JP4334268B2 - Store management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a store management system in which a plurality of stores are connected to a center server via a network, and the operation control state of each facility installed in each store is centrally managed by the center server.
[0002]
[Prior art]
Generally, for example, a temperature sensor is incorporated in various devices such as a showcase and an air conditioner installed in each store. And an apparatus controls operation uniquely so that the temperature detected with this temperature sensor may turn into the target temperature set with respect to the applicable apparatus.
[0003]
Learn about PMV (Predicted Mean Vote), which is a thermal sensation index (comfort index) adapted to the actual human sensation, and comfort of this thermal sensation index (comfort index). Patent Document 1 describes a technique for maintaining the control amount of an air conditioner within a range.
[0004]
Showcases installed in stores include open cases, refrigerated reach, refrigerated walk-in, and frozen reach. Such showcases include a control panel that monitors the operation of a refrigerator that blows cold air. . In this control panel, mechanical control is mainly performed.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 5-126380
[0006]
[Problems to be solved by the invention]
However, in a store management system that monitors and controls the temperature and the like by each device such as an air conditioner and a showcase in each store, the monitoring and control of the temperature is influenced by the characteristics of the individual devices (equipment) and managed. However, efficiency is reduced when considering the point that cannot be unified and the energy saving effect of the entire store.
[0007]
In addition, air conditioners and showcases are taken into account at each store, taking into account the visitor's feelings from the weather of the day, the feelings of the people who actually work in the store, and changes in products due to work such as stocking. It is necessary to adjust the set (target) temperature of the equipment frequently.
[0008]
However, in a state where the set (target) temperature of the air conditioner and showcase equipment in each store is mechanically fixed at a specific temperature, the set (target) temperature of the air conditioner and showcase equipment is It is very cumbersome for the person in charge at the site who is stationed at this store and visits each sales floor and each device (equipment) to adjust frequently.
[0009]
In addition, in order to save money and reduce unnecessary energy consumption, it is necessary to operate devices (equipment) such as an air conditioner and a showcase in an energy saving mode according to the situation at that time.
[0010]
The present invention has been made in view of such circumstances, and the operation of each facility provided in each store can be easily controlled, for example, by an in-store administrator via a store server. An object of the present invention is to provide a store management system that can efficiently drive, and thus can improve the comfortable environment and energy saving effect in each store.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the store management system of the present invention includes a plurality of store servers that are provided in each store and acquire information on each facility in the store via each terminal and monitor and control each facility. A center server that is connected to the store server of each store via a network and manages information of each store obtained from each store server, and a client that browses information managed by this center server are provided.
[0012]
  And in the store management system of this invention, the portable small-sized information terminal which gives the control instruction | indication with respect to each installation in a store with respect to the store server in a store in each store is provided.Each small information terminal has an energy saving level transmitting means for transmitting an energy saving level instructed to operate at the terminal to the store server, and the store server of each store designates a control parameter for each facility in the store. Control that controls the operation of each facility, and control that changes the control parameter specified for each facility to the control parameter corresponding to the received energy conservation level when receiving the energy saving level from the small information terminal Parameter changing means
[0013]
According to another invention, in the store management system of the invention described above, the small information terminal wirelessly transmits and receives information to and from the store server.
[0014]
  In the store management system configured as described above, for example, a sales floor or facility manager (responsible person) that circulates in the store operates the portable small-sized information terminal, and the store can be easily accessed via the store server. It is possible to control each facility.In the store management system configured as described above, for example, a sales floor or facility manager (responsible person) that patrols the store operates a portable small-sized information terminal that he / she owns to “enhance energy saving”. Alternatively, when a simple energy saving level such as “energy saving normal” is designated, the store server controls the operation with a control parameter corresponding to the energy saving level received for each facility. Therefore, a sales floor or facility manager (responsible person) traveling around the store can easily change the energy saving level in the store as needed.
[0017]
Moreover, another invention is the store management system of the invention described above, wherein the small information terminal has an internal temperature level transmitting means for transmitting the internal temperature level of the cooling facility in the store instructed to the store to the store server. ing. Furthermore, the store server of each store receives an operation control means for controlling the operation of each cooling facility by specifying a control parameter for the cooling facility in the store, and an internal temperature level from the small information terminal. Control parameter changing means for changing the control parameter designated for the cooling facility to the control parameter corresponding to the received internal temperature level.
[0018]
In the store management system configured in this way, for example, a sales floor or facility manager (responsible person) that circulates in the store operates a portable small-sized information terminal that he / she owns, thereby “normal temperature” or When a simple internal temperature level such as “rapid cooling” is designated, the store server controls the operation with a control parameter corresponding to the internal temperature level received for each cooling facility such as a showcase. Therefore, the manager (responsible person) of the sales floor or equipment that circulates in the store can easily change the internal temperature level in the store as needed.
[0019]
According to another aspect, in the store management system of the above-described invention, the small information terminal includes an indoor environment level transmission unit that transmits an indoor environment level based on the experience in the store instructed to the operation to the store server. Further, the store server of each store receives an operation control means for controlling operation of each facility related to the environment by specifying a control parameter for each facility related to the environment in the store, and an indoor environment level from the small information terminal And control parameter changing means for changing the control parameter designated for each facility related to the environment to the control parameter corresponding to the received indoor environment level.
[0020]
In the store management system configured in this way, for example, an administrator of equipment traveling around the store operates a portable small-sized information terminal that he / she owns, to “cool down”, “cool up”, “heating” When a simple indoor environment level such as “low” or “higher heating” is designated, the store server controls the operation with control parameters corresponding to the indoor environment level received for each facility related to the environment such as an air conditioner. Therefore, the manager (responsible person) of the sales floor or equipment that circulates in the store can easily change the indoor environment level in the store as needed.
[0021]
According to another invention, in the store management system of the above-described invention, the small information terminal transmits and receives information to and from the client via the store server and the center server.
[0022]
According to another invention, in the store management system according to the above-described invention, when the client detects an abnormality in the store information managed by the center server, the client details the small information terminal of the corresponding store based on the operation instruction. A message transmission unit configured to transmit an information transmission request message; Furthermore, the small information terminal has detailed information transmitting means for acquiring the detailed information designated by the message and returning it to the client based on the operation instruction when the small information terminal is received.
[0023]
In the store management system configured as described above, when a client monitor finds an abnormality as a result of browsing the information on each store managed by the center server, the client operates the client to check the small information on the store. A detailed information transmission request message is transmitted to the terminal.
[0024]
When the manager of the equipment in the store confirms the detailed information transmission request message on the portable small information terminal that he / she owns, the administrator operates the small information terminal to acquire the detailed information specified in the message and Reply to
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a schematic configuration of a store management system according to an embodiment of the present invention, and FIG. 2 is a specific configuration diagram of the store.
[0026]
In the store management system of this embodiment, a plurality of stores 1, 2, and 3 are connected via a network 7 to the center server 6 of the service management company 8, the client PC 11 of the facility management company 10, and the client PC 13 of the store management company 12. Connected to.
[0027]
In the store 1, there is equipment N as equipment.₁~ N_n, Equipment N₁~ N_nDevice terminal K connected to₁~ K_n, Equipment terminal K₁~ K_nAre connected to the store server 4, a router 5 connected to the store server 4, and a portable small-sized information terminal 20 that can be wirelessly connected to the router 5 via a wireless device 21.
[0028]
For example, the router 5 between the store server 4 and the small information terminal 20 carried by the store or the manager (responsible person) of the facility who resides in each store 1 and visits each sales floor and each facility (equipment) in the store. As shown in FIG. 3, a large number of wireless devices 21 are installed in the store 1 in order to smoothly perform wireless communication via the wireless LAN.
[0029]
Equipment N as equipment₁~ N_nFor example, as shown in FIG. 2, open case, refrigerated reach, frozen reach, oden warmer, drink case, flyer, commercial refrigerator, etc., power equipment such as power distribution board and light distribution board, air conditioning Machine, outdoor unit, refrigeration refrigerator. In addition, refrigerated walk-ins are also considered as equipment.
[0030]
In the embodiment, a device terminal allocated to a power device is a power terminal, a device terminal allocated to an air conditioning device is an air conditioning terminal, and a device terminal allocated to other devices is a facility terminal.
[0031]
Device terminal K₁~ K_nCan be installed between any power equipment and the store server 4 if it is a power terminal, and can be installed between any air conditioning equipment and the store server 4 if it is an air conditioning terminal, If it is a terminal for equipment, it can be installed between any equipment for equipment and the store server 4.
[0032]
Device terminal K₁~ K_nIs usually device N in store 1₁~ N_nIt functions as a repeater that relays communication between the store server 4 and the store server 4. Device terminal K₁~ K_nIs the device N assigned to it₁~ N_nVarious data such as current value data periodically collected by sensors (for example, a temperature sensor, a humidity sensor, and an odor sensor) are input and output to the store server 4.
[0033]
Furthermore, device terminal K₁~ K_nIs the device N assigned to it₁~ N_nAccepts and records the setting of the contents of the temporary control (fail-safe control) for the device N assigned to itself when an abnormality of the store server 4 is detected₁~ N_nExecute temporary control for.
[0034]
Store server 4 is a device terminal K₁~ K_nBased on the information (data) input from₁~ N_nAnd information (data) is transmitted to the center server 6 of the service providing company 8 via the router 5, the network 7, and the router 8.
[0035]
In the embodiment, the other stores 2 and 3 have the same configuration as that of the store 1, and are not shown in FIG. However, each device provided in the stores 2 and 3 may be different from the store 1.
[0036]
The client PC 11 of the facility management company 10 and the client PC 13 of the store management company 12 receive information (data) distribution services from the center server 6 of the service providing company 8 via the routers 14 and 15 and the network 7, respectively.
[0037]
When the center server 6 browses various information (data) of each store collected from each terminal server 4 and detects an abnormality, the client PC 11 of the facility management company 10 generates an abnormality by the abnormality display device such as the light 16. Notice. Further, the client PC 11 displays the prediction result of the device failure. Further, the client PC 11 can exchange information with the small information terminal 20 in each store 1 via the center server 6 and the store server 4 of each store 1 as necessary.
[0038]
FIG. 4 is a functional block diagram showing the functions of the store server 4.
The store server 4 includes a terminal communication function 17 for each terminal K, a center / small information terminal communication function 18 for the center server 6 and the small information terminal 20, and a store management function 19.
[0039]
The terminal communication function 17 is connected to the device terminal K by a local communication driver 17a and a local interface 17b.₁~ K_nTo communicate with. The center / small information terminal communication function 18 has a center communication module 18a, a router control function 18b, and a function 18c for managing the settings of the router 5 in order to communicate with the center server 6 via the router 5.
[0040]
The center / small information terminal communication function 18 includes an external installation function 18d, shutdown processing 18e, an energy saving parameter management function 18f, and a terminal parameter management function for external installation (software replacement of the store server 4) such as the center server 6. 18g, remote control management function 18h, and abnormality setting management (change of upper and lower limit values of device state such as temperature and humidity) function 18i.
[0041]
The store management function 19 has an energy saving control function 19a and an abnormality monitoring function 19b.
Energy saving control function 19a includes common processing 19c for energy saving control, refrigerator control 19d for energy saving control of showcase / refrigerator, dew-proof heater control 19e for reachin / walk-in door, defrost heater control 19f for showcase , Oden warmer control, AQ (air quality) control 19g for removing odors such as fryer with ventilation fan, energy saving control 19h for commercial refrigerator, PVM control 19i for controlling air conditioner based on the aforementioned PMV value, cooperative control 19j Etc. are executed in parallel.
[0042]
The abnormality monitoring function 19b is a common process 19k for equipment abnormality monitoring, for example, equipment abnormality detection 19l such as a commercial freezer, refrigerator, freezer, air conditioner, etc. The failure prediction 19m is executed based on the transition of the current state or the transition of the current state of the air conditioner.
[0043]
FIG. 5 is a detailed diagram of the center / small information terminal communication function 18 between the center server 6, the small information terminal 20, and the client PC 11 included in the store server 4.
The center server 6 includes a remote installation function 23a, a store server data management function 23b, a remote control function 23c, a data transfer function (between the client PC and the small information terminal) 23d, and information (current value information) sequentially transmitted from each store. Current value information acquisition function 23e, warning management unit 23f, and message management unit 23g.
[0044]
In the store server 4, a download function 22 a, a setting file transmission function 22 b, and a remote control function 22 c are provided as the periodic monitoring function, corresponding to the remote installation function 23 a of the center server 6. Further, in the store server 4, a small information terminal request acquisition function 22d, a transfer function (between the client PC and the small information terminal) 22e, and the like are provided as interface processing functions.
[0045]
Further, in the store server 4, a control execution unit 22 f that changes control parameters in response to a request from the small information terminal 20, a process execution unit 22 g that creates data to be transmitted to the center server 6, and the center A communication execution unit 22h that transmits various types of information to the server 6 and the small information terminal 20 is provided.
[0046]
As shown in FIG. 6, on the front surface of the portable small-sized information terminal 20, a display for displaying a key input unit 24 for performing character input and screen operation, a store state and operation contents, a message received from the client PC 11, and the like. A communication unit 27 that performs wireless communication with the store server 4 via the unit 25, the imaging unit 26 that acquires information on the site in the store as an image, the wireless device 21, and the router 5 is provided.
[0047]
Next, a method of transmitting and receiving information (data) between the client PC 11 provided in the facility management company 10 and the portable compact information terminal 20 provided in each store 1 will be described with reference to FIGS. explain.
[0048]
As shown in FIG. 1, the portable compact information terminal 20 provided in each store 1 cannot directly communicate with the external center server 6 or the client PC 11. Therefore, the data transfer functions 23d and 22e shown in FIG. 5 are provided in the center server 5 and the store server 4, and information between the client PC 11 and the small information terminal 20 is transmitted via the center server 5 and the store server 4. (Data) is transmitted and received.
[0049]
For example, a monitor of the facility management company 10 browsing the information of each store 1 using the client PC 11 notices an abnormality in one store 1 and stores the information (data) of the abnormality in the corresponding store 1. When it is desired to notify the person in charge, the client PC 11 calls the center server 6 via the network 7 and notifies the address of the corresponding store 1 as shown in FIG. The notification of the store address is selected from store names displayed in a list on the browsing screen of the client PC 11 instead of inputting a specific ID.
[0050]
The center server 6 transfers information (data) from the client PC 11 to the store server 4 of the store 1 notified from the client PC 11. Upon receiving the information (data), the store server 4 further transfers the information (data) to the small information terminal 20. Therefore, the client PC 11 and the small information terminal 20 are directly connected.
[0051]
Conversely, when information (data) is transmitted from the small information terminal 20 to the client PC 11, the small information terminal 20 notifies the store server 4 of the address of the client PC 11 as shown in FIG. 8. As a result, information (data) is transferred to the client PC 11 via the store server 4 and the center server 6.
[0052]
If the address of the client PC 11 is unknown, the small information terminal 20 designates the center server 6 as the information (data) transmission destination. In this case, information (data) is displayed on the common part of the center server 6. Therefore, the client PC 11 can browse information (data) displayed on the common part of the center server 6.
[0053]
In the client PC 11 having such a communication function, as shown in FIG. 9, the current information display function 28a for browsing the center server 6 to display the current information of each store 1 and the center server 6 for browsing and alarming are displayed. The alarm list display function 28b for acquiring and displaying the trend, and the trend display function 28c for browsing the center server 6 and displaying the trend from the current information of each store are realized, and each function and store can be selected from the menu. Information (data) from the small information terminal 20 is shown in the notification from the corresponding store 1.
[0054]
In the small information terminal 20, as shown in FIG. 10, a store current value information display function 29a, an energy saving level instruction function 29b, an in-chamber temperature instruction function 29c, a store environment instruction function 29d, and a message function 29e are realized. Each function can be selected from a menu.
[0055]
The current value information function 29a displays the current value of each piece of information (data) in the store 1 and whether or not a comment has been received via the center server 6. The energy saving level instruction function 29b selects the normal energy saving or the energy saving level of strengthening energy saving and instructs the store server 4 to do so. The inside temperature instruction function 29c selects an approximate cooling method at the inside temperature of the cooling equipment such as a showcase and instructs the store server 4 to do so.
[0056]
The in-store environment instruction function 29d selects an in-store environment level represented by the in-store temperature and instructs the store server 4. The message function 29e has functions of receiving alarms managed by the center server 6, receiving comments (messages) from the client PCs 11, sending comments from the small information terminal 20, and taking image data.
[0057]
The store current value information display function 29a receives and displays the current value of each information (data) in the store 1 created by the transmission data creation unit of the process execution unit 22g in the store server 4 shown in FIG. Displayed on the unit 25. The display content does not display all the data in the store 1 shown in FIG. 2, but an administrator (responsible person) who operates the small information terminal 20 in the store 1 as shown in FIG. Only the current value of the minimum information (data) is displayed on the display unit 25.
In addition, when information (message) is received via the center server 6, a comment that announces that there is an incoming message is displayed.
[0058]
In addition to the store current value information described above, the display unit 25 of the small information terminal 20 includes an “energy saving level” designation button 30a, an “internal temperature” designation button 30b, an “indoor” as shown in FIG. An “environment” designation button 30c and a “message” display button 30d are provided.
[0059]
A part of the energy saving control performed by each store server 4 of the store 1 for each facility (equipment) has been introduced in the explanation of FIG. 4, but as shown below, (a) energy saving control of a refrigeration refrigerator. (B) refrigeration refrigerator energy saving control, (c) dew-proof heater control, (d) defrost heater control, (e) air quality control, (f) commercial refrigerator waste heat exhaust fan control, (g) PMV There are cooperative control and (h) dew condensation prevention fan control, which have control parameters A1 to H4.
[0060]
(A) Refrigeration refrigerator energy saving control
Keep the temperature in the open case, refrigerated reach (including walk-in) within a predetermined range (A1 ° C ± A2 ° C), and control the number of operations and operating time of the refrigeration refrigerator. When all the solenoid valves are closed, the pump-out time (A3 seconds) is waited, and when the internal temperature does not exceed the upper limit value, the refrigerator is stopped. If either the open case or refrigerated reach (including walk-in) exceeds the determined range (A1 ° C ± A2 ° C) during the refrigerator stop time, the refrigerator is restarted.
[0061]
(B) Refrigerating machine energy saving control
Keep the temperature in the frozen reach in a predetermined range (B1 ° C ± B2 ° C), and control the number of operations and the operation time of the freezer. When all the solenoid valves are closed, the pump-out time (B3 seconds) is waited, and when the internal temperature does not exceed the upper limit value, the refrigerator is stopped. If the freezing reach exceeds a predetermined range (B1 ° C. ± B2 ° C.) during the freezer stop time, the freezer is restarted.
[0062]
(C) Dew-proof heater control
The indoor dew point temperature is calculated from the indoor temperature and humidity obtained from the temperature and humidity sensor installed in the room, and the dew prevention heater ON / OFF control is performed for a specified time according to the dew point temperature range.
[0063]
t1 <dew point temperature + C1 ≦ t2 ON time C2 / OFF time C3
t2 <dew point temperature + C1 ≦ t3 ON time C4 / OFF time C5
t3 <dew point temperature + C1 ≦ t4 ON time C6 / OFF time C7
t4 <dew point temperature + C1 ≦ t5 ON time C8 / OFF time C9
(D) Defrost heater control
In order to remove the frost adhesion of the refrigerated / frozen retin, the defrost heater charging time (D1 minute) and the charging interval are controlled by the set time (D2 minutes) according to the season.
[0064]
When the defrost heater is turned on, the corresponding open case, refrigerated reach (including walk-in), and frozen reach solenoid valves are closed.
[0065]
(E) Air quality control
The air quality sensor monitors the odor near the fryer and oden, and the ventilation fan is turned ON when the ventilation fan ON odor value (E1) or higher is input. However, when the air conditioner is air-cooled, the flyer ventilation fan and the oden ventilation fan are turned on by the outside air control that takes in the outside air with the ventilation fan.
[0066]
(F) Commercial refrigerator waste heat exhaust fan control
The waste heat temperature at the top of the commercial refrigerator (including the dessert case) is monitored, and the ventilation fan is turned on when the waste heat temperature (F1 ° C.) or higher is input.
[0067]
(G) PMV / cooperative control
While maintaining the temperature in the store, energy-saving control of the entire store is performed with optimal distribution by adjusting the operation of the air conditioner. The temperature setting of the air conditioner n increases or decreases the set temperature by comparing the target PMV value (G1n) and the current PMV value. When the air conditioner is in cooling, the difference between (indoor temperature and outdoor temperature) is a constant temperature (G2n ° C) In the above case, the outside air cooling is executed, and the flyer and the oden ventilation fan are turned on.
[0068]
(H) Condensation prevention fan control
When (room temperature-dew point temperature) is below a certain value (H1 ° C), the ventilation fan is turned on. When (room temperature-outdoor temperature) is above a certain value (H2 ° C), the ON time (H3 minutes) / Energization control is performed by a timer of OFF time (H4 minutes).
[0069]
Next, a description will be given of a method in which the sales floor or facility manager (responsible person) residing in the store 1 operates the small information terminal 20 to control the operating state of each facility via the store server 4.
[0070]
First, when the operator (responsible person) operates the “energy saving level” designation button 30a on the display unit 25 of the small information terminal 20 and designates “energy saving level” as “energy saving enhancement”, the “energy saving enhancement”. Is transmitted to the store server 4. In store server 4, the control parameter currently set in control execution part 22f in store server 4 shown in Drawing 5 is saved as a standard parameter, and the control parameter from A1-H4 is changed.
[0071]
Specifically, in (a) refrigeration refrigerator energy saving control and (b) refrigeration refrigerator energy saving control, the control parameters A2 and B2 in the setting range are increased, and the pump-out time A3 and B3 are lengthened to achieve an energy saving effect. Make it high. (C) In the dew-proof heater control, the energy saving effect is enhanced by increasing the ON time C2, C4, C6, C8. (D) In the defrost heater control, the energy saving effect is achieved by shortening the defrost heater charging time D1. To be high.
[0072]
In addition, (e) Air quality control increases the energy saving effect by increasing the ventilation fan ON odor value E1, and (f) Business refrigerator waste heat ventilation fan control increases the energy saving effect by increasing the waste heat temperature F1. (G) In PMV / coordinated control, the PMV value G1n at the time of cooling is increased, the PMV value G1n at the time of heating is decreased, and the temperature difference G2n between inside and outside is decreased, thereby increasing the energy saving effect. Further, (h) in the dew condensation prevention fan control, the dew point and the room temperature difference H1 are increased, and the energy saving effect is enhanced by shortening the ventilation fan ON time.
[0073]
As described above, the store server 4 changes the control parameters A1 to H4 according to the degree of enhancement of the energy saving level designated from the small information terminal 20. Therefore, the operator (responsible person) can execute energy-saving operation control in each facility without being conscious of specific individual control parameters A1 to H4. In addition, when “normal energy saving” is selected, energy saving control using standard parameter values is performed.
[0074]
Next, when the operator (responsible person) operates the “internal temperature” designation button 30b on the display unit 25 of the small information terminal 20 to instruct “low” in the internal temperature, The instruction “lower internal temperature” is transmitted to the store server 4. In the store server 4, the control parameters currently set by the control execution unit 22f in the store server 4 shown in FIG. 5 are stored as standard parameters, and the control parameters A1 to B2 are changed. Specifically, the control temperature is lowered by decreasing the set temperatures A1 and B1 of (a) refrigeration refrigerator energy saving control and (b) refrigeration refrigerator energy saving control.
[0075]
When “rapid cooling” is instructed, the set temperatures A1 and B1 of (a) refrigeration refrigerator energy-saving control and (b) refrigeration refrigerator energy-saving control are decreased, and the setting ranges A2 and B2 are decreased. However, since control with this “rapid cooling” control parameter does not provide an energy saving effect, it returns to the energy saving control employing the standard parameter value when a certain time has elapsed.
[0076]
Further, when the operator (responsible person) operates the “in-store environment” designation button 30 c on the display unit 25 of the small information terminal 20 to instruct “in-store environment” to be “cooling low”, the “cooling low” Is transmitted to the store server 4. In store server 4, the control parameter currently set in control execution part 22f in store server 4 shown in Drawing 5 is saved as a standard parameter, and the control parameter of G1 and G2 is changed. Specifically, in (g) PMV / cooperative control, the target PMV value G1n of each air conditioner n is lowered, and the internal / external temperature difference G2n is reduced.
[0077]
Note that, when “higher cooling” is instructed, in (g) PMV / cooperative control, the target PMV value G1n of each air conditioner n is increased and the internal / external temperature difference G2n is increased. Further, when “lower heating” is instructed, the target PMV value G1n of each air conditioner n is lowered in (g) PMV / cooperative control. In the case of “higher heating”, the target PMV value G1n of each air conditioner n is increased.
[0078]
It should be noted that warming the store leads to an increase in the temperature of the showcase, so that the air conditioner for setting the cooling and heating to be higher is limited to the one that is away from the showcase.
[0079]
The calculation method of PMV (Predicted Mean Vote) as a human thermal sensation index is based on the temperature in the store using a generally known calculation described in Patent Document 1. Obtained by summing PMV1 value and PMV2 based on temperature and relative humidity acquired by air conditioner.
[0080]
PMV = ψ (t) PMV1 + (1-ψ (t)) PMV2
ψ: Time weighting factor
PMV1 = a0 + a1 x TA + a2 x TR + a3 x RH + a4 x TR x TR + a5 x TR x RH + a6 x TR x RH
PMV2 = a0 + a1 x TA + a2 x TR + a3 x RHA + a4 x TA x TR + a5 x TA x RHA + a6 x TR x RHA
However,
Ta: Acquired temperature in air conditioner
TA: Normalized temperature acquired by air conditioner = Ta ÷ 30
Tr: Indoor temperature
TR: Normalized room temperature = Tr ÷ 30
Rh: Indoor humidity
RH: Normalized room temperature = Rh ÷ 80
Rha: relative humidity
RHA: Normalized value of relative temperature = Rha ÷ 80
a0 to a6: Environmental parameters
As described above, the person in charge of the sales floor or equipment (manager) who circulates in the store 1 operates the small information terminal 20 as necessary to easily save the energy saving level in the store and the temperature in the store. The in-store environment can be changed.
[0081]
Next, the operation of the center server 6 that collects information (data) of the store 1 from the store server 4 and issues a warning will be described with reference to the flowchart of FIG.
[0082]
In the store server 4, data (information) from each facility is filed (A1), the point (information type) of each data (information) is confirmed (A2), and data is temporarily registered (stored) (A3). The presence or absence of abnormality of each data (information) is judged (A4), and when a predetermined time such as 1 minute elapses (A5), the stored data is transmitted to the center server 6 (A6).
[0083]
The center server 6 checks whether data is received from the store server 4 (B1), and if there is no response for a certain time (B2), the warning of the store server 4 is registered (B4). If there is a response, based on the received data, each store data (information) is monitored (B3), a state list is created (B5), time-series trend data is collected (B6), and abnormal If yes (B7), a warning is registered (B8). In addition, each client PC 11 and 13 is allowed to view the information (data) list including the warning.
[0084]
Further, if a warning is registered (B9), if this warning is an important warning that needs to be notified to the store 1 (B10), this warning is sent to the small information terminal 20 via the store server 4. A mail is issued (B11).
[0085]
Thus, the center server 6 collects the information (data) of the store 1 from the store server 4 and, if an abnormality is detected, transmits an alarm mail to the small information terminal 20 of the store 1 where the abnormality is detected. It is possible to call attention to the person in charge of the store 1.
[0086]
Next, an example of information exchange between the client PC 11 and the small information terminal 20 of each store 1 will be described with reference to FIG.
[0087]
The monitor of the client PC 11 of the facility management company 10 who browses the information (data) list including the warning of each store 1 collected and created by the center server 6 receives an abnormality notification from the center server 6, 1 is operated, the client PC 11 is operated to inquire the small information terminal 20 by the data transmission method shown in FIG. 7 using the transfer functions 22e and 23d of the store server 4 and the center server 6 shown in FIG. I do. The inquiry message includes a date, a transmission source, and a message body as shown in FIG.
[0088]
The small information terminal 20 displays the received message shown in FIG. The operator of the small information terminal 20 (the person in charge of the facility of the store 1) captures the state of the instructed device with the image capturing unit 26, and attaches a message to the captured device image 31 shown in FIG. The center server 6 is notified by the data transmission method shown in FIG. The device image 31 and message information are registered in the message management function 23g of the center server 6 in FIG.
[0089]
By browsing the message management function 23g of the center server 6, the client PC 11 takes in the device video 31 and the message shown in FIG. 13C, and displays and outputs them on its own display unit. Therefore, the monitor of the client PC 11 can easily and in detail know the state of the device (equipment) where the abnormality has occurred.
[0090]
【The invention's effect】
As described above, in the store management system of the present invention, each store has a portable small-sized information terminal that instructs the store server in the store to control each facility in the store.
[0091]
Therefore, for example, an administrator in the store can easily control the operation of each facility provided in each store via the store server, and the facilities in each store can be operated efficiently. Furthermore, the comfortable environment and energy saving effect at each store can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a store management system according to an embodiment of the present invention.
FIG. 2 is a specific block diagram of a store in the store management system.
[Fig. 3] Arrangement of wireless devices in the store of the store management system
FIG. 4 is a functional block diagram of a store server incorporated in the store management system.
FIG. 5 is a detailed block diagram showing a sensor / small information terminal communication function in the store server.
FIG. 6 is an external view of a small information terminal incorporated in the store management system.
FIG. 7 is a view showing a data transmission method from the client PC to the small information terminal in the store management system;
FIG. 8 is a view showing a data transmission method from the small information terminal to the client PC in the store management system;
FIG. 9 is a functional block diagram of a client PC incorporated in the store management system.
FIG. 10 is a functional block diagram of a small information terminal incorporated in the store management system.
FIG. 11 is a view showing display contents of a display unit of a small information terminal incorporated in the store management system
FIG. 12 is a flowchart showing operations of a store server and a center server incorporated in the store management system.
FIG. 13 is a view showing the content of a message transmitted and received between the client PC and the small information terminal in the store management system.
[Explanation of symbols]
1, 2, 3 ... store, 4 ... store server, 6 ... center server, 7 ... network, 11, 13 ... client PC, 20 ... small information terminal, 21 ... wireless device, 24 ... key input unit, 25 ... display unit , 26 ... Imaging unit, 27 ... Communication unit, 30a ... Energy saving level designation button, 30b ... Inside temperature designation button, 30c ... Indoor environment designation button, 311 ... Equipment image, K ... Terminal, N ... Equipment (equipment)

Claims (6)

A plurality of store servers that are provided in each store and obtain information about each facility in the store via each terminal and monitor and control each facility, and are connected to the store server of each store via a network. In a store management system comprising a center server that manages information of each store obtained from the store server, and a client that browses information managed by the center server,
Provided in each of the stores, comprising a plurality of portable small information terminals that instruct the store server in the store to control each facility in the store ,
Each of the small information terminals has an energy saving level transmitting means for transmitting the energy saving level instructed to operate at the terminal to the store server,
The store server of each store receives an operation control means for controlling the operation of each facility by specifying a control parameter for each facility in the store, and an energy saving level from the small information terminal. A store management system, comprising: control parameter changing means for changing the designated control parameter to a control parameter corresponding to the received energy saving level . The small information terminal has an internal temperature level transmission means for transmitting the internal temperature level of the cooling facility in the store instructed to the operation to the store server,
When the store server of each store receives operation control means for controlling the operation of each cooling facility by specifying a control parameter for the cooling facility in the store, and the internal temperature level from the small information terminal, store management system of claim 1, wherein the a control parameter changing means for changing the control parameters of the control parameters that are specified corresponding to the internal temperature level said received for each cooling facility. The small information terminal has an indoor environment level transmitting means for transmitting an indoor environment level based on the experience in the store instructed to the operation to the store server,
The store server of each store receives an operation control means for controlling operation of each facility related to the environment by specifying a control parameter for each facility related to the environment in the store, and an indoor environment level from the small information terminal , store management system of claim 1, wherein the a control parameter changing means for changing the control parameters are specified for each equipment relating to the environment control parameters corresponding to the indoor environment level said received .   The store management system according to claim 1, wherein the small information terminal wirelessly transmits and receives information to and from the store server. The store management system according to any one of claims 1 to 3 , wherein the small information terminal transmits and receives information to and from the client via the store server and the center server. The client has message transmission means for transmitting a detailed information transmission request message to the small information terminal of the store based on the operation instruction when an abnormality is detected in the store information managed by the center server.
The compact information terminal, when receiving the message, based on the operation instruction, 5 Symbol claims, characterized in that to obtain detailed information specified in the message with the detailed information transmitting means for replying to said client Store management system listed.

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