on the instruction data, so that each display from the outside It is possible to change the color rendering properties of the lighting device in the room, and it is possible to manage the lighting device in a batch.

  This eliminates the need to change the color rendering properties of each lighting device at the site where the showcase is installed, thereby improving convenience.

  According to invention of Claim 6, in said each invention, since color rendering LED is comprised so that attachment or detachment is possible independently of white LED, illumination using color rendering LED and illumination only by white LED are arbitrarily set. This can be realized and the convenience can be improved.

  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 of the present invention, and FIG. 2 is a longitudinal side view of the showcase 1. The showcase 1 of the present invention includes a heat insulating wall 2 having a substantially U-shaped cross section and side plates 3 and 3 attached to both sides of the heat insulating wall 2. A partition plate 4 is attached to the inside of the heat insulation wall 2 with a space between each other, and an inner and outer two-layer duct (not shown) is formed between the partition plate 4 and the heat insulation wall 2. In front of the lower end of the partition plate 4 constituting the inner partition plate, a deck pan 9 is attached with a gap for the duct between the bottom wall 2A of the heat insulating wall 2 and these partition plate 4 and deck pan 9 are attached. The display room 11 is inside.

  In the display chamber 11, the height and the mounting angle can be changed, and there are a plurality of a pair of brackets 31 attached to a column (not shown) on the back of the display chamber 11 and a plurality of shelf plates 32 that constitute a shelf together with the brackets 31. It is erected across the steps. A price rail 34 molded from hard synthetic resin is attached to the front edge of the shelf board 32, and the price rail 34 also serves as a decorative body for the shelf board 32. Further, a predetermined interval is formed between the front wall of the shelf board 32 and the price rail 34, and a guard 35 for preventing the products on the shelf board 32 from falling is provided at the interval. It is attached.

  An inner layer discharge port 16 and an outer layer discharge port 17 to which honeycomb materials 13 and 14 are respectively attached are arranged in parallel at the upper edge of the front opening 12 of the heat insulating wall 2, and these discharge ports 16 and 17 are connected to the inner layer duct and the inner layer discharge port, respectively. Each communicates with the outer duct. Further, an inner layer suction port 18 and an outer layer suction port 19 are arranged in parallel at the lower edge of the opening 12.

  On the other hand, a plurality of blowers (not shown) corresponding to the inner layer duct and the outer layer duct are installed on the bottom wall 2 </ b> A of the heat insulating wall 2 at the lower rear part of the deck pan 9. A cooler 27 of a cooling device is vertically installed in the inner layer duct behind the partition plate 4. When a blower corresponding to the inner layer duct is operated, the cold air exchanged with the cooler 27 rises in the inner layer duct. And discharged from the inner layer discharge port 16 toward the inner layer suction port 18. And the cold air sucked from the inner layer suction port 18 is accelerated again by the blower.

  On the other hand, when the blower corresponding to the outer layer duct is operated, the air in the outer layer duct is raised in the outer layer duct and discharged from the outer layer discharge port 17 toward the outer layer suction port 19. Then, the air sucked from the outer layer suction port 19 is accelerated again by the blower. Thereby, a front and rear double air curtain is formed in the opening 12, and a part of the inner cool air curtain is circulated in the display chamber 11 to cool the display chamber 11.

  Next, with reference to FIG.2 and FIG.3, the structure of the top wall 2B front part of the heat insulation wall 2 is demonstrated. FIG. 3 shows a partially enlarged view of FIG. A canopy 33 projecting forward is attached to the front end (upper front end) of the ceiling wall 2B of the heat insulating wall 2, and the canopy 33 extends inside the front opening 12 of the display chamber 11 inside. A reflector 20 is attached.

  The reflecting plate 20 is made of a metal plate to which decorative coating is applied, and at least the front portion of the reflecting plate 20 is bent so that illumination mounting portions 21 and 22 that are recessed in the longitudinal direction are formed. It is formed extending in the front-rear direction.

  One illumination attachment portion 21 (first illumination attachment portion) opens toward the front opening 12 of the display chamber 11 located at the lower rear side, and the surface corresponding to the opening of the illumination attachment portion 21 is The illumination mounting surface 21A is formed so as to face the front opening 12 of the display chamber 11 through the display chamber 11 from the upper front side, that is, facing the display chamber 11 in the rear obliquely lower direction.

  The other illumination attachment portion 22 (second illumination attachment portion) is open downward or forward slightly under the front, and the surface of the illumination attachment portion 22 corresponding to the opening is the illumination attachment surface 22A. It is configured to face the front portion of the display chamber 11 or the front of the display chamber 11 from above, that is, the front or front portion of the display chamber 11.

  In the present embodiment, the first illumination mounting portion 21 facing the display chamber 11 is provided on the front end side of the reflecting plate 20, and the second illumination mounting portion 22 facing the front portion of the display chamber 11 and the like It is assumed that it is provided closer to the display chamber 11 than the mounting portion 21.

  An illumination device 38 using a light emitting diode (hereinafter referred to as LED) as a light source is detachably attached to the illumination attachment surfaces 21A and 22A.

  The illumination device 38 in the present embodiment includes a plurality of white LEDs 41W arranged on a rectangular substrate 40 and a plurality of LEDs arranged on a rectangular substrate 43 as shown in the schematic configuration explanatory diagram of the illumination device 38 in FIG. It is composed of color rendering LEDs. Each board | substrate 40 and 43 is detachably attached to the illumination attachment parts 21 and 22, respectively. The white LED 41W is an LED that emits white light. In this embodiment, for example, a near-ultraviolet LED-based white LED using a white phosphor or a blue LED light source emits white light by passing through a yellow phosphor. It is composed of a white LED that can be used.

  On the other hand, the color rendering LED is an LED that emits light having color rendering properties. In this embodiment, the color rendering LED includes a red LED 41R that emits red light and a green LED 41G that emits green light. Note that the color rendering LED is not limited to these, and may be, for example, a blue LED as long as it emits light having color rendering properties that can more effectively illuminate the products displayed in the display room 11. It may be.

  In the present embodiment, the substrate 40 provided with the white LED 41W is attached to the illumination attachment portion 22 of the reflection plate 20. Thereby, the white light LW emitted from the white LED 41W is emitted toward the front of the display chamber 11 or the front of the display chamber 11. Note that the illumination by the white LED 41W is not limited to this, and the white light LW is directed toward the front part of the display room 11 or any one of the front or a plurality of them. Can be irradiated. On the other hand, the substrate 43 provided with the color rendering LEDs (red LED 41R, green LEDs 41 to 41 to 41G) is attached to the illumination attachment portion 21 of the reflector 20. Accordingly, the irradiation lights LR and LG with enhanced color rendering properties emitted from the color rendering LEDs are emitted toward the front opening 12 to the display chamber 11 of the display chamber 11.

  In the present embodiment, a plurality of white LEDs 41W are arranged in a straight line across the left and right with respect to the front opening of the display chamber 11, whereas the color rendering LEDs arranged substantially parallel to the white LEDs 41W are The number of LEDs smaller than the number of white LEDs 41W provided is arranged at a predetermined interval. Further, in the embodiment as shown in FIG. 4, the red LEDs 41R and the green LEDs 41G are not arranged alternately, but are arranged in a state of being grouped on one side. Note that the arrangement and number of these LEDs are not limited to this. For example, the color rendering LEDs may be arranged alternately.

  And as shown in FIG. 5, each white LED41W is connected in series, and the end of the said path | route is connected to the PWM circuit 42W which comprises an LED control part. Similarly, each red LED 41R constituting the color rendering LED is connected in series, and one end of the path is connected to the PWM circuit 42R constituting the LED control unit. Similarly, the green LEDs 41G constituting the color rendering LED are connected in series, and one end of the path is connected to the PWM circuit 42G constituting the LED control unit.

  On the other hand, the control device 48 includes an LED control unit 49 configured by the PWM circuits 42W, 42R, and 42G, and a constant voltage power source unit 50. The lighting device 38 is provided on the input side of the control device 48. A control panel 51 for changing the color rendering properties (color rendering pattern) is connected.

  The constant voltage power supply unit 50 includes an AD converter and converts alternating current from an external alternating current power supply AC into direct current. The DC power output from the constant voltage power supply unit 50 is supplied to the LED control unit 49 and supplied to the LEDs 41W, 41R, and 41G via the PWM circuits 42W, 42R, and 42G.

  Each PWM circuit 42W, 42R, 42G constituting the LED control unit 49 includes a constant voltage power supply unit 50, a path to which each white LED 41W is connected, a path to which each red LED 41R is connected, and a path to which each green LED 41G is connected. And a switch for conducting or interrupting the current flowing between them. Then, by controlling the switching of these switches by PWM control, the current flowing through each of the white LED 41W, the red LED 41R, and the green LED 41G is controlled.

  Pulse signals for PWM control in each of the PWM circuits 42W, 42R, and 42G are generated based on the color rendering pattern input from the control panel 51. That is, the control panel 51 can input color rendering patterns such as presence / absence of color rendering properties in the lighting device 38, red color rendering properties, and green color rendering properties. Based on the input of the pattern related to the color rendering, the energization current to each LED 41W, 41R, 41G of the illumination device 38 is controlled.

  In the case where illumination is performed by irradiation light with color rendering properties, the display chamber 11 has different left and right colors as shown in FIG. 4, and in this embodiment, the left side of the display chamber 11 is red color rendering light. In the case of illuminating and illuminating the right side with green color rendering light, specifically, in the case where the color rendering light of all colors is input from the control panel 51, it is provided in the control device 48. In the oscillation circuit, a pattern of a color rendering pulse train stored in advance, that is, a pulse signal for energizing the white LED 41W, the red LED 41R, and the green LED 41G as shown in FIG. 6 is generated.

  Accordingly, in such a case, as shown in FIG. 4, the illumination device 38 is irradiated with light from the white LED 41W, the red LED 41R, and the green LED 41G. Thereby, the front part, the front, etc. of the display room 11 can be illuminated brightly by the white light LW by the white LED 41W attached to the illumination attachment part 22, and one side in the display room 11 (toward in this embodiment). The left side) can be effectively illuminated by the irradiation light LR in which the red color rendering is emphasized, and the other side in the display room 11 (the right side in the present embodiment) is emphasized in the green color rendering. Illumination can be performed by the irradiated light LG.

  Thereby, the brightness of light is ensured by the white light LW irradiated by white LED41W in the front part of the display room 11, and the front. Further, by displaying red vegetables such as red meat parts and tomatoes on one side of the display room 11, the color rendering is performed by emphasizing the red color with the red irradiation light LR emitted from the red LED 41R. Lighting can be realized. Therefore, it becomes possible to make red vegetables such as meat and red vegetables such as tomatoes appear more red. On the other hand, by displaying a green product such as vegetables on the other side of the display room 11, it is possible to realize color rendering illumination that emphasizes green color by using green irradiation light LG emitted from the green LED 41G. It becomes. Therefore, it becomes possible to make green things such as vegetables look more lush.

  Accordingly, it is possible to realize lighting that emphasizes the color rendering properties suitable for the products displayed in the display room 11, and the displayed products can be effectively produced by the lighting device 38. In addition, the front and front of the display chamber 11 are irradiated with white light LW, in particular, while eliminating the sense of incongruity caused by irradiation with light having color rendering properties in areas where products are not displayed, It is possible to improve the lighting effect.

  In the present embodiment described above, the display room 11 has different left and right colors. In this embodiment, the left side of the display room 11 is illuminated with red color rendering light, and the right side of the display room 11 has green color rendering characteristics. Although the case of illuminating with light has been described, in addition to this, based on the input from the control panel 51, only one color rendering LED is turned on, and the other color rendering LED is turned off, so that the inside of the display chamber 11 is turned on. Illumination may be performed with partially color-rendering light.

  In addition, as described above, when the color rendering LEDs provided in the illumination attachment portion 21 are provided by alternately arranging the colors, when the entire display chamber 11 is illuminated with red color rendering light, Specifically, when red color rendering is input from the control panel 51, a pulse train pattern of red color rendering stored in advance in an oscillation circuit provided in the control device 48, that is, FIG. As shown in FIG. 5, only the white LED 41W and the red LED 41R are energized, and the green LED 41G, which is another color rendering LED, generates a pulse signal that is not energized.

  Thereby, the illumination device 38 is irradiated with light from the white LED 41W and the red LED 41R, and is not irradiated with light from the green LED 41G. Therefore, the brightness of the light is ensured in the display chamber 11 by the white light LW irradiated by the white LED 41W in the front of the display chamber 11 and the front. In addition, by displaying red vegetables such as red meat parts and tomatoes in the display room 11, for example, the color rendering illumination that emphasizes red is realized by the red irradiation light LR emitted from the red LED 41R. It becomes possible to do. Therefore, it becomes possible to make red vegetables such as meat and red vegetables such as tomatoes appear more red.

  On the other hand, when the entire display room 11 is illuminated with green color rendering light, specifically, when green color rendering is input from the control panel 51, an oscillation circuit provided in the control device 48 is connected to the oscillation circuit. Thus, a pre-stored green color rendering pulse train pattern, that is, only the white LED 41W and the green LED 41G are energized as shown in FIG. 8, and the red LED 41R, which is the other color rendering LED, generates a pulse signal that is not energized. To do.

  Thereby, the illumination device 38 is irradiated with light from the white LED 41W and the green LED 41G, and is not irradiated with light from the red LED 41R. Therefore, the brightness of the light is ensured in the display chamber 11 by the white light LW irradiated by the white LED 41W in the front of the display chamber 11 and the front. In addition, by displaying green objects such as vegetables in the display room 11, it is possible to realize color rendering illumination that emphasizes green color by using green irradiation light LG emitted from these green LEDs 41G. Therefore, it becomes possible to make green things such as vegetables look more lush.

  As described above, when a blue LED is used as the color rendering LED, it is displayed with the blue color rendering light in the same manner as in the case where the illumination is performed with the red color rendering light and the green color rendering light. The interior of the chamber 11 can be illuminated. In this case, for example, it is possible to make the seafood look more fresh.

  Further, in this embodiment, illumination is performed with light of each color rendering property by a pulse signal for PWM control generated based on a color rendering pattern relating to each color rendering. The pulse signal for PWM control is described above. The present invention is not limited to FIGS. For example, in addition to energizing the white LED 41W, the control device 48 energizes the red LED 41R and the green LED 41G at a predetermined energization ratio (combining each color rendering LED) and combining the light emitted from each LED. When a pulse train pattern having a predetermined color rendering property is stored and illumination is performed with the light having the color rendering property, a pulse signal may be generated according to the pulse train pattern.

  Therefore, by increasing the energizing current to the green LED 41G, it becomes possible to make a green product such as vegetables appear more brilliant, and by increasing the energizing current to the red LED 41R, for example, the reddish portion of meat is made to appear red. It becomes possible. In addition, by increasing the energization current to the blue LED, for example, it is possible to make seafood look more fresh. In this way, the display effect of the product can be improved by forming the light of the color rendering property arbitrarily and changing the color rendering property according to the type of the product without being limited to the light of the unique color rendering property possessed by the color rendering LED. It becomes possible to improve.

  In this embodiment, the energization control of each LED is performed by controlling the energization amount by PWM control. However, the present invention is not limited to this, and the controller 48 turns on / off the white LED 41W. Control may be ON / OFF control for each color rendering LED, for example, for each red LED 41R, and for each energization current to the green LED 41G. In this case, the control device 48 can adjust the brightness by performing energization control with a limited number such as whether all the white LEDs 41W are energized or every other LED. It is also good.

  In this embodiment, by operating the control panel 51 and inputting the presence / absence of color rendering and each color rendering pattern, illumination with light of color rendering properties corresponding to the products displayed in the display room 11 is realized. However, the present invention is not limited to this. For example, as shown in FIG. 9, color rendering light may be emitted from the lighting device 38 based on information from the identification tag 54 attached to the product. And

  In this case, the control device 48 includes a receiving unit (identification information discriminating unit) 53 on any product mounting surface of the illumination part of the lighting device to be controlled, and product information is displayed on the product displayed in the display room 11. An identification tag 54 is attached. Then, when the product information is input to the receiving unit 53 by the identification tag 54, the control device 48 discriminates the received product and realizes illumination with color rendering light corresponding to the product. Is possible.

  Thereby, the control apparatus 48 can control the electric current which flows through each LED according to the said goods by discriminating the said goods from the identification information attached | subjected to the goods. Therefore, effective lighting can be realized only by displaying the product in the display room 11. Therefore, it is not necessary to change the color rendering properties, and convenience can be improved.

  In addition to this, as shown in FIG. 10, generally, by a centralized management device 55 for collectively managing temperature control of a showcase installed in a store, lighting on / off of a lighting device, and the like, Illumination with color rendering light by each lighting device of the showcase may be performed. The central control device 55 and the control device 48 provided in the showcase 1 can communicate with each other by wire or wireless.

  Thereby, the control device 48 receives the instruction data transmitted from the centralized management device 55, and controls the current flowing through each LED of the illumination device 38 based on the instruction data, thereby easily making the illumination device 38. It becomes possible to change the color rendering properties by. Thereby, management of the illuminating device 38 collectively becomes possible. Therefore, it is not necessary to change the color rendering property of the lighting device 38 at the site where the showcase 1 is installed, and the convenience can be improved. In this embodiment, the color rendering property of the lighting device 38 can be changed by the centralized management device 55 installed in the same store. However, the present invention is not limited to the centralized management device 55, and is a showcase. 1 is not limited to this as long as it can communicate instruction data from the outside (external input means).

  In addition, showcases usually installed in supermarkets are limited to showcases that display vegetables and showcases that display meat, and temperature control is often performed according to each product. Accordingly, as shown in FIGS. 11 and 12, the color rendering LED may be configured only by color rendering LEDs that emit light having a predetermined color rendering property, for example, the red LED 41R and the green LED 41G according to the application. In FIG. 11, the color rendering LED is configured by only the red LED 41R, and the color rendering lighting in which the red color is emphasized by the red irradiation light LR is realized in the display chamber 11, and FIG. 12 shows the color rendering LED as the green LED 41G. In the display chamber 11, the color rendering illumination that emphasizes the green color is realized by the green irradiation light LG.

  In this embodiment, the color rendering LEDs such as the red LED 41R and the green LED 41G are provided on the substrate 43 independent of the substrate 40 on which the white LED 41W is provided. Since it is configured to be detachable, an effective color rendering illumination similar to the present embodiment can be obtained by separately attaching a substrate 43 provided with color rendering LEDs (red LED 41R, green LED 41G) to an existing showcase or the like. It can be realized.

  As a result, it is possible to arbitrarily realize illumination using color rendering LEDs and illumination using only white LED 41W, thereby improving convenience.

  Further, in the present embodiment, the lighting device 38 is described as an example attached to the inside of the canopy 33, but is not limited thereto, for example, the front lower surface of the shelf 32. A lighting device configured in substantially the same manner as the lighting device 38 between the front end of the deck pan 9 and the suction port 18 and a surface facing the display chamber 11 of the handrail constituting the lower edge of the opening 12 of the heat insulating wall 2 It is also possible to effectively illuminate the products displayed in the display room 11 by providing the above.

It is a perspective view of a showcase. It is a vertical side view of a showcase. FIG. 3 is a partially enlarged view of FIG. 2. It is schematic structure explanatory drawing of an illuminating device. It is a schematic circuit block diagram of an illuminating device. It is a figure which shows the pattern of the pulse train of each LED in the case of accompanied with several color rendering properties. It is a figure which shows the pattern of the pulse train of each LED of red color rendering property. It is a figure which shows the pattern of the pulse train of each LED of green color rendering property. It is a schematic circuit block diagram of the illuminating device of another Example. It is a schematic circuit block diagram of the illuminating device of another another Example. It is a figure which shows the illumination state of the illuminating device of red color rendering property. It is a figure which shows the illumination state of the illuminating device of green color rendering property.

Explanation of symbols

LW, LR, LG Irradiation light 1 Showcase 2 Heat insulation wall 11 Display room 12 Front opening 20 Reflector 21 First illumination mounting portion 22 Second illumination mounting portion 21A, 22A Lighting mounting surface 32 Shelf 38 Lighting device 40, 43 Substrate 41W white LED
41R Red LED (Color rendering LED)
41G green LED (color rendering LED)
42W, 42R, 42G PWM circuit 48 Control device 49 LED control unit 50 Constant voltage power supply unit 51 Control panel 53 Receiving unit (identification information discriminating unit)
54 Identification tag 55 Centralized management device (external input means)

Claims (6)

In a showcase provided with a display room for displaying products and a lighting device for illuminating the display room,
The lighting device includes a white LED that emits white light, and a color rendering LED that emits light having color rendering properties,
While irradiating white light from the white LED toward the display room, the front part of the display room, or any one of the front, or a plurality of them,
A showcase in which light having color rendering properties is irradiated from the color rendering LED toward the display room.   The showcase according to claim 1, wherein the color rendering LED is one of a red LED, a green LED, and a blue LED, or a combination thereof. The lighting device includes a control device that controls energization of the LEDs,
The control device irradiates the display room with irradiation light having a color rendering property suitable for a product displayed in the display room by controlling energization to the color rendering LED. The showcase according to claim 1 or claim 2.   The said control apparatus discriminate | determines goods from the identification information attached | subjected to the said goods, and irradiates the said display room with the irradiation light which has the color rendering property of the color suitable for the said goods. Showcase.   The show according to any one of claims 1 to 4, wherein the control device receives instruction data transmitted from the outside, and controls energization to the color rendering LED based on the instruction data. Case.   The showcase according to any one of claims 1 to 5, wherein the color rendering LED is configured to be detachable independently from the white LED.

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