JP7141687B2 - Range hoods and range hood systems - Google Patents

Description

The present invention relates to range hoods and range hood systems.

2. Description of the Related Art Conventionally, there has been proposed a device for controlling a fan that determines whether or not a drive unit such as a motor of the device is out of order. For example, Patent Literature 1 discloses a fan filter unit that operates in a failure diagnosis mode and aims to grasp performance deterioration of a motor. The fan filter unit includes a fan, a motor, and a filter, and includes a control unit for controlling the drive of the motor and monitoring the state of the motor, and includes normal mode operation means, remote operation mode operation means, and fault diagnosis. It has mode operation means. The failure diagnosis mode operating means starts a failure diagnosis mode in which the motor is driven at a rotation speed for failure diagnosis periodically or in response to an instruction from an external device. Check deterioration.

Also, a cooker hood has been proposed that alerts the user to clean the dirt on the filter. For example, Patent Literature 2 discloses a cleaning reminder system for a grease filter in a ventilator suitable for obliging the user to periodically clean the grease filter. This cleaning reminder system counts the number of times the fan drive switch is turned on, and every time the count reaches a predetermined cumulative count set in stages, a warning sound prompting cleaning of the grease filter is emitted from the sound generator for a predetermined period of time. The warning sound becomes severer each time a predetermined cumulative count number set in stages is reached.

JP 2015-108468 A Japanese Patent Application Laid-Open No. 2002-071176

Devices such as range hoods of this type in the prior art have a diagnosis mode in which the motor is rotated at a rotation speed for failure diagnosis in addition to the normal operation mode. However, since it is necessary to use the time for failure diagnosis in addition to the normal operation to determine the failure, this has been a cause of reducing the availability of the device.

In the above range hood, the cumulative number of times of operation and the cumulative usage time are used as substitute values corresponding to the timing of cleaning, and when these reach a predetermined number of times or time, the user is notified of the time to clean the filter. However, these substitute values cannot be said to indicate the actual clogging state of the filter. was not reported.

Accordingly, the present invention has been made in view of such conventional problems, and provides a range hood that improves availability by determining whether or not there is a failure during normal operation. Furthermore, the present invention provides a range hood that detects an increase in ventilation resistance due to contamination of the fan, contamination and clogging of the inside of the filter, duct, outdoor exhaust port, etc., and detects the correct maintenance timing.

In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and power consumption of the motor. , a fan rotation speed detection unit that detects the rotation speed of the fan, and an identification information storage unit that stores its own identification number, and the communication unit stores the identification information storage unit. The identification number is transmitted to the server, and the range hood or the server includes a model characteristic storage unit that stores a model characteristic indicating the relationship between the number of revolutions of the fan and the power consumption of the motor, and the motor power. Whether the state information indicating the relationship between the power consumption detected by the detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. The server includes a regional information detection unit that stores position information corresponding to the identification number of each range hood and detects regional distribution, When the regional information detection unit detects that the range hood, which is determined by the state determination unit to deviate from a predetermined threshold value or more, exists in a regional spread, the state determination unit performs the determination for a predetermined time. Provided is a range hood system characterized by not performing or increasing a predetermined threshold .
According to this, it is possible to provide a range hood system that improves availability by determining whether or not there is a failure based on the power consumption of the motor and the number of revolutions of the fan during normal operation.
The server further includes a weather information acquisition unit that acquires weather information via the Internet, and the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit. A system is also possible.
Furthermore, it goes without saying that any configuration can be added to the range hood system of the present invention as long as it does not conflict with the problem to be solved.

Furthermore, it may be characterized by further comprising a notification unit that notifies of state confirmation when the state determination unit determines that the state information deviates from a predetermined threshold value or more.
According to this, the user can be notified of the failure.

Further, it further comprises an identification information storage unit that stores its own identification number, and a communication unit that communicates via a network. It may be characterized by performing to a person.
According to this, it is possible to automatically notify the management company or the like that performs maintenance of the failure.

In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and a unit time of the flowing air. An air volume setting value detection unit that detects the air volume setting value per hit, a fan rotation speed detection unit that detects the rotation speed of the fan, and an identification information storage unit that stores its own identification number. The identification number stored in the identification information storage unit is transmitted to the server, and the range hood or the server has a model characteristic indicating the relationship between the set value of the air volume per unit time and the rotation speed of the fan. and state information indicating the relationship between the set value detected by the air volume setting value detection unit and the rotation speed detected by the fan rotation speed detection unit is stored in the model characteristics stored in the model characteristics storage unit , the server has a state determination unit that determines whether or not it deviates from a predetermined threshold value or more, and the server stores position information corresponding to the identification number of each range hood, and regionally a region information detection unit for detecting a distribution, wherein the region information detection unit detects that the range hoods determined by the state determination unit to deviate from a predetermined threshold or more exist in a regional spread. In this case, the range hood system is provided , wherein the state determination unit does not perform the determination for a predetermined period of time or increases a predetermined threshold value .
According to this, it is possible to provide a range hood system that detects the correct maintenance timing by determining whether or not the ventilation resistance is increasing based on the set air volume and the number of revolutions of the fan.
The server further includes a weather information acquisition unit that acquires weather information via the Internet, and the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit. A system is also possible.
Furthermore, it goes without saying that any configuration can be added to the range hood system of the present invention as long as it does not conflict with the problem to be solved.

In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and a unit time of the flowing air. An air volume setting value detection unit for detecting the air volume setting value per hit, a motor power detection unit for detecting the power consumption of the motor, and an identification information storage unit for storing the identification number of the motor. The identification number stored in the information storage unit is transmitted to the server, and the range hood or the server stores model characteristics indicating the relationship between the set value of the air volume per unit time and the power consumption of the motor. and the state information indicating the relationship between the set value detected by the air volume set value detection unit and the power consumption detected by the motor power detection unit is stored with respect to the model characteristics stored in the model characteristic storage unit. , a state determination unit that determines whether or not the range hood deviates from a predetermined threshold value or more; and the area information detection unit detects that the range hood, which is determined by the state determination unit to deviate from a predetermined threshold value or more, exists in a regional spread. A range hood system is provided , wherein the state determination unit does not perform determination for a predetermined time or increases a predetermined threshold value .
According to this, it is possible to provide a range hood system that detects the correct maintenance timing by determining whether or not the ventilation resistance is increasing based on the set air volume and the power consumption of the motor.
The server further includes a weather information acquisition unit that acquires weather information via the Internet, and the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit. A system is also possible.
Furthermore, it goes without saying that any configuration can be added to the range hood system of the present invention as long as it does not conflict with the problem to be solved.

In order to solve the above problems, a range hood system comprising the range hood and a server connected to the range hood via a network, wherein the range hood stores identification information storing its own identification number A storage unit and a communication unit that communicates with a server via a network are further provided. The communication unit transmits the identification number and state information stored in the identification information storage unit to the server, and the state determination unit stores the state information received by the server in the model characteristic storage unit. A range hood system is provided for determining whether or not the model characteristic corresponding to the identification number received by the server deviates by a predetermined threshold value or more.
According to this, information is aggregated in the server, and the server makes a judgment, so that the data and programs contained in them can be easily centrally managed, and information from a plurality of range hoods can be obtained. Accurate maintenance timing can be detected.

Furthermore, the server includes a notification unit that notifies of state confirmation, and the notification unit, when the state determination unit determines that the state information deviates from a predetermined threshold value or more, the range hood user's portable terminal and / Or it may be characterized in that the notification is made to a person other than the user.
According to this, more flexible and wide-ranging notification is possible by performing notification from the server.

Furthermore, the identification information storage unit further includes position information of the area where the range hood is installed, and the server stores position information corresponding to the identification number of each range hood, and regional information for detecting regional distribution The communication unit transmits the identification number and position information stored in the identification information storage unit and the state information to the server. When it is detected that range hoods that are determined to be present exist in a regional spread, the state determination unit may not perform the determination for a predetermined period of time, or increase a predetermined threshold value.
According to this, information from multiple range hoods can be obtained along with regional location information, so false alarms can be avoided when detecting abnormal conditions in a regional spread (for example, when a typhoon is approaching). By doing so, it is possible to notify the user of correct maintenance information.

In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and power consumption of the motor. , a fan rotation speed detection unit that detects the rotation speed of the fan, and an identification information storage unit that stores its own identification number, and the communication unit stores the identification information storage unit. The identification number is transmitted to the server, and the range hood or the server includes a model characteristic storage unit that stores a model characteristic indicating the relationship between the number of revolutions of the fan and the power consumption of the motor, and the motor power. Whether the state information indicating the relationship between the power consumption detected by the detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. The server further comprises a weather information obtaining unit for obtaining weather information via the Internet, and the state determining unit obtains the weather information obtained by the weather information obtaining unit. It is possible to provide a range hood system characterized by changing a predetermined threshold based on.
In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and a unit time of the flowing air. An air volume setting value detection unit that detects the air volume setting value per hit, a fan rotation speed detection unit that detects the rotation speed of the fan, and an identification information storage unit that stores its own identification number. The identification number stored in the identification information storage unit is transmitted to the server, and the range hood or the server stores model characteristics indicating the relationship between the set value of the air volume per unit time and the rotation speed of the fan. The state information indicating the relationship between the setting value detected by the air volume setting value detection unit and the rotation speed detected by the fan rotation speed detection unit is stored in the model characteristics stored in the model characteristics storage unit. The server further comprises a weather information acquisition unit that acquires weather information via the Internet, and the state determination unit provides a range hood system characterized by changing a predetermined threshold based on the weather information acquired by the weather information acquisition unit.
In order to solve the above problems, there is provided a range hood system including a range hood and a server, wherein the range hood includes a fan for generating air flow, a motor for rotating the fan, and a unit time of the flowing air. An air volume setting value detection unit for detecting the air volume setting value per hit, a motor power detection unit for detecting the power consumption of the motor, and an identification information storage unit for storing the identification number of the motor. The identification number stored in the information storage unit is transmitted to the server, and the range hood or the server stores model characteristics indicating the relationship between the set value of the air volume per unit time and the power consumption of the motor. and the state information indicating the relationship between the set value detected by the air volume set value detection unit and the power consumption detected by the motor power detection unit is stored with respect to the model characteristics stored in the model characteristic storage unit. , a state determination unit that determines whether or not there is a deviation of a predetermined threshold value or more, the server further includes a weather information acquisition unit that acquires weather information via the Internet, the state determination unit A range hood system is provided, wherein a predetermined threshold value is changed based on the weather information acquired by the weather information acquisition unit.
According to this, the server collects weather information intensively and makes judgments based on that information, making it possible to make comprehensive judgments even when airflow resistance is high due to strong winds, preventing false alarms. avoid and inform correct maintenance information.
In addition to the cooker hood system of the paragraph, the server includes a notification unit that notifies of state confirmation, and the notification unit is provided when the state determination unit determines that the state information deviates from a predetermined threshold value or more In addition, the mobile terminal of the user of the cooker hood and/or a person other than the user can be notified.
Furthermore, it goes without saying that any configuration can be added to the range hood system of the present invention as long as it does not conflict with the problem to be solved.

As described above, according to the present invention, a range hood that determines whether or not there is a failure during normal operation to improve availability and detects an increase in ventilation resistance to detect the correct maintenance time. can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS The block block diagram of the cooker hood of 1st Example which concerns on this invention. The block block diagram of the cooker hood of the modification of the 1st Example which concerns on this invention. The block block diagram of the cooker hood of the 2nd Example which concerns on this invention. The block block diagram of the cooker hood of the modification of 2nd Example which concerns on this invention. The block block diagram of the cooker hood system of the 3rd Example which concerns on this invention. The block block diagram of the range hood system of the modification of the 3rd Example which concerns on this invention. An example of the relationship between static pressure, air volume, fan speed, and power consumption for each set air volume in a range hood (in the case of a sirocco fan).

Hereinafter, each embodiment according to the present invention will be described with reference to the drawings.
<First embodiment>
A cooker hood 100 in this embodiment will be described with reference to FIG. The range hood 100 is installed above or around the cooker in the dining room or the living dining room. The cooker hood 100 sucks and collects oily smoke and water vapor generated mainly by cooking with a cooker together with air, and removes the oil contained in the oily smoke with a filter or the like, or leaves it to the outside through an exhaust duct or the like. Discharge.

The range hood 100 includes a blower 50 that includes a fan 51 that generates such air flow and a motor 52 that drives the fan 51 to rotate. The fan 51 is a sirocco fan, but may be an axial fan, and is not particularly limited. Also, the motor 52 may be for an AC power source or for a DC power source, and is not particularly limited. It is appropriately selected according to the specifications of the cooker hood 100 . Range hood 100 preferably includes a hood and a rectifying plate (not shown) so as to facilitate collection of oily smoke and the like rising from the cooker.

The cooker hood 100 also includes an operation unit 40 operated by the user. The operation unit 40 includes a run/stop switch 41 for turning the range hood 100 on and off by the user, and an air volume setting switch 42 for setting the volume of air sucked/discharged by the range hood 100 . It is preferable that the air volume setting switch 42 can set the air volume in multiple stages such as high, medium, and low. The operation unit 40 may be directly provided on the cooker hood 100, or may be operated remotely via wireless communication or the like.

The range hood 100 includes a control unit 10 that receives instructions from the operation unit 40 and controls the blower 50 and detects the state thereof. The control unit 10 receives signals from a motor power detection unit 12 that detects the power consumption of the motor 52, a fan rotation speed detection unit 13 that detects the rotation speed of the fan 51 per unit time, and an air volume setting switch 42 to determine the air volume. and a state determination unit 11 that determines the state of the range hood 100 . The control unit 10 is implemented in a microcomputer, and the detection/control method of each unit is implemented by a program in the microcomputer.

The motor power detection unit 12 detects the power consumption of the motor 52 which is the load. The detection method is, for example, detecting the voltage or current applied to the motor 52, and is not particularly limited. The fan rotation speed detection unit 13 detects the rotation speed of the fan 51, in other words, the rotation speed per unit time. The number of revolutions per unit time is usually represented by the number of revolutions per minute (RPM: Rotations Per Minute). When the fan 51 is directly connected to the rotation shaft of the motor 52, the rotation speed of the fan 51 matches the rotation speed of the motor 52, so the rotation speed of the motor 52 may be used.

The air volume setting value detection unit 14 receives an electrical signal from the air volume setting switch 42, and determines whether the user specified a large air volume (strong) or a medium air volume (medium) with the air volume setting switch 42. Detects whether a small air volume (weak) is specified. When the air volume setting value detection unit 14 receives a predetermined signal from the air volume setting switch 42 , the control unit 10 drives the motor with a predetermined voltage corresponding to the received signal, thereby driving the blower 50 .

Here, with reference to FIG. 7, an example of the relationship between the fan speed and power consumption for each set air volume in the cooker hood 100 will be described, including the static pressure and the actual air volume. In this example, the fan 51 is a sirocco fan attached to the rotating shaft of the motor 52, and the voltage applied to the motor 52 is constant even if the static pressure changes. For example, when the air volume setting value detection unit 14 receives a signal of "strong" as the setting value, the control unit 10 drives the motor at a predetermined voltage, and the fan 51 rotates between 1024 RPM and 1419 RPM depending on the static pressure (0 to 200 Pa). drive control so that it rotates with When the static pressure is zero Pa and the air volume is 565 m ³ /h, there is no ventilation resistance and the maximum actual air volume is obtained. In this state, fan 51 (motor 52) rotates at 1024 RPM. Moreover, it is known in advance that the power consumption of the motor 52 is 85.7 kWh in this state.

Also, when the static pressure is 200 Pa and the air volume is zero m ³ /h, the filter and exhaust duct are completely clogged. In this state, it is known in advance that the fan 51 (motor 52) rotates at 1419 RPM and the power consumption of the motor 52 at that time is 48.2 kWh. When the static pressure is 100 Pa and the air volume is 432 m ³ /h, the fan 51 rotates at 1136 RPM and the power consumption of the motor 52 at that time is 76 rpm. .6 kWh. Although the description is omitted, the same applies when the air volume setting value detection unit 14 receives a signal indicating "weak" as the setting value. In this way, the relationship between the number of rotations of the fan 51 and the power consumption of the motor 52 is known in advance, and this relationship is determined as model characteristics according to the model specifications of the cooker hood 100 . Although FIG. 7 shows only representative points of the relationship between the number of rotations of the fan 51 and the power consumption of the motor 52, more data may be prepared within the necessary range, for example, at static pressure intervals of 5 Pa. Alternatively, it may be prepared by an approximate expression representing the relationship between the rotation speed of the fan 51 and the power consumption of the motor 52 .

The range hood 100 includes a storage unit 20 that stores information about the model and individual of the range hood 100. In the present embodiment, the model characteristics storage unit 21 in the storage unit 20 stores model-dependent data as described above. The relationship between the number of rotations of the fan 51 and the power consumption of the motor 52 is stored as the characteristic to be used. The storage unit 20 may be included in the microcomputer of the control unit 10, or may be included in a storage medium accessible from the microcomputer as ROM (Read Only Memory). The model characteristic storage unit 21 associates and stores the relationship between the number of rotations of the fan 51 and the power consumption of the motor 52 as the characteristic of the model that differs for each model of the cooker hood 100 .

The state determination unit 11 determines whether the state information indicating the relationship between the power consumption detected by the motor power detection unit 12 and the number of rotations detected by the fan rotation speed detection unit 13 corresponds to the model characteristics stored in the model characteristics storage unit 21. It is determined whether or not the deviation exceeds a predetermined threshold. The state determination unit 11 detects the power consumption of the motor 52 detected by the motor power detection unit 12 and the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13 as information on the state of the cooker hood 100 at that time during normal operation. to get The state determination unit 11 compares the obtained relationship between the power consumption and the fan rotation speed with the relationship between the power consumption and the fan rotation speed of the model stored in advance in the model characteristic storage unit 21 .

For example, if the obtained power consumption is about 76.6 kWh, referring to the relationship between the power consumption and the fan rotation speed of the model pre-stored in the model characteristic storage unit 21, as shown in FIG. Fan speed is 1136 RPM. However, if the obtained fan rotation speed is much lower than 1136 RPM, it means that the relation between the power consumption and the fan rotation speed in the model characteristic storage unit 21 is greatly deviated. In such a case, the state determination unit 11 determines that the vehicle has deviated. In such a case, the cause may be that there is an abnormality in the bearings of the fan 51 or the motor 52, or foreign matter is attached to the fan 51, or the like.

Conversely, even if the obtained power consumption is about 76.6 kWh, but the obtained fan speed greatly exceeds 1136 RPM, the relation between the power consumption and the fan speed in the model characteristics storage unit 21 is greatly deviated. It means that Even in such a case, the state determination unit 11 determines that the vehicle has deviated. In such a case, the cause may be that the blades of the fan 51 are broken or the fan 51 is not firmly attached. Note that the predetermined threshold is appropriately determined depending on the model. For example, in the above example, if power consumption: fan speed = 76.6: 1136, power consumption: fan speed = 76.6: within the range of 908 to 1363 within 20% is normal. If there is more than this, it is determined that there is deviation. In this way, by making a determination based on the power consumption of the motor 52 and the number of rotations of the fan 51 during normal operation, it is possible to determine whether there is an abnormality such as a failure without using time such as in the diagnosis mode. can be improved. In addition, accurate determination can be made by directly detecting the power consumption during operation and the number of revolutions of the fan instead of using a substitute value such as the cumulative number of times of operation.

The cooker hood 100 also includes a notification unit 30 that performs notification of state confirmation when the state determination unit 11 determines that the acquired state information deviates from a predetermined threshold value or more. The notification unit 30 is not particularly limited as long as it can audibly and visually notify the user. For example, the range hood 100 may include a lamp as the notification unit 30 to illuminate as a warning light, or may include a buzzer to sound a warning sound. According to this, it is possible to inform the user of an abnormality such as a failure immediately or in a timely manner, including during driving. In this embodiment, the power consumption of the motor 52 is acquired by the motor power detection unit 12, the corresponding fan rotation speed is read out by referring to the data stored in the model characteristic storage unit 21, and the value is read out. Although the method in which the state determination unit 11 makes a determination by comparing with the current rotation speed of the fan 51 actually acquired by the fan rotation speed detection unit 13 has been shown, the reference process may of course be reversed. The unit 13 acquires the rotation speed of the fan 51, reads the power consumption corresponding to the rotation speed by referring to the data stored in the model characteristics storage unit 21, and the motor power detection unit 12 actually acquires the value. The state determination unit 11 may make the determination by comparing with the power consumption of the motor 52 .

<Modified example of the first embodiment>
A cooker hood 100A that is a modification of the present embodiment will be described with reference to FIG. In order to avoid redundant description, the same constituent elements are denoted by the same reference numerals, descriptions thereof are omitted, and different points are mainly described. Range hood 100A includes blower 50, operation unit 40, control unit 10, notification unit 30A, storage unit 20A having model characteristic storage unit 21 and identification information storage unit 22, and communication unit 60.

The identification information storage unit 22 stores the identification number of the cooker hood 100A itself. The identification number is, for example, a serial number consisting of a model and a unique number. The communication unit 60 has a function of connecting with an external network. The external network may be a public line such as a telephone line, or a dedicated line. Also, the external network is preferably a network that can be connected to the Internet.

The notification unit 30A notifies the user or a person other than the user of the status confirmation along with the identification number via the network. Notification unit 30A notifies electronically via communication unit 60, for example, in the form of e-mail or SMS (Short Message Service). According to this, it is possible to automatically notify a management company or the like that performs maintenance of an abnormal situation such as a failure during operation.

<Second embodiment>
The cooker hood 100B in this embodiment will be described with reference to FIG. Similarly, in order to avoid duplication of description, the same constituent elements are denoted by the same reference numerals, their explanations are omitted, and the points of difference will be mainly described. The range hood 100B includes a blower 50, an operation unit 40, a control unit 10B, a notification unit 30, and a storage unit 20B.

The storage unit 20B has only a model characteristics storage unit 21B. The model characteristic storage unit 21B associates and stores the relationship between the set value of the air volume and the rotation speed of the fan 51 as the characteristic of the model that differs for each model of the cooker hood 100B. More specifically, for example, the number of revolutions at which a satisfactory air volume is not produced is stored as a limit value for each air volume setting value. Using FIG. 7 as an example, when the set air volume value is "strong", the static pressure is 150 Pa and the fan speed is 1245 RPM, the air volume is 250 m ³ /h, which is a state in which a satisfactory air volume can be produced. (Here, it is assumed that the satisfactory air volume for design is 250 m ³ /h.) Therefore, the fan rotation speed of 1245 RPM at this time is stored as a limit value in association with the air volume set value "high". Although the explanation is omitted, the fan rotation speed at which a sufficient air volume cannot be generated even when the setting is "weak" is stored as a limit value in association with the set value of the air volume.

The control unit 10B includes a fan rotation speed detection unit 13, an air volume setting value detection unit 14, and a state determination unit 11B, but does not have the motor power detection unit 12 of the above embodiment. The state determination unit 11B stores state information indicating the relationship between the air volume setting value detected by the air volume setting value detection unit 14 and the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13 in the model characteristic storage unit 21B. It is determined whether or not the model characteristics deviate by a predetermined threshold value or more. The state determination unit 11B uses the air volume setting value detected by the air volume setting value detection unit 14 and the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13 as information on the state of the range hood 100B at that time during normal operation. to get The state determination unit 11B compares the obtained relationship between the air volume setting value and the fan rotation speed with the relationship between the air volume setting value and the fan rotation speed of the model stored in advance in the model characteristic storage unit 21B.

For example, if the acquired air volume setting value is "strong" but the acquired fan rotation speed exceeds 1245 RPM, the relationship between the air volume setting value and the fan rotation speed in the model characteristic storage unit 21B is deviated. (It means that the limit value of the rotation speed is exceeded). In such a case, the state determination section 11B determines that the vehicle has deviated. It should be noted that the threshold for determining the degree of deviation is determined as appropriate depending on the model. A value that is 5% smaller than the fan rotation speed (limit value) stored as a threshold may be set as a threshold and used for determination. In such a case, the static pressure (ventilation resistance) is considered to be high. Specifically, the filter is clogged, and oil and fat adhere to the exhaust duct, causing the shutter to remain closed. The cause is considered to be that a large amount of oil and fat adheres to the passage through which the air flows.

Thus, by determining whether or not the ventilation resistance is increasing based on the set air volume and the rotation speed of the fan 51, it is possible to provide the range hood 100B that detects the correct maintenance timing. In addition, accurate determination can be made by directly detecting the air volume setting value and the fan rotation speed during operation instead of using a substitute value such as the cumulative number of times of operation.

<Modified example of the second embodiment>
The cooker hood 100C in this embodiment will be described with reference to FIG. Similarly, in order to avoid duplication of description, the same constituent elements are denoted by the same reference numerals, their explanations are omitted, and the points of difference will be mainly described. The range hood 100C includes a fan 50, an operation unit 40, a control unit 10C, a notification unit 30A, a storage unit 20C having a model characteristics storage unit 21C and an identification information storage unit 22, and a communication unit 60. The control unit 10C includes a motor power detection unit 12, an air volume setting value detection unit 14, and a state determination unit 11C, but does not have the fan rotation speed detection unit 13 that is provided in the above embodiment.

The model characteristic storage unit 21C associates and stores the relationship between the set value of the air volume and the power consumption of the motor 52 as the characteristic of the model that differs for each model of the cooker hood 100C. Using FIG. 7 as an example, when the set air volume value is "strong", the static pressure is 150 Pa, the power consumption is 53.6 kWh, the air volume is 250 m ³ /h, and a satisfactory air volume is produced. (Here, it is assumed that a satisfactory air volume for design is 250 m ³ /h.) Therefore, the power consumption of 53.6 kWh at this time is stored as a limit value in association with the air volume set value “strong”. . Although the explanation is omitted, the power consumption at which a sufficient air volume cannot be generated even when the setting is "weak" is stored as a limit value in association with the set value of the air volume.

The state determination unit 11C determines whether the state information indicating the relationship between the air volume setting value detected by the air volume setting value detection unit 14 and the power consumption of the motor 52 detected by the motor power detection unit 12 is stored in the model characteristic storage unit 21C. It is determined whether or not the characteristic deviates by a predetermined threshold or more. The state determination unit 11C determines the air volume setting value detected by the air volume setting value detection unit 14 and the power consumption of the motor 52 detected by the motor power detection unit 12 as information on the state of the range hood 100C at that time during normal operation. get. The state determination unit 11C compares the acquired relationship between the air volume setting value and the power consumption with the relationship between the air volume setting value and the power consumption of the model stored in advance in the model characteristic storage unit 21C.

For example, if the acquired air volume setting value is "strong" but the acquired power consumption is less than 53.6 kWh, the relationship between the air volume setting value and the power consumption in the model characteristics storage unit 21C is deviated. (This means that the limit value is exceeded). In such a case, the state determination section 11C determines that the vehicle has deviated. It should be noted that the threshold for determining the degree of deviation is determined as appropriate depending on the model. A value that is 5% larger than the power consumption (limit value) of the motor 52 stored as a threshold may be set as a threshold and used for determination. In such a case, the static pressure (ventilation resistance) is considered to be high. Specifically, the filter is clogged, and oil and fat adhere to the exhaust duct, causing the shutter to remain closed. The cause is considered to be that a large amount of oil and fat adheres to the passage through which the air flows.

Thus, by determining whether or not the ventilation resistance is increasing based on the set air volume and the power consumption of the motor 52, it is possible to provide the range hood C that detects the correct maintenance timing. In addition, accurate determination can be made by directly detecting the air volume setting value and power consumption during operation instead of using a substitute value such as the cumulative number of operations.

<Third embodiment>
A range hood system 1 including a range hood 100D in this embodiment will be described with reference to FIG. Similarly, in order to avoid duplication of description, the same constituent elements are denoted by the same reference numerals, their explanations are omitted, and the points of difference will be mainly described. The range hood system 1 includes a range hood 100D and a server 70 connected to the range hood 100D via a network.

Range hood 100D includes blower 50, operation unit 40, control unit 10D, storage unit 20D having identification information storage unit 22, and communication unit 60D. Storage unit 20D has only identification information storage unit 22 that stores the identification number of cooker hood 100D itself. The communication unit 60D has a function of connecting with the server 70 (server communication unit 60D') via an external network. The external network may be a public line such as a telephone line, or a dedicated line. Also, the external network is preferably a network that can be connected to the Internet. The control unit 10</b>D includes an air volume setting value detection unit 14 and a fan speed detection unit 13 . The control unit 10D does not include the state determination unit 11 that was in the above embodiment.

The server 70 includes a server communication section 60D' that communicates with the communication section 60D of the range hood 100D, a state determination section 11D, a model characteristic storage section 21D, and a notification section 30D. The server communication unit 60D' can communicate not only with one range hood 100D but also with a plurality of range hoods 100D, and the server 70 and the range hoods 100D are configured in a one-to-many relationship. be.

The server 70 includes a server processing unit 10D' such as a CPU and MPU, a server storage unit 20D' such as a memory device such as ROM and RAM and a storage device such as hard disk HD and DVD, and a server communication unit of a network interface connected to an external network. 60D', which are connected to each other via transmission lines such as system buses including internal buses, external buses, expansion buses, and the like. Although not shown, the server 70 may include an input device such as a keyboard and a mouse for use by a server administrator or the like, and an output device such as a display for displaying information.

A model characteristic storage unit 21D included in the server storage unit 20D' stores an identification number of each of the multiple range hoods 100D and a model characteristic corresponding to the identification number. The model characteristics storage unit 21 may have the model characteristics corresponding to the identification number by having the model characteristics for each identification number, or may have the model characteristics for each model number and the model number corresponding to the identification number. , and may have a model characteristic corresponding to the identification number. If the model number is included in the identification number, the model number can be extracted and compared with the model characteristics corresponding to the model number. may

The control unit 10D stores the air volume set value detected by the air volume set value detection unit 14, the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13, and its own identification number stored in the identification information storage unit 22, It is transmitted to the server 70 at predetermined intervals (for example, once a day). In this embodiment, the rotation speed of the fan 51 is transmitted, but the power consumption of the motor 52 may be transmitted by providing the motor power detection unit 12 . That is, the control unit 10D detects any two of the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13, the power consumption detected by the motor power detection unit 12, and the air volume setting value detected by the air volume setting value detection unit 14. Or send all state information to the server 70 . The communication unit 60D transmits its own identification number stored in the identification information storage unit 22 and the relevant state information to the server 70 according to the control unit 10D.

When the server communication unit 60D' of the server 70 receives the identification number of the range hood 100D and its state information, the server communication unit 60D' transmits them to the state determination unit 11D included in the server processing unit 10D'. The state determination unit 11D compares the received state information of the number of rotations of the fan 51 and the air volume setting value with the model characteristics corresponding to the identification number of the range hood 100D stored in the model characteristics storage unit 21D. As a result of the comparison, the state determination unit 11D determines whether the state information deviates from the corresponding model characteristics by a predetermined threshold or more.

When the state determination unit 11D determines that the state determination unit 11D deviates from a predetermined threshold value or more, the notification unit 30D notifies the mobile terminal of the user of the range hood 100D or a person other than the user (for example, the maintenance of the range hood 100D) via the network. management company, etc.). Note that the server communication unit 60D' not only communicates with the cooker hood 100D, but also has a function of notifying the user or the like through a public line or the like.

In this way, information such as model characteristics of multiple range hoods 100D is aggregated in the server 70, and the server 70 makes a determination based on the state information from the multiple range hoods 100D. can be easily centrally managed, and information from a plurality of range hoods 100D can be obtained, so that more accurate maintenance timing can be detected. Further, by performing notification from the server 70, more flexible and wide-ranging notification is possible.

<Modified example of the third embodiment>
A range hood system 1E including a range hood 100E in this embodiment will be described with reference to FIG. Similarly, in order to avoid duplication of description, the same constituent elements are denoted by the same reference numerals, their explanations are omitted, and the points of difference will be mainly described. The range hood system 1E includes a range hood 100E and a server 70E connected to the range hood 100E via a network.

The range hood 100E includes a blower 50, an operation unit 40, a control unit 10D, a storage unit 20E having an identification information storage unit 22E, and a communication unit 60D. The storage unit 20E has only an identification information storage unit 22E that stores the identification number of the range hood 100E itself and the location information of the area where the range hood 100E is installed. The identification information storage unit 22E stores position information such as address information and longitude/latitude information of the area where the self is installed, together with the self identification number. The position information may be position information obtained by providing a GPS (Global Positioning System) transmitter instead of the identification information storage unit 22E.

The server 70E includes a server communication unit 60D', a notification unit 30D, a server storage unit 20E' including a model characteristic storage unit 21D, a state determination unit 11E, a local information detection unit 71, and a weather information acquisition unit 72. and a part 10E'. The server storage unit 20E' may store position information corresponding to the identification number of each connected cooker hood 100E in addition to the model characteristic storage unit 21D.

A regional information detection unit 71 included in the server processing unit 10E' detects the regional distribution of a plurality of range hoods 100E based on the position information for each identification number stored in the server storage unit 20E'. The detection of the regional distribution by the regional information detection unit 71 may be performed, for example, as the number of cases per administrative district, or may be detected by mapping each range hood 100E on a map.

The control unit 10D stores state information such as the air volume setting value detected by the air volume setting value detection unit 14 and the rotation speed of the fan 51 detected by the fan rotation speed detection unit 13, and its own identification number stored in the identification information storage unit 22E. and location information are transmitted to the server 70E at predetermined intervals (for example, once a day). According to the control unit 10D, the communication unit 60D transmits, to the server 70E, its own identification number and the identification information of the location information stored in the identification information storage unit 22E, and the state information.

When the server communication unit 60D' of the server 70E receives the identification number and position information of the range hood 100E and its state information, the information is stored in the local information detection unit 71 and/or the server storage unit 20E', and the server processing unit 10E ' is transmitted to the state determination unit 11E included in '. The state determination unit 11E compares the received state information of the rotation speed and the air volume setting value of the fan 51 with the model characteristics corresponding to the identification number of the range hood 100E stored in the model characteristics storage unit 21D. Then, as a result of the comparison, the state determination unit 11E determines whether or not the state information deviates from the corresponding model characteristics by a predetermined threshold or more. The state determination unit 11E determines that there is deviation when the state information deviates from the corresponding model characteristic by a predetermined threshold value or more.

There may be a regional spread of range hoods 100E determined by the state determination unit 11E to deviate by a predetermined threshold value or more. For example, if the wind is strong due to bad weather, the static pressure against the range hood 100E will be higher depending on the direction of the exhaust port of the exhaust duct. may become indistinguishable from Normally, it is difficult to imagine that clogging causes high static pressure to exist in a regional area. It is considered inappropriate to determine that it deviates.

Therefore, when the regional information detection unit 71 detects that the range hood 100E, which is determined by the state determination unit 11E to deviate from a predetermined threshold value or more, exists in a regional spread, the state determination unit 11E determines is not performed for a predetermined period of time, determination is not performed until the regional spread is resolved, the predetermined threshold is increased, or the predetermined threshold is increased only for a predetermined period of time. Note that the term "regional spread" refers to a spread beyond one administrative district, or a state in which a large number of cooker hoods 100E in such a state are distributed within a predetermined area.

When the state determination unit 11E determines that the state determination unit 11E deviates from the predetermined threshold value or more, the notification unit 30D sends the mobile terminal of the determined range hood 100E user or a person other than the user via the network. Notify. When the regional information detection unit 71 detects that the range hood 100E, which is determined to deviate from the predetermined threshold value or more, exists in a regional spread, the state determination unit 11E avoids such determination, so the notification unit 30D does not notify. In this way, it is possible to obtain status information from a plurality of range hoods 100E together with regional position information. By avoiding it, the user can be notified of correct maintenance information.

Moreover, the server 70E further includes a weather information acquisition unit 72 that acquires weather information via the Internet. The weather information may be information about the weather for each region that is generally open to the public on the Internet. Such weather information includes information such as wind direction and strength. It is preferable that the state determination unit 11E changes the predetermined threshold based on the weather information acquired by the weather information acquisition unit 72 . For example, when there is a windy area, the state determination unit 11E changes only the predetermined threshold value of the range hood 100E in the area to prevent unnecessary notification from the range hood 100E in the area. and is appropriately notified from range hoods 100E in other areas. In this way, the server 70E intensively collects weather information and makes judgments based on the information. Therefore, even when airflow resistance increases due to strong winds, it is possible to make a comprehensive judgment and prevent false alarms. avoid and inform correct maintenance information.

It should be noted that the present invention is not limited to the exemplified embodiments, and can be implemented with a configuration that does not deviate from the content described in each item of the claims. That is, although the present invention has been particularly illustrated and described primarily with respect to particular embodiments, there may be modifications, quantities, Various modifications can be made to other detailed configurations by those skilled in the art.

For example, in the above embodiments, the fan was described as a sirocco fan, but it may be an axial fan. When the fan is a sirocco fan, the number of rotations increases when the static pressure increases due to clogging or the like, and when the number of rotations exceeds the number of rotations of the fan stored in the model characteristic storage unit, the state determination unit determines that the fan has deviated. On the other hand, if the fan is an axial fan, the number of revolutions will decrease if the static pressure increases due to clogging, etc. If the number of revolutions of the fan becomes smaller than the memorized number, the state judging unit will determine that the fan has deviated. . Therefore, it is assumed that the state determination unit has an appropriate determination method depending on the type of fan.

1 range hood system 100 range hood 10 control unit 11 state determination unit 12 motor power detection unit 13 fan rotation speed detection unit 14 air volume setting value detection unit 20 storage unit 21 model characteristic storage unit 22 identification information storage unit 30 notification unit 40 operation unit 41 Start/stop switch 42 Air volume setting switch 50 Blower 51 Fan 52 Motor 60 Communication unit 70 Server 71 Local information detection unit 72 Weather information acquisition unit

Claims (8)

A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
a motor power detection unit that detects power consumption of the motor;
a fan rotation speed detection unit that detects the rotation speed of the fan;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the number of revolutions of the fan and the power consumption of the motor;
The state information indicating the relationship between the power consumption detected by the motor power detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. has a state determination unit that determines whether or not
The server is
A regional information detection unit that stores position information corresponding to the identification number of each range hood and detects regional distribution ,
When the regional information detection unit detects that the range hoods determined by the state determination unit to deviate from a predetermined threshold or more exist in a regional spread, the state determination unit performs a predetermined determination A range hood system characterized in that it is not performed for a certain period of time or that a predetermined threshold value is increased.

A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
an air volume set value detection unit that detects a set value of air volume per unit time of flowing air;
a fan rotation speed detection unit that detects the rotation speed of the fan;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the set value of the air volume per unit time and the rotation speed of the fan;
The state information indicating the relationship between the set value detected by the air volume set value detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. It has a state determination unit that determines whether or not
The server is
A regional information detection unit that stores position information corresponding to the identification number of each range hood and detects regional distribution,
When the regional information detection unit detects that the range hoods determined by the state determination unit to deviate from a predetermined threshold or more exist in a regional spread, the state determination unit performs a predetermined determination A range hood system characterized in that it is not performed for a certain period of time or that a predetermined threshold value is increased .
A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
an air volume set value detection unit that detects a set value of air volume per unit time of flowing air;
a motor power detection unit that detects power consumption of the motor;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the set value of the air volume per unit time and the power consumption of the motor;
The state information indicating the relationship between the set value detected by the air volume set value detection unit and the power consumption detected by the motor power detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. has a state determination unit that determines whether or not
The server is
A regional information detection unit that stores position information corresponding to the identification number of each range hood and detects regional distribution,
When the regional information detection unit detects that the range hoods determined by the state determination unit to deviate from a predetermined threshold or more exist in a regional spread, the state determination unit performs a predetermined determination A range hood system characterized in that it is not performed for a certain period of time or that a predetermined threshold value is increased .
The server further comprises a weather information acquisition unit that acquires weather information via the Internet,
The range hood system according to any one of claims 1 to 3, wherein the state determination unit changes the predetermined threshold based on the weather information acquired by the weather information acquisition unit.
A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
a motor power detection unit that detects power consumption of the motor;
a fan rotation speed detection unit that detects the rotation speed of the fan;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the number of revolutions of the fan and the power consumption of the motor;
The state information indicating the relationship between the power consumption detected by the motor power detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. has a state determination unit that determines whether or not
The server is
further comprising a weather information acquisition unit that acquires weather information via the Internet,
The range hood system, wherein the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit.
A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
an air volume set value detection unit that detects a set value of air volume per unit time of flowing air;
a fan rotation speed detection unit that detects the rotation speed of the fan;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the set value of the air volume per unit time and the rotation speed of the fan;
The state information indicating the relationship between the set value detected by the air volume set value detection unit and the rotation speed detected by the fan rotation speed detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. It has a state determination unit that determines whether or not
The server is
further comprising a weather information acquisition unit that acquires weather information via the Internet,
The range hood system , wherein the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit .
A range hood system comprising a range hood and a server,
The range hood is
a fan for generating airflow;
a motor that rotationally drives the fan;
an air volume set value detection unit that detects a set value of air volume per unit time of flowing air;
a motor power detection unit that detects power consumption of the motor;
Having an identification information storage unit that stores its own identification number,
The communication unit transmits the identification number stored in the identification information storage unit to the server,
The range hood or the server is
a model characteristic storage unit that stores a model characteristic indicating the relationship between the set value of the air volume per unit time and the power consumption of the motor;
The state information indicating the relationship between the set value detected by the air volume set value detection unit and the power consumption detected by the motor power detection unit deviates from the model characteristics stored in the model characteristics storage unit by a predetermined threshold or more. has a state determination unit that determines whether or not
The server is
further comprising a weather information acquisition unit that acquires weather information via the Internet,
The range hood system, wherein the state determination unit changes a predetermined threshold based on the weather information acquired by the weather information acquisition unit .
The server includes a notification unit that notifies status confirmation,
The notification unit notifies the portable terminal of the user of the cooker hood and/or a person other than the user when the state determination unit determines that the state information deviates from a predetermined threshold value or more. The range hood system according to any one of claims 1 to 7, characterized in that the

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