JP6510890B2 - Water supply apparatus, monitoring apparatus, and water supply system - Google Patents

Description

  The present invention relates to a water supply device, a monitoring device, and a water supply system.

  Conventionally, a water supply device is used to supply a liquid such as water to a desired place. The water supply apparatus includes a pump for transferring liquid, a motor for driving the pump, an inverter for controlling the number of rotations of the motor, and a control unit for controlling the operation of the water supply apparatus. .

  The water supply device may be subjected to maintenance or repair. The water supply device of the prior art sometimes communicates information regarding the water supply device to the outside using an IC tag in order to perform maintenance or repair. The IC tag can communicate wirelessly with an external device such as a portable terminal possessed by a worker, for example.

  For example, a worker who possesses a portable terminal can obtain information such as the cumulative operation time of the water supply device, the number of operations, or a failure history from the IC tag by holding the portable terminal over the IC tag.

JP 2007-192056 A

  However, the water supply device of the prior art can not acquire information on the water supply device unless the worker moves up to the vicinity of the water supply device and holds the portable terminal over the IC tag. Moreover, it is difficult for a plurality of workers to simultaneously obtain information on the water supply apparatus in the water supply apparatus of the prior art. Therefore, the water supply device of the prior art is not very convenient to use. Therefore, an aspect of the present invention is to allow a plurality of devices to obtain information on a water supply device from a remote place.

  In addition to the above-described conventional techniques, information on each of a plurality of water supply apparatuses is transmitted from each water supply apparatus to a central monitoring apparatus, and a worker obtains information on a plurality of water supply apparatuses by accessing the central monitoring apparatus. It is conceivable. However, this arrangement is costly to provide a central monitoring device. In addition to this, in this configuration, since the worker obtains information once sent from the water supply device to the central monitoring device, there is a possibility that a time lag may occur in the information obtained by the worker. As a result, there is a possibility that the information acquired by the worker does not correctly reflect the state of the water supply apparatus. Therefore, an aspect of the present invention is to make it possible to acquire information that correctly reflects the state of a water supply device.

  One aspect of the present invention is made to solve at least one of the above problems.

A water supply apparatus according to an aspect of the present invention is a water supply apparatus for supplying a liquid, and a pump for pumping the liquid, and the discharge side pressure of the pump becomes a target pressure on a target pressure control curve. A control unit having an operation control unit for controlling the operation of the pump; and a web page generation unit for generating a web page for displaying information on the water supply apparatus on a web browser; and the web generated by the control unit And a port on which a web server unit for transmitting a page to an external device is implemented.

  According to this, the external device of the water supply apparatus can obtain information on the water supply apparatus by accessing the web server unit via the network. Also, the external device does not acquire information on the water supply device by RFID (Radio Frequency Identifier) communication using an IC tag, for example, but acquires information on the water supply device by communication using WWW (World Wide Web) be able to. Therefore, according to the water supply apparatus of one form, for example, even if the worker possessing the external device does not go to the vicinity of the water supply apparatus, it is possible to obtain information on the water supply apparatus. Moreover, according to the water supply apparatus of one form, a plurality of external devices can simultaneously obtain information on the water supply apparatus from a remote location.

  Further, in the above water supply apparatus, the web server unit mounted to the port and a storage unit for storing a web page generated by the control unit are further provided, and the web server unit is configured to store the storage device. The web page stored in the unit can be wirelessly transmitted to an external device.

  Further, in the above water supply apparatus, the web server unit and the storage unit may be mounted on a storage communication medium which is removable from the port.

  According to this, a device can be made common by the model which transmits the information regarding a water supply apparatus, and the model which does not transmit the information regarding a water supply apparatus, and cost can be reduced. That is, mounting a storage communication medium in a port is a model for transmitting information related to the water supply apparatus, and a model not transmitting information related to the water supply apparatus unless the storage communication medium is mounted in the port. In addition, with regard to a model that does not transmit information on the water supply apparatus, the storage communication medium is not implemented, so costs can be reduced.

  In the water supply device described above, the control unit can generate the web page and store the web page in the storage unit only when the storage communication medium is attached to the port.

  According to this, the water supply apparatus can determine whether to transmit information on the water supply apparatus based on the presence or absence of the storage communication medium. Therefore, the water supply device communicates with the external device when the storage communication medium is attached to the port, and communicates with the external device when the storage communication medium is not attached to the port. Absent. Therefore, as in the prior art, the water supply apparatus according to one embodiment prevents the waste of control of performing the transmission process regardless of the case where the external device as the communication partner is not present and it is not necessary to perform the communication. Can.

  Further, in any of the water supply devices described above, the information related to the water supply device may be information indicating an operating state of the water supply device for performing maintenance and inspection of the water supply device or pre-diagnosis of a failure of the water supply device. May be included.

  In the above water supply apparatus, the system further includes a pump for pumping liquid and a motor for driving the pump, and the information indicating the operating state of the water supply apparatus is the pressure of the pump, the pressure of the pump It may include at least one of a liquid flow rate and a rotational speed of the motor.

A monitoring device according to an aspect of the present invention is a monitoring device that monitors a water supply device for supplying a liquid, and causes a web browser to display information about the water supply device transmitted from the water supply device via a wired cable. A control unit having a web page generation unit for generating a web page, and a port on which a web server unit for transmitting the web page generated by the control unit to an external device is implemented.

  In the monitoring apparatus, the web server unit mounted on the port and a storage unit for storing a web page generated by the control unit may be further included, and the web server unit is configured to store the storage unit. The web page stored in the unit can be wirelessly transmitted to an external device.

  Further, in the above monitoring apparatus, the web server unit and the storage unit may be mounted on a storage communication medium which is removable from the port.

  In the monitoring apparatus, the control unit can generate the web page and store the web page in the storage unit only when the storage communication medium is attached to the port.

  Further, in the monitoring device according to any one of the above items, the information on the water supply device indicates an operation state of the water supply device for performing maintenance and inspection of the water supply device or pre-diagnosis of a failure of the water supply device. It may contain information.

  Further, in the above monitoring device, the information indicating the operating state of the water supply device is at least the pressure of the pump included in the water supply device, the liquid flow rate of the pump, and the number of rotations of the motor included in the water supply device. You may include one.

  A water supply system according to an embodiment of the present invention includes a water supply device including any one of the monitoring devices described above, a pump for pumping a liquid, and a motor for driving the pump.

It is a figure for demonstrating the basic composition and operation | movement of a water supply apparatus. It is an operating characteristic curve figure of a pump for explaining an example of presumed terminal pressure fixed control. It is a figure which shows typically the structure of the water supply apparatus of 1st Embodiment. It is a figure which shows typically the structure of the monitoring apparatus of 2nd Embodiment, and a water supply system.

  Hereinafter, a water supply device, a monitoring device, and a water supply system according to an embodiment of the present invention will be described based on the drawings.

  First, the basic configuration and operation of the water supply apparatus will be described. FIG. 1 is a figure for demonstrating the basic composition and operation | movement of a water supply apparatus. As shown in FIG. 1, the suction port of the water supply apparatus 100 is connected to the water pipe 4 via the introduction pipe 5. A water supply pipe 7 is connected to the discharge port of the water supply device 100. The water supply pipe 7 is in communication with a water supply device (for example, a faucet) on each floor of the building. The water supply apparatus 100 pressurizes the water from the water pipe 4 to supply water to each water supply in the building.

The water supply apparatus 100 in which the suction side of the pump is directly connected to the water pipe 4 through the introduction pipe 5 includes two pumps 110 (110a and 110b) and a motor (motor) 120 as a drive source for driving these pumps 110. (120a, 120b) and an inverter 130 (130a, 130b) as a drive device for driving the motor 120 at variable speed. In addition, water supply device 1
00 includes a backflow prevention device 25 disposed on the suction side of the pump 110, and a pressure sensor (suction side pressure sensor) 112 disposed on the suction side of the backflow prevention device 25. In the water supply apparatus 100, the check valve 22 disposed on the discharge side of the pump 110, the flow switches 114 (114 a and 114 b) disposed on the discharge side of the check valve 22, and the discharge side of the flow switch 114. The pressure sensor (discharge side pressure sensor) 113 disposed and the pressure tank 28 disposed on the discharge side of the pressure sensor 113 are provided. These components are accommodated in the cabinet 30 of the water supply apparatus 100. In addition, there is also a water supply apparatus of the type which is not provided with the cabinet 30.

  The water supply apparatus 100 is provided with two sets of a pump 110, a motor 120, a check valve 22, and a flow switch 114, which are provided in parallel. In addition, one set or three or more sets of a pump, a motor, a check valve, and a flow switch may be provided.

  The water supply apparatus 100 includes a bypass pipe 8 for supplying water only with the pressure of the water pipe 4. The bypass pipe 8 communicates the introduction pipe 5 with the water supply pipe 7. The bypass pipe 8 is provided with a check valve 23. Although the suction side of the pump 110 is connected to the water pipe 4 as shown in FIG. 1 in the direct connection type water supply device, the suction side of the pump 110 is connected to the water reception tank via the introduction pipe 5 in the water supply type water receiving device. Connected In the case of a water tank-type water supply device, the backflow prevention device 25 shown in FIG. 1, the pressure sensor 112 on the suction side, and the bypass pipe 8 are not provided.

  The check valve 22 is provided in each of the discharge pipes 32 connected to the discharge port of the pump 110. The check valves 22 are valves for preventing backflow of water when the pump 110 is stopped. The flow switch 114 is a flow detector that detects that the flow rate of water flowing through the discharge pipe 32 has decreased to a predetermined value, that is, the amount of excessive water. The pressure sensor 113 is a water pressure measuring device for measuring the discharge side pressure of the pump 110 (hereinafter, the discharge side pressure indicates a pressure value measured by the pressure sensor 113). The pressure tank 28 is a pressure holder for holding the discharge pressure while the pump 110 is stopped.

  The water supply apparatus 100 includes a control unit 140 that controls the water supply operation. The inverter 130, the flow switch 114, and the pressure sensors 112 and 113 are connected to the control unit 140 via a signal line. When the underflow amount is detected by the flow switch 114, the control unit 140 instructs the inverter 130 to temporarily increase the operating speed of the pump 110, accumulates pressure in the pressure tank 28, and then stops the operation of the pump 110.

  If water is used in the building with the pump 110 stopped, the pressure on the discharge side of the pump 110 decreases. When the discharge pressure, that is, the output value of the pressure sensor 113 decreases to the predetermined start pressure, the control unit 140 starts one of the pumps 110. Specifically, control unit 140 instructs inverter 130 to start driving of motor 120. In the control unit 140, a starting pressure serving as a trigger for starting the pump 110 is stored in advance. During operation of the pump 110, estimated terminal pressure constant control or discharge pressure constant control is performed based on the discharge side pressure.

  When the use of water in the building is reduced, the flow switch 114 detects the amount of underwater and sends a detection signal to the control unit 140. The control unit 140 receives this detection signal and issues a command to the inverter 130 to increase the rotational speed of the pump 110 until the discharge pressure reaches a predetermined stop pressure, accumulates pressure in the pressure tank 28, and then stops the pump 110.

The water supply apparatus 100 may be provided with a display 49 for displaying the operating state of the pump. As the display 49, a 7-segment LED, a simple display of a display light, a liquid crystal screen, or the like can be used. The display 49 displays minimum necessary information such as discharge side pressure, occurrence of failure, integrated operation time for each pump 110, integrated operation number for each pump 110, setting value necessary for operation of the pump 100, and the like.

  In the estimated terminal pressure constant control, the water pressure in the water supply device located at the end from the water supply device 100 is uniformly controlled by appropriately changing the target pressure according to the resistance loss in the water supply pipe in the building. FIG. 2 is an operating characteristic curve diagram of a pump for illustrating an example of estimated terminal pressure constant control. In the left view of FIG. 2, the horizontal axis is the flow rate of water, and the vertical axis is the discharge pressure, that is, the head. Further, in the right view of FIG. 2, the horizontal axis is the pump rotational speed, and the vertical axis is the discharge pressure, that is, the head (head).

  PA shown in FIG. 2 is a discharge side pressure (hereinafter referred to as PA) at the maximum flow rate in the water supply device at the end from the water supply apparatus 100. The term "maximum flow rate" as used herein refers to a state in which the maximum amount of water is used in all the water supply devices in the building. Moreover, PB is the discharge side pressure (it is hereafter described as PB) at the time of the shut-off operation in the water supply apparatus of the terminal from the water supply apparatus 100. The term “cutoff operation” as used herein refers to the supply pressure required for the water supply device located at the highest and farthest position from the water supply apparatus 100 (that is, the end position) and the pressure It is the value which added the pressure loss which arises in the pipeline to water supply equipment. The curve indicated by the symbol NMAX is a head curve of the pump 110 when the pump 110 is operated at the maximum number of revolutions NMAX determined by the performance of the pump 110. The curve indicated by the symbol NMIN is the lift curve of the pump 110 when the pump 110 is operated at a rotational speed (cutoff rotational speed) NMIN that achieves the pressure PB. P05 is the discharge side pressure during shutoff operation at the maximum rotation speed NMAX (hereinafter, the maximum rotation speed is NMAX, the rotation speed at PB during the shutoff operation is NMIN, and NMAX is the head of the shutoff operation P05). It is. Generally, since the discharge flow rate of the pump and the rotational speed of the pump are proportional, and the total head of the pump is proportional to the square of the rotational speed of the pump, the quadratic curve passing through PA and PB is the end It becomes the pipeline resistance curve R in the water supply device. By operating the pump 110 at the operating point which is the intersection of the head curve Nm and the pipeline resistance curve R at an arbitrary rotational speed, the pressure at the water supply at the end is kept at a constant PB.

  The target pressure control curve C used for the estimated terminal pressure constant control will be described using the right view of FIG. C0 in the figure is a cut-off operation curve. When the suction side pressure of the pump 110 is zero, C0 is a quadratic curve passing through pressure = 0 and rotational speed = 0, and P05 and NMAX. The target pressure control curve C is a quadratic curve passing through PA and NMAX and PB and NMIN. When the pressure is controlled to be PB constant in the water supply device at the end from the water supply apparatus 100 (that is, the estimated end pressure constant control is performed with the target pressure PA), the discharge flow rate of the pump 110 is the rotation of the pump 110 as described above. In order to be proportional to the number, the target pressure PN is set from the rotational speed Nm of the pump 110 corresponding to the current flow rate QN and the target pressure control curve C.

  Therefore, when the flow rate is small, the target pressure of the discharge side pressure is lowered, and the power requirement of the pump 110 is correspondingly lowered to reduce the number of revolutions, whereby the energy saving operation is realized.

  Note that, in FIG. 2, when the pressure PB is set so that the pressure PB becomes equal to the pressure PA, the control unit 140 executes not the estimated terminal pressure constant control but the discharge pressure constant control. In this case, the control unit 140 controls the number of rotations of the pump 110 so that the discharge side pressure maintains PA (= PB).

The water supply apparatus 100 according to the present embodiment includes two pumps 110. When one of the two pumps 110 breaks down, the other pump 110 performs a backup operation. In addition, to equalize the integrated operation time of the pump 110 and prevent dead water in the pump 110, the start order of the pump 110 can be changed, or the pump 110 in operation can be forced to the other pump 110 in a preset time. Switch to Also, in order to save energy, the pump 110 is added or disconnected according to the amount of water supplied. Besides, rotation and number control of the pumps 110 are performed according to various methods. Usually, the water supply apparatus 100 is always energized, and as described above, is used in the automatic operation mode in which the start / stop of the pump 110 and the number of revolutions are controlled according to the use of water in the building.

First Embodiment
Next, the water supply apparatus of 1st Embodiment is demonstrated. In addition, below, only a part of structure of the water supply apparatus 100 shown in FIG. 1 is shown in figure, and description is simplified. FIG. 3: is a figure which shows typically the structure of the water supply apparatus of 1st Embodiment. As shown in FIG. 3, the water supply apparatus 100 includes a pump 110 for pumping a liquid (for example, water), and a motor 120 for driving the pump 110. Further, the water supply apparatus 100 includes an inverter 130 for controlling the number of rotations of the motor 120, and a control unit 140 for controlling the operation of the water supply apparatus 100.

The control unit 140 includes a display unit 49, an operation control unit 142, and a web page generation unit 144. As described above, the operation control unit 142 controls the operation of the pump 110 such that the discharge side pressure becomes the target pressure on the target pressure control curve. The web page generation unit 144 generates a web page for displaying information on the water supply apparatus 100 on the web browser. For example, the control unit 140 (web page generation unit 144) may generate HTML (Hyper Text)
The web page is generated using Markup Language, but is not limited thereto.

  Here, the information on the water supply apparatus 100 includes, for example, information indicating the operating state of the water supply apparatus 100. The information indicating the operating state of the water supply device 100 is used, for example, to perform maintenance and inspection of the water supply device 100 or pre-diagnosis of a failure of the water supply device 100. Specifically, the information indicating the operating state of the water supply device 100 includes at least one of the pressure of the pump 110, the liquid flow rate of the pump 110, and the rotational speed of the motor 120.

  The water supply apparatus 100 of the present embodiment includes pressure sensors 112 and 113 for detecting the pressure of the pump 110, and a flow switch 114 for detecting the liquid flow rate (discharge flow rate) of the pump 110. The signal of the pressure detected by the pressure sensors 112 and 113 and the signal of the flow rate detected by the flow switch 114 are input to the control unit 140. In addition, the water supply device 100 includes a rotation number sensor 122 for detecting the rotation number of the motor 120. The signal of the number of revolutions detected by the number of revolutions sensor 122 is input to the control unit 140. The control unit 140 generates a web page related to information indicating the operating state of the water supply apparatus 100 based on the input pressure signal, flow rate signal, and rotation speed signal. The information indicating the operating state of the water supply apparatus 100 is the integrated operation time of the water supply apparatus 100, the number of operations, or the failure history, the target pressure, the set pressure, the inflow pressure, the output current value acquired from the current sensor, the output of the inverter The frequency, the number of installed pumps, the pump temperature, the presence or absence of the water receiving tank, the water level of the water receiving tank, the state of the city water inflow control valve, etc. may be included.

  The water supply apparatus 100 further includes a storage unit 152 for storing the web page generated by the control unit 140. The water supply apparatus 100 further includes a web server unit 154 for transmitting the web page generated by the control unit 140 to an external device (for example, a terminal device 200 possessed by a worker). Specifically, the web server unit 154 wirelessly transmits the web page stored in the storage unit 152 to an external device according to HTTP (Hypertext Transfer Protocol). The terminal device 200 is, for example, a portable terminal device such as a laptop computer, a smartphone, or a tablet computer.

  According to the present embodiment, the terminal device 200 provided outside the water supply apparatus 100 can obtain information on the water supply apparatus 100 by accessing the web server unit 154 via the network. Further, the terminal device 200 does not acquire information on the water supply apparatus 100 by RFID (Radio Frequency Identifier) communication using an IC tag, for example, but information on the water supply apparatus 100 by communication using WWW (World Wide Web) You can get Therefore, according to the water supply apparatus 100 of the present embodiment, for example, even if a worker who holds the terminal apparatus 200 does not go to the vicinity of the water supply apparatus 100, it is possible to obtain information on the water supply apparatus 100. Moreover, according to the water supply apparatus 100 of this embodiment, a plurality of terminal devices 200 can simultaneously acquire information on the water supply apparatus 100 from a remote place.

  Moreover, according to the water supply apparatus 100 of this embodiment, the terminal device 200 can acquire the information which reflected the state of the water supply apparatus 100 correctly. That is, as a method of acquiring the information on the water supply apparatus, it is conceivable that information on each of the plurality of water supply apparatuses is transmitted from each water supply apparatus to the central monitoring apparatus (work station) and a worker accesses the central monitoring apparatus. However, in this configuration, in addition to the cost for providing the central monitoring device, the worker is to obtain the information once sent from the water supply device to the central monitoring device. There may be a time lag. On the other hand, in the present embodiment, the terminal device 200 can obtain information on the water supply device 100 directly from the web server unit 154 provided in the water supply device 100. Therefore, according to the water supply apparatus 100 of this embodiment, the terminal device 200 can acquire the information which correctly reflected the state of the water supply apparatus 100 in which the time lag has not arisen.

  Further, in the present embodiment, the storage unit 152 and the web server unit 154 are mounted on the storage communication medium 150 which is removable from the water supply apparatus 100. In other words, the storage communication medium 150 is a memory card or the like equipped with a wireless communication function. The water supply apparatus 100 includes a port 160 for mounting the storage communication medium 150. The storage communication medium 150 can be inserted into and removed from the port 160.

  When the storage communication medium 150 is mounted on the port 160, the terminal device 200 can acquire information on the water supply device 100. On the other hand, when the storage communication medium 150 is not mounted on the port 160, the terminal device 200 can not acquire the information on the water supply device 100.

  According to the water supply apparatus 100 of the present embodiment, the apparatus can be shared by a model that transmits information on the water supply apparatus 100 and a model that does not transmit information on the water supply apparatus 100, and the cost can be reduced. . That is, if the storage communication medium 150 is mounted on the port 160 of the water supply apparatus 100, it becomes a model for transmitting information on the water supply apparatus 100. If the storage communication medium 150 is not mounted on the port 160 of the water supply apparatus 100, the information on the water supply apparatus 100 is It becomes a model which does not transmit. In addition, with regard to a model that does not transmit information related to the water supply apparatus 100, the storage communication medium 150 is not mounted, so costs can be reduced.

  When the water supply apparatus 100 is installed at the site as a model that does not transmit information related to the water supply apparatus 100 and is later changed to a model that transmits information related to the water supply apparatus 100, the storage communication medium 150 is stored in the port 160. Model change is realized by the simple task of installing. Conversely, when the water supply apparatus 100 is installed at the site as a model for transmitting information related to the water supply apparatus 100 and changed to a model not transmitting information related to the water supply apparatus 100 later, the storage communication medium from the port 160 Model change is realized with the simple operation of removing the 150.

  Further, since the storage communication medium 150 is removable from the port 160, the control unit 140 generates a web page and stores the storage page 152 only when the storage communication medium 150 is attached to the port 160. It is made to memorize to. The water supply apparatus 100 communicates with the terminal device 200 when the storage communication medium 150 is attached to the port 160. In other words, when the storage communication medium 150 is not attached to the port 160, the control unit 140 does not generate the web page and store it in the storage unit 152. The water supply apparatus 100 does not communicate with the terminal device 200 when the storage communication medium 150 is not attached to the port 160.

  As described above, the water supply apparatus 100 according to the present embodiment can determine whether the information related to the water supply apparatus 100 should be transmitted based on the presence or absence of the storage communication medium 150. For this reason, the water supply apparatus 100 of the present embodiment is a waste of control to perform the transmission process regardless of the case where the terminal apparatus 200 as the communication partner is not present and there is no need to perform communication as in the prior art. Can be prevented.

Second Embodiment
Next, a monitoring device and a water supply system of a second embodiment will be described. FIG. 4: is a figure which shows typically the structure of the monitoring apparatus of 2nd Embodiment, and a water supply system.

  As shown in FIG. 4, the water supply system 500 includes a water supply device 100 ′ and a monitoring device 300 for monitoring the state of the water supply device 100 ′. First, the water supply apparatus in the present embodiment will be described. The same components as those of the water supply apparatus 100 of the first embodiment are denoted by the same reference numerals. The water supply apparatus 100 ′ includes a pump 110 for pumping a liquid (for example, water) and a motor 120 for driving the pump 110. Moreover, water supply apparatus 100 'is provided with the inverter 130 for controlling the rotation speed of the motor 120, and control part 140' for controlling operation of water supply apparatus 100 '.

  Control part 140 'transmits information about water supply apparatus 100' to monitoring instrument 300. The information regarding water supply apparatus 100 'contains the information which shows the driving | running state of water supply apparatus 100', for example. The information indicating the operating state of the water supply device 100 'is used, for example, to perform maintenance and inspection of the water supply device 100' or to pre-diagnose a failure of the water supply device 100 '. Specifically, the information indicating the operating state of the water supply device 100 ′ includes at least one of the pressure of the pump 110, the liquid flow rate of the pump 110, and the rotational speed of the motor 120.

  The water supply apparatus 100 ′ of the present embodiment includes pressure sensors 112 and 113 for detecting the pressure of the pump 110, and a flow switch 114 for detecting the liquid flow rate (discharge flow rate) of the pump 110. The signal of the pressure detected by the pressure sensors 112 and 113 and the signal of the flow rate detected by the flow switch 114 are input to the control unit 140 '. In addition, the water supply device 100 ′ includes a rotation speed sensor 122 for detecting the rotation speed of the motor 120. The signal of the rotational speed detected by the rotational speed sensor 122 is input to the control unit 140 '. The control unit 140 ′ transmits the input pressure signal, flow rate signal, and rotation speed signal to the monitoring device 300. The information indicating the operating state of the water supply apparatus 100 'is the integrated operation time of the water supply apparatus 100', the number of times of operation, failure history, target pressure, set pressure, inflow pressure, output current value acquired from current sensor, output of inverter The frequency, the number of installed pumps, the temperature of the pump, the presence or absence of the water receiving tank, the water level of the water receiving tank, or the state of the city water inflow control valve may be included.

In the present embodiment, the water supply device 100 ′ and the monitoring device 300 are connected by a wired cable 310. That is, in the present embodiment, it is assumed that communication using WWW (World Wide Web) is difficult to perform because the water supply apparatus 100 'is installed in a place where the radio wave condition is poor such as underground. . Thus, in the present embodiment, the water supply device 100 ′ and the monitoring device 300 are connected by the wired cable 310. The control unit 140 ′ transmits information related to the water supply apparatus 100 ′ to the monitoring apparatus 300 via the wired cable 310.

  The monitoring device 300 is a device for monitoring the state of the water supply device 100 ′, and includes a control unit 340 and a storage communication medium 150. The control unit 340 includes a web page generation unit 344. The control unit 340 (web page generation unit 344) generates a web page for causing the web browser to display information on the water supply device 100 ′ transmitted from the water supply device 100 ′ via the wired cable 310. For example, the control unit 340 may generate a web page using Hyper Text Markup Language (HTML), but is not limited thereto.

  The monitoring device 300 includes a storage unit 152 for storing the web page generated by the control unit 340. The monitoring device 300 further includes a web server unit 154 for transmitting the web page generated by the control unit 340 to an external device (for example, a terminal device 200 owned by a worker). Specifically, the web server unit 154 wirelessly transmits the web page stored in the storage unit 152 to an external device according to HTTP (Hypertext Transfer Protocol).

  According to the present embodiment, as in the first embodiment, the terminal device 200 provided outside the monitoring device 300 accesses the web server unit 154 via the network to obtain information on the water supply device 100 ′. It can be acquired. Further, the terminal device 200 does not acquire information related to the water supply apparatus 100 'by RFID (Radio Frequency Identifier) communication using an IC tag, for example, but communicates by using WWW (World Wide Web). You can get information about Therefore, according to the monitoring device 300 of the present embodiment, for example, even if a worker who possesses the terminal device 200 does not go to the vicinity of the monitoring device 300, it is possible to obtain information on the water supply device 100 '. Moreover, according to the monitoring apparatus 300 of this embodiment, the several terminal device 200 can acquire the information regarding water supply apparatus 100 'simultaneously from a remote place.

  Moreover, according to the monitoring apparatus 300 of this embodiment, the terminal device 200 can acquire the information which reflected the state of water supply apparatus 100 'correctly. That is, as a method of acquiring the information on the water supply apparatus, it is conceivable that information on each of the plurality of water supply apparatuses is transmitted from each water supply apparatus to the central monitoring apparatus (work station) and a worker accesses the central monitoring apparatus. However, in this configuration, in addition to the cost for providing the central monitoring device, the worker is to obtain the information once sent from the water supply device to the central monitoring device. There may be a time lag. On the other hand, in the present embodiment, the terminal device 200 can directly obtain information on the water supply device 100 ′ from the web server unit 154 provided in the monitoring device 300. Therefore, according to the monitoring device 300 of the present embodiment, the terminal device 200 can acquire information that correctly reflects the state of the water supply device 100 ′ without a time lag.

  Further, in the present embodiment, the storage unit 152 and the web server unit 154 are mounted on the storage communication medium 150 which is removable from the monitoring device 300. In other words, the storage communication medium 150 is a memory card or the like equipped with a wireless communication function. The monitoring device 300 comprises a port 160 for mounting the storage communication medium 150. The storage communication medium 150 can be inserted into and removed from the port 160.

  When the storage communication medium 150 is mounted on the port 160, the terminal device 200 can acquire information on the water supply device 100 '. On the other hand, when the storage communication medium 150 is not mounted on the port 160, the terminal device 200 can not acquire information on the water supply device 100 '.

  Moreover, the monitoring apparatus 300 of this embodiment can be easily retrofitted to existing water supply apparatus 100 '. Therefore, for example, it is possible to easily transmit information on the water supply device 100 'only by retrofitting the monitoring device 300 without replacing the existing water supply device 100' itself.

  Further, since the storage communication medium 150 is removable from the port 160, the control unit 340 generates a web page and stores the storage page 152 only when the storage communication medium 150 is attached to the port 160. It is made to memorize to. The monitoring apparatus 300 communicates with the terminal apparatus 200 when the storage communication medium 150 is attached to the port 160. In other words, when the storage communication medium 150 is not attached to the port 160, the control unit 340 does not generate a web page and store it in the storage unit 152. The monitoring device 300 does not communicate with the terminal device 200 when the storage communication medium 150 is not attached to the port 160.

  As described above, the monitoring device 300 according to the present embodiment can determine whether to transmit information on the water supply device 100 ′ based on the presence or absence of the storage communication medium 150. For this reason, the monitoring apparatus 300 of the present embodiment is a waste of control in which transmission processing is performed regardless of the case where there is no need to perform communication because there is no terminal device 200 as a communication counterpart as in the prior art. Can be prevented.

DESCRIPTION OF SYMBOLS 100 Water supply apparatus 110 Pump 112, 113 Pressure sensor 114 Flow switch 120 Motor 122 Rotation speed sensor 130 Inverter 140, 340 Control part 142 Operation control part 144, 344 Web page generation part 150 Storage communication medium 152 Storage part 154 Web server part 160 Port 200 terminal device 300 monitoring device 310 wired cable 500 water supply system

Claims (13)

A water supply device for supplying liquid,
A pump for pumping fluid,
An operation control unit that controls the operation of the pump so that the discharge side pressure of the pump becomes a target pressure on a target pressure control curve, and a web page for displaying information on the water supply apparatus on a web browser A control unit having a web page generation unit;
A port for implementing a web server unit for transmitting a web page generated by the control unit to an external device;
Water supply equipment provided with. In the water supply apparatus of claim 1,
The web server unit implemented in the port;
A storage unit for storing the web page generated by the control unit;
The web server unit wirelessly transmits the web page stored in the storage unit to an external device.
Water supply equipment. In the water supply apparatus of claim 2,
The web server unit and the storage unit are mounted on a storage communication medium removable from the port.
Water supply equipment. In the water supply apparatus of claim 3,
The control unit generates the web page and stores the web page in the storage unit only when the storage communication medium is attached to the port.
Water supply equipment. In the water supply apparatus of any one of Claims 1-4,
The information on the water supply apparatus includes information indicating an operating state of the water supply apparatus for performing maintenance and inspection of the water supply apparatus or pre-diagnosis of a failure of the water supply apparatus.
Water supply equipment. In the water supply apparatus of claim 5,
A pump for pumping fluid,
And a motor for driving the pump.
The information indicating the operating state of the water supply device includes at least one of the pressure of the pump, the liquid flow rate of the pump, and the number of rotations of the motor.
Water supply equipment. A monitoring device for monitoring a water supply device for supplying liquid, comprising:
A control unit having a web page generation unit for generating a web page for displaying on a web browser information on the water supply device transmitted from the water supply device via a wired cable;
A port for implementing a web server unit for transmitting a web page generated by the control unit to an external device;
A monitoring device comprising: In the monitoring device of claim 7,
The web server unit implemented in the port;
A storage unit for storing the web page generated by the control unit;
The web server unit wirelessly transmits the web page stored in the storage unit to an external device.
Monitoring device. In the monitoring device of claim 8,
The web server unit and the storage unit are mounted on a storage communication medium removable from the port.
Monitoring device. In the monitoring device of claim 9,
The control unit generates the web page and stores the web page in the storage unit only when the storage communication medium is attached to the port.
Monitoring device. The monitoring device according to any one of claims 7 to 10.
The information on the water supply apparatus includes information indicating an operating state of the water supply apparatus for performing maintenance and inspection of the water supply apparatus or pre-diagnosis of a failure of the water supply apparatus.
Monitoring device. In the monitoring device of claim 11,
The information indicating the operating state of the water supply device includes at least one of a pressure of a pump included in the water supply device, a liquid flow rate of the pump, and a rotational speed of a motor included in the water supply device.
Monitoring device. The monitoring device according to any one of claims 7 to 12.
A water supply device comprising: a pump for pumping a liquid; and a motor for driving the pump;
Water supply system equipped with

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