JP2013042230A - Housing information communication system - Google Patents

Abstract

A housing information communication system capable of reliably collecting energy consumption of housing equipment such as water supply devices.
A housing information communication system 1 is formed on flowmeters 29, 31, 33 and thermometers 30, 32, 34, a water discharge pipe 19 of a vanity 4 installed in a house, and a metal plating layer 23 of the water discharge pipe 19. An antenna 35, a transmitter 36, and a server are provided. The flow meters 29, 31, 33 detect the flow rate per unit time of water in the water supply pipes 13, 15, 21. The thermometers 30, 32, and 34 detect the temperature of the water in the water supply pipes 13, 15, and 21, for example. The transmitter 36 transmits flow rate information indicating the flow rate per unit time detected by the flow meters 29, 31 and 33 and temperature information indicating the temperature detected by the thermometers 30, 32 and 34 from the antenna 35. The server receives and stores the flow rate information and temperature information transmitted from the transmitter 36 via the receiver.
[Selection] Figure 2

Description

  The present invention relates to a housing information communication system that collects energy consumption in housing equipment such as water supply equipment in a house.

  Conventionally, a housing information communication system that collects energy consumption of air conditioners, lighting devices, ventilation devices, and the like has been proposed. This type of housing information communication system collects the energy consumption of air conditioning equipment, lighting equipment, and ventilation equipment to help reduce carbon dioxide emissions.

  However, in a general house, the energy consumption in housing equipment such as various water supply devices accounts for about 40% of the energy consumption of the entire house. For this reason, the conventionally proposed housing information communication system only collects the energy consumption of air-conditioning equipment, lighting equipment, and ventilation equipment, so that it can be used to reduce carbon dioxide emissions. Could not collect enough information.

  Further, in the above-described housing information communication system, it is necessary to transmit information indicating energy consumed by each device to a server by wireless or the like. However, because there are many housing equipment with a metal plating layer as a metal film layer on the surface of water discharge pipes and mirrors in the house, information cannot be transmitted to the server reliably. There was a problem that energy consumption could not be grasped reliably.

  This invention is made | formed in view of said situation, Comprising: It aims at providing the housing information communication system which can grasp | ascertain the energy consumption of housing equipments, such as a water supply apparatus, reliably.

  In order to achieve the above object, a housing information communication system according to the present invention comprises a state detecting means for detecting the state of water in a water supply pipe of a house, and housing equipment installed in the house, A housing equipment part having a metal film layer formed at least in part, an antenna formed on the metal film layer, and transmission means for transmitting state information indicating the water state detected by the state detection means from the antenna And a receiving device that receives the state information.

  In the housing information communication system, the state detection unit detects the state of water in the water supply pipe, and the transmission unit transmits the state information obtained by detection to the receiving device. It is possible to grasp status information that can be obtained. In addition, since the antenna is formed on the metal film layer formed on the surface of the housing equipment component, information transmitted from the antenna is less likely to be blocked by the metal film layer formed on the surface of the housing equipment component. Will be sent. Therefore, it is possible to reliably collect the state information that can determine the energy consumption of the housing equipment. Therefore, since it is possible to reliably collect the status information that can determine the energy consumption of household equipment, it is possible to grasp the energy consumption of the entire house, and it is sufficient to contribute to reducing carbon dioxide emissions. Information can be collected.

  In the housing information communication system, the housing equipment component is a water discharge pipe, and the receiving device is a server that stores the state information and calculates an energy consumption amount of the housing equipment. Is preferred. In this residential information communication system, since the antenna is formed on the metal film layer on the surface of the water discharge pipe, the distance between the state detection means for detecting the state of water in the water supply pipe and the antenna can be minimized. Loss when transmitting information from the transmission means to the server can be minimized. Therefore, it is possible to grasp the energy consumption amount of the housing equipment more reliably.

  In the housing information communication system according to the present invention, since the information transmitted from the transmission means is not easily blocked by the metal film layer formed on the surface of the housing equipment, it is possible to reliably grasp the energy consumption of the housing equipment. Can do.

FIG. 1 is a schematic configuration diagram illustrating a housing information communication system according to the first embodiment. FIG. 2 is a block diagram illustrating a configuration of a main part of the house information communication system according to the first embodiment. FIG. 3 is a perspective view showing the configuration of the antenna of the house information communication system according to the first embodiment. FIG. 4 is a perspective view illustrating a configuration of an antenna of the home information communication system according to the modification of the first embodiment. FIG. 5 is a perspective view showing the configuration of the antenna of the house information communication system according to the second embodiment from the back side of the mirror. FIG. 6 is a perspective view showing the configuration of the antenna of the residential information communication system according to the modification of the second embodiment from the back side of the mirror.

  Embodiments of a housing information communication system according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.

Embodiment 1
1 is a schematic configuration diagram illustrating a housing information communication system according to the first embodiment, FIG. 2 is a block diagram illustrating a configuration of a main part of the housing information communication system according to the first embodiment, and FIG. It is a perspective view which shows the structure of the antenna of the housing information communication system which concerns.

  A housing information communication system (hereinafter simply referred to as a communication system) 1 of Embodiment 1 shown in FIGS. 1 and 2 is typically a system that collects energy consumption of housing equipment installed in a house. is there. Incidentally, the housing equipment in the present invention means, of course, equipment equipment such as various water supply equipment installed in the house and used for water supply of the house. Stands, bathtubs, kitchens, water heaters, faucet devices.

  In FIG. 1, the water heater 2, the kitchen 3, the bathroom vanity 4, the bathtub 5, the toilet 6, and the faucet device 10 are shown as the above-mentioned housing equipment. The water heater 2 heats the water from the water supply 11 to a desired temperature and supplies it as hot water to the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, and the faucet device 9 of the bathtub 5. Further, the water faucet device 7 of the kitchen 3, the faucet device 8 of the vanity table 4, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10 are not heated by water from the water supply 11. Supplied.

  In the first embodiment, the hot water from the water heater 2 is once sent to the header 12 and then the water of the faucet device 7 of the kitchen 3 and the bathroom vanity 4 through the water supply pipe 13 branched from the header 12. It is supplied to the stopper device 8 and the faucet device 9 of the bathtub 5. Each of these water supply pipes 13, of course, has a one-to-one correspondence with the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, and the faucet device 9 of the bathtub 5. And the other end is connected to any of the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, and the faucet device 9 of the bathtub 5. A water discharge pipe 19 and a faucet 20 which will be described later as parts constituting the faucet device correspond to house equipment parts. In addition, the housing equipment part as used in the field of this invention means all the parts which comprise the housing equipment mentioned above.

  The water from the water supply 11 is once sent to a header 14 separate from the header 12, and then passed through a water supply pipe 15 branched from the header 14 to the faucet device 7 and the bathroom vanity 4 of the kitchen 3. The faucet device 8, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10 are supplied. Each of these water supply pipes 15 has, of course, a one-to-one correspondence with the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10. One end is connected to the header 14, and the other end is any of the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10. Connected to The header 12 and the header 14 are containers capable of storing water (in the present specification, including the above-described water and hot water, which are collectively referred to as water).

  The communication system 1 includes water faucets 13 and 15 for supplying water to the faucet device 7 of the kitchen 3, the faucet device 8 of the bathroom vanity 4, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10. This is a system that collects energy values consumed by water passing through the inside, that is, energy consumption of the kitchen 3, the vanity table 4, the bathtub 5, the toilet 6, and the faucet device 10. In addition, the apparatus regarding the communication system 1 provided in the faucet device 7 of the kitchen 3 mentioned above, the faucet device 8 of the vanity table 4, the faucet device 9 of the bathtub 5, the toilet 6, and the faucet device 10 is substantially the same. Therefore, hereinafter, the vanity table 4 will be described as a representative.

  As shown in FIG. 1, the bathroom vanity 4 includes a bathroom sink 16, a cabinet 17, a mirror 18, a faucet device 8 provided on the bathroom sink 16, and the like. A drain pipe is connected to the bottom of the washstand 16. The cabinet 17 and the mirror 18 are provided on the washstand 16. The cabinet 17 can accommodate various items. The mirror 18 is formed in a flat plate shape and can reflect a person who uses the washstand 16.

  The faucet device 8 includes a water discharge pipe 19 and a faucet 20 as shown in FIGS. 1 and 2. The water discharge pipe 19 constitutes the faucet device 8, that is, the vanity unit 4, and is provided upright from the upper surface of the vanity table 16 as shown in FIG. 1, and the tip portion faces the bottom of the vanity table 16. In addition, the water outlet is provided at the front end of the water sink 16 so as to face the bottom of the washstand 16. The water discharge pipe 19 passes through a water supply pipe 21 (shown in FIG. 2) that communicates with the water discharge port on the inside thereof. As shown in FIG. 3, the water discharge pipe 19 is formed on a base material 22 made of an insulating synthetic resin (that is, an insulator) and substantially the entire surface (that is, at least a part) of the base material 22. And a metal plating layer 23 as a metal film layer. The metal plating layer 23 is made of at least one of nickel and chromium.

  As shown in FIG. 2, the faucet 20 includes a faucet body 24 and a hot water / water mixing valve (not shown) as a valve. The faucet body 24 is formed on a base material made of an insulating synthetic resin (that is, an insulator) and substantially the entire surface (that is, at least a part) of the base material, like the water discharge pipe 19. And a metal plating layer as a metal film layer. The metal plating layer is made of at least one of nickel and chromium.

  The faucet body 24 includes a columnar portion 25 and an operation lever 26 attached to the upper end portion of the columnar portion 25. The columnar part 25 is erected from the upper surface of the washstand 16 or the like. The columnar portion 25 has a columnar appearance. The columnar portion 25 has a longitudinal direction parallel to the vertical direction.

  The operation lever 26 includes a cylindrical portion 27 attached to the upper end portion of the columnar portion 25, and an operation piece portion 28 as a manual operation portion having one end portion connected to the outer peripheral surface of the cylindrical portion 27. The cylindrical portion 27 is formed in a cylindrical shape whose upper side is closed, and is provided coaxially with the columnar portion 25. The operation piece 28 extends linearly from the outer peripheral surface of the cylindrical portion 27 in the outer peripheral direction of the cylindrical portion 27. The operation lever 26 includes a cylindrical portion 27 and an operation piece portion 28 that are rotatable about the axis of the columnar portion 25. The operation lever 26 is provided so as to be swingable about the one end so that the other end of the operation piece 28 is displaced in the vertical direction.

  The hot and cold water mixing valve is provided inside the columnar portion 25 of the faucet body 24, and the water supply pipes 13 and 15 are connected to each other. In addition, a water supply pipe 21 passed through the water discharge pipe 19 is connected to the hot water / water mixing valve. The operating state of the hot water mixing valve is changed by operating the operation lever 26 to adjust (change) the mixing ratio of water from the headers 12 and 14 and the flow rate thereof, and to open / close the flow path in the water supply pipe 21. Water is discharged and stopped through the water supply pipe 21.

  The water faucet 20 is swung around one end of the operation piece 28 to supply water from at least one of the headers 12 and 14 to the water outlet of the water discharge pipe 19, While stopping the supply to the water outlet, the supply amount of these water and the like to the water outlet is changed. Thus, the operation piece 28 of the faucet 20 operates a hot and cold water mixing valve that can change water discharge such as water from the water outlet and water stop and can change the flow rate of water discharged from the water outlet. . Further, the operation piece 28 of the water faucet 20 is rotated around the axis of the columnar portion 25 to operate a hot water / water mixing valve capable of changing the mixing ratio of water from the headers 12 and 14.

  As shown in FIG. 2, the communication system 1 includes a flow meter 29 and a thermometer 30 provided in the water supply pipe 13, a flow meter 31 and a thermometer 32 provided in the water supply pipe 15, and a water supply pipe 21. A flow meter 33 and a thermometer 34, an antenna 35, a transmitter 36 as a transmission means connected to the flow meters 29, 31, 33 and the thermometers 30, 32, 34, and a receiver 37 (see FIG. 1). 1), a server 38 (shown in FIG. 1) as a receiving device, and a display terminal 39 (shown in FIG. 1). The flow meters 29, 31, 33 and the thermometers 30, 32, 34 constitute state detection means for detecting the state of the water in the water supply pipes 13, 15, 21 such as the flow rate. These flow meters 29, 31, 33, thermometers 30, 32, 34 and transmitter 36 are installed below the wash basin 16 of the vanity table 4 described above.

  The flow meters 29, 31, 33 detect the flow rate of water in the water supply pipes 13, 15, 21 per unit time at predetermined time intervals, and the detected results are transmitted at predetermined time intervals to the transmitter 36. Output toward. The flow meters 29, 31, 33 are provided with an impeller provided in the water supply pipes 13, 15, 21 and rotated by the flow of water in the water supply pipes 13, 15, 21. Electricity is generated by rotation, and the obtained power is supplied to the transmitter 36. The thermometers 30, 32, and 34 detect the temperature of the water in the water supply pipes 13, 15, and 21 at predetermined time intervals, and output the detection results toward the transmitter 36 at predetermined time intervals. To do. In addition, the flow rate per unit time of the water in the water supply pipes 13, 15, 21 and the temperature of the water in the water supply pipes 13, 15, 21 form the state of the water in the water supply pipes 13, 15, 21. .

  The antenna 35 is formed by removing a part of the metal plating layer 23 of the water discharge pipe 19 from the surface of the base material 22 by sandblasting, cutting or etching. The antenna 35 is electrically insulated from the remaining part of the metal plating layer 23 by the base material 22. As shown in FIG. 3, the antenna 35 includes three linear portions 40 that extend linearly at intervals, and a connecting portion 41 that connects the ends of the adjacent linear portions 40. It is formed in a pattern antenna shape that is bent a plurality of times. In addition, the longitudinal direction of the straight part 40 is parallel to the longitudinal direction of the water supply pipe 21 near the water outlet, and the longitudinal direction of the connecting part 41 is orthogonal to the longitudinal direction of the water supply pipe 21 near the water outlet. . Transmitters 36 are connected to both ends of the antenna 35. Thus, the antenna 35 is formed on the metal plating layer 23. Note that the length of the straight portion 40 is formed to be an integral multiple of 1/4 of the effective wavelength of the signal transmitted by the transmitter 36 in order to reduce the size of the antenna 35 and improve the gain.

  The transmitter 36 is driven when electric power is supplied from at least one of the flow meters 29, 31, and 33 described above. The transmitter 36 includes flow rate information (corresponding to state information) indicating the flow rate per unit time of water in the water supply pipes 13, 15, 21 from the flow meters 29, 31, 33, and thermometers 30, 32, 34. Temperature information (corresponding to state information) indicating the temperature of the water in the water supply pipes 13, 15, and 21 is output to the antenna 35 at predetermined time intervals. The transmitter 36 includes flow rate information indicating the flow rate per unit time of water in the water supply pipes 13, 15, 21 from the flow meters 29, 31, 33 and the water supply pipes 13, 15, The temperature information indicating the temperature of the water in 21 is wirelessly transmitted from the antenna 35 to the receiver 37.

  The receiver 37 is installed at an appropriate place in the house. The receiver 37 has flow rate information indicating the flow rate per unit time of water in the water supply pipes 13, 15, 21 transmitted from the transmitter 36, and the water supply pipes 13, 15, 21 from the thermometers 30, 32, 34. Temperature information indicating the temperature of the water is received and output to the server 38. The server 38 is installed at an appropriate location in the house. The server 38 receives the flow rate information indicating the flow rate per unit time of the water in the water supply pipes 13, 15, 21 received by the receiver 37 and the water in the water supply pipes 13, 15, 21 from the thermometers 30, 32, 34. On the basis of the temperature information indicating the temperature, the received time, etc., the energy consumption amount in the faucet device 8 of the vanity unit 4 is calculated, and the temperature information, the flow rate information, and the energy consumption amount are stored. That is, the server 38 receives and stores temperature information and flow rate information as state information via the receiver 37. The server 38 also stores information related to energy consumption. Thus, the server 38 receives the flow rate information and temperature information transmitted from the transmitter 36 via the receiver 37, and stores the energy consumption amount in the faucet device 8 of the vanity table 4 with time.

  The display terminal 39 is installed at an appropriate place in the house. The display terminal 39 displays the energy consumption of the bathroom vanity 4 and the like.

  In the communication system 1 described above, the kitchen 3, the bathtub 5, the toilet 6, and the faucet device 10 are provided with the flow meters 29, 31, 33, the thermometers 30, 32, 34, and the transmitter 36 in the same manner as the vanity table 4 described above. The flow rate information and the temperature information indicating the state of the water in the water supply pipes 13 and 15 are transmitted to the receiver 37 connected to the server 38. And the server 38 of the communication system 1 calculates the energy consumption of the kitchen 3, the bathtub 5, the toilet 6, and the faucet device 10, and memorize | stores it with time. Of course, the display terminal 39 displays the energy consumption of the kitchen 3, the bathtub 5, the toilet 6, and the faucet device 10.

  In the communication system 1 configured as described above, the flow meters 29, 31, 33 and the thermometers 30, 32, 34 indicate the flow rate and temperature per unit time of the water in the water supply pipes 13, 15, 21. Since the transmitter 36 wirelessly transmits the flow rate information and the temperature information indicating the flow rate and temperature per unit time obtained by the detection to the server 38 via the receiver 37, the kitchen 3, the toilet makeup It is possible to grasp state information that can determine the energy consumption of the base 4, the bathtub 5, the toilet 6, and the faucet device 10. Further, since the antenna 35 is formed on the metal plating layer 23 formed on the surface of the water discharge pipe 19, the flow rate information and the temperature information transmitted by the antenna 35 are formed on the surface of the water discharge pipe 19 and the like. And is transmitted to the server 38. Therefore, it is possible to reliably collect the state information that can determine the energy consumption of the housing equipment such as the kitchen 3, the vanity 4, the bathtub 5, the toilet 6, and the faucet device 10. Therefore, since the communication system 1 can reliably collect the state information that can determine the energy consumption of the housing equipment, the energy consumption of the entire house can be reliably grasped and the carbon dioxide emission can be reduced. It is possible to collect enough information to contribute.

  Further, since the antenna 35 is formed on the metal plating layer 23 on the surface of the water discharge pipe 19, the flow meters 29, 31, 33 for detecting the state of water in the water supply pipes 13, 15, 21 and the thermometers 30, 32. , 34 and the antenna 35 can be minimized, and the loss in transmitting information from the transmitter 36 to the server 38 can be minimized. Therefore, it is possible to collect the energy consumption of the housing equipment more reliably.

[Modification of Embodiment 1]
Hereinafter, the modification of the housing information communication system 1 which concerns on Embodiment 1 is demonstrated. Note that the same parts as those of the first embodiment described above are denoted by the same reference numerals and description thereof is omitted. FIG. 4 is a perspective view illustrating a configuration of an antenna of the home information communication system according to the modification of the first embodiment.

  In the modification of the first embodiment, as shown in FIG. 4, the antenna 35 connects two linear portions 42 that extend linearly with a space between each other and the central portions of the adjacent linear portions 42. And a connecting portion 43. In addition, the longitudinal direction of the linear part 42 is orthogonal to the longitudinal direction of the water supply pipe 21 near the water outlet, and the longitudinal direction of the connecting part 43 is parallel to the longitudinal direction of the water supply pipe 21 near the water outlet. . A transmitter 36 is connected to the connecting portion 43. Thus, the antenna 35 is formed on the metal plating layer 23.

  According to the modification of the first embodiment, as in the first embodiment described above, the energy consumption of household equipment such as the kitchen 3, the vanity table 4, the bathtub 5, the toilet 6, and the faucet device 10 is reliably collected. can do.

[Embodiment 2]
Hereinafter, the housing information communication system 1 according to the second embodiment will be described. Note that the same parts as those of the first embodiment described above are denoted by the same reference numerals and description thereof is omitted. FIG. 5 is a perspective view showing the configuration of the antenna of the house information communication system according to the second embodiment from the back side of the mirror.

  In the second embodiment, the antenna 35 is formed on the mirror 18 as a housing equipment part of the vanity 4. As shown in FIG. 5, the mirror 18 includes a metal film portion 45 as a metal film layer and a protective coating (not shown) on the back surface (corresponding to the front surface) of a plate glass 44 as a base material made of insulating glass or the like. A film is formed in order. In FIG. 5, the protective paint film is omitted. In the second embodiment, the metal film part 45 is configured by sequentially forming a silver film part and a copper film part on the back surface of the plate glass 44. The silver film part of the metal film part 45 is formed by electrolessly plating silver on the back surface of the plate glass 44. In the present invention, in addition to silver, chromium, nickel, and aluminum may be formed on the back surface of the plate glass 44. That is, the metal film layer can be made of at least one metal among silver, nickel, chromium, and aluminum.

  The antenna 35 is formed by removing a part of the metal film portion 45 as a metal film layer of the mirror 18 from the back surface of the plate glass 44 by sandblasting, cutting or etching. The antenna 35 is electrically insulated from the remaining part of the metal film part 45 by the plate glass 44. As shown in FIG. 5, the antenna 35 includes four linear portions 46 that extend linearly at intervals, and a connecting portion 47 that connects the ends of the adjacent linear portions 46. It is formed in a pattern antenna shape that is bent a plurality of times. In addition, the longitudinal direction of the straight part 46 is parallel to the horizontal direction, and the longitudinal direction of the connecting part 47 is parallel to the vertical direction. Transmitters 36 are connected to both ends of the antenna 35. Thus, the antenna 35 is formed on the metal film portion 45 as a metal film layer. The length of the straight line portion 46 is formed to be an integral multiple of 1/4 of the effective wavelength of the signal transmitted by the transmitter 36 in order to reduce the size of the antenna 35 and improve the gain.

  According to the second embodiment, as in the first embodiment described above, it is possible to reliably collect the energy consumption of housing equipment such as the kitchen 3, the vanity 4, the bathtub 5, the toilet 6, and the faucet device 10. it can.

[Modification of Embodiment 2]
Hereinafter, a modified example of the house information communication system 1 according to the second embodiment will be described. Note that the same parts as those of the second embodiment described above are denoted by the same reference numerals, and description thereof is omitted. FIG. 6 is a perspective view showing the configuration of the antenna of the residential information communication system according to the modification of the second embodiment from the back side of the mirror.

  In the modification of the second embodiment, the antenna 35 includes two linear portions 48 that extend linearly at intervals, and a connecting portion 49 that connects lower end portions of the adjacent linear portions 48 to each other. ing. In addition, the longitudinal direction of the linear part 48 is parallel to the vertical direction, and the longitudinal direction of the connecting part 49 is parallel to the horizontal direction. Transmitters 36 are connected to both ends of the antenna 35. Thus, the antenna 35 is formed on the metal film portion 45 as a metal film layer. Note that the length of the straight portion 48 is formed to ¼ of the wavelength of the signal transmitted by the transmitter 36 in order to reduce the size of the antenna 35 and improve the gain.

  Also in the modified example of the second embodiment, as in the first and second embodiments described above, the energy consumption of housing equipment such as the kitchen 3, the vanity table 4, the bathtub 5, the toilet 6, and the faucet device 10 is set. It can be collected reliably.

  In the above-described embodiment, an example in which the antenna 35 is formed on the metal plating layer 23 of the water discharge pipe 19 and the metal film portion 45 of the mirror 18 is shown, but the present invention is not limited thereto, and the antenna 35 is not limited thereto. Of course, it may be formed on the metal film layers of various housing equipment components constituting the various housing equipment described above. Moreover, in this invention, the metal film layer in which the antenna 35 is formed should just be formed in at least one part of the surface of various household equipment components.

  In the above-described embodiment, the flow rate and temperature per unit time are shown as the state of the water in the water supply pipes 13, 15, and 21, but the present invention is not limited to this. That is, various values can be used as the state of the water in the water supply pipes 13, 15, and 21 if the value of the energy consumption of the household equipment can be calculated. Moreover, as long as the energy consumption of household equipment can be calculated, it is not necessary to provide all of the flow meters 29, 31, 33 and the thermometers 30, 32, 34.

  In the above-described embodiment, state information and the like are transmitted and received between the vanity table 4 as a home equipment and the server 38 as a receiving device. However, in this invention, you may transmit / receive state information etc. between several household equipment apparatuses. In this case, one of the house equipment to be transmitted / received is the housing equipment described in the claims, and the other receiving is the receiving equipment described in the claims. For example, when transmitting and receiving state information between the vanity table 4 as a housing equipment and the kitchen 3 as a receiving device, the receiver 37 is connected to the faucet device 7 of the kitchen 3 as a receiving device. It is desirable to provide a hot and cold water mixing valve that can change the mixing ratio of water in the water supply pipes 13 and 15 and a control device that controls the operation of the hot and cold water mixing valve by connecting to the receiver 37 and the hot and cold water mixing valve. In this case, for example, the thermometer 34 detects temperature information indicating 40 degrees Celsius, for example, the transmitter 36 transmits this temperature information, and the receiver 37 of the kitchen 3 receives it. Then, the hot and cold water mixing valve is set so that the upper limit temperature of the water that can be discharged from the faucet device 7 is 35 degrees Celsius to 30 degrees Celsius only while the control device receives the temperature information indicating 40 degrees Celsius. It is desirable to control. By doing so, in addition to the effects described above, the energy consumption of the entire house can be reduced.

  In addition, the communication system 1 which concerns on Embodiment 1 and Embodiment 2 of this invention mentioned above is not limited to Embodiment mentioned above, A various change is possible in the range described in the claim.

1 Housing Information Communication System 2 Water Heater (Housing Equipment)
3 Kitchen (Housing equipment)
4 Bathroom vanity (housing equipment)
5 Bathtub (Housing equipment)
6 Toilet (Housing equipment)
10 faucet device (household equipment)
13, 15, 21 Water supply pipe 18 Mirror (Housing equipment parts)
19 Water discharge pipe (Housing equipment parts)
20 faucets (household equipment parts)
23 Metal plating layer (metal film layer)
29, 31, 33 Flowmeter (state detection means)
30, 32, 34 Thermometer (state detection means)
35 Antenna 36 Transmitter (Transmission means)
38 Server (receiving device)
45 Metal film part (metal film layer)

Claims (2)

State detection means for detecting the state of water in the water pipe of the house;
Constructing a housing equipment installed in the house, and housing equipment parts in which a metal film layer is formed on at least a part of the surface,
An antenna formed on the metal film layer;
Transmitting means for transmitting state information indicating the state of the water detected by the state detecting means from the antenna;
A receiving device for receiving the state information,
Housing information communication system. The housing equipment component is a water discharge pipe, and
The receiving device is a server that stores the state information and calculates an energy consumption amount of the household equipment.
The residential information communication system according to claim 1.

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