JP7403091B2 - Ventilation equipment and ventilation systems - Google Patents

Description

The present invention relates to a ventilation device and a ventilation system, and more particularly to a ventilation device used for indoor ventilation, and a ventilation system equipped with the same.

Patent Document 1 describes a range hood (ventilation device) installed above a cooking device. The range hood described in Patent Document 1 includes a fan unit, a frame unit, a current plate, and a communication module.

The frame unit is connected to the fan unit. The current plate is provided below the frame unit.

The frame unit has a metal mounting section on which the communication module is mounted. The mounting portion has a box shape, and has an opening on the top surface, for example.

The communication module includes a transmitter/receiver case and a transmitter/receiver. The transmitter/receiver case includes a case part and a cover part. The case part covers the transmitter/receiver part. The cover portion is made of resin or glass, for example. The communication module is inserted into the mounting section through the opening of the mounting section. In the communication module, the cover part of the transmitting/receiving part case is fixed to the top surface of the mounting part so as to close the opening of the mounting part.

JP 2018-54282 Publication

In the field of ventilation equipment, there has been a desire to improve communication performance.

An object of the present disclosure is to provide a ventilation device and a ventilation system that can improve communication performance.

A ventilation device according to one aspect of the present disclosure includes a main body case, a fan, a wireless communication section, and a control section. The main body case is made of metal. The main body case has an intake port and an exhaust port. The fan is arranged within the main body case. The wireless communication unit has an antenna and performs wireless communication using radio waves of a predetermined wavelength as a medium. The control section is connected to the wireless communication section. The control section controls the fan according to a signal received by the wireless communication section. The main body case includes an intake section and an exhaust section. The air intake section has a box shape including a lower surface, an upper surface, a front surface that connects the front edge of the lower surface and the front edge of the upper surface, and has the air intake port. The exhaust section is located on the upper surface of the intake section and has the exhaust port. The intake section further includes a first opening and a second opening. The first opening is located on the upper surface and overlaps at least a portion of the wireless communication section in the vertical direction. The second opening is located on the front surface and overlaps at least a portion of the wireless communication section in the front-rear direction. The wireless communication unit further includes a resin module case housing a wireless communication module including a printed circuit board, the antenna, and an RFIC.

A ventilation system according to one aspect of the present disclosure includes the ventilation device and equipment. The device performs wireless communication with the wireless communication unit of the ventilation device.

The ventilation device and ventilation system of the present disclosure can improve communication performance.

FIG. 1A is a perspective view from above of the ventilation device according to the embodiment. FIG. 1B is a transparent perspective view of a wireless communication unit in the ventilation device. FIG. 2 is a perspective view for explaining an installation example of the ventilation device same as above. FIG. 3 is a perspective view of a wireless communication section in the ventilation device same as above. FIG. 4 is a block diagram of the ventilation device same as above. FIG. 5 is a configuration diagram of a ventilation system including the same ventilation device. FIG. 6A is a characteristic diagram of the wireless communication unit in the above ventilator in the XY direction. FIG. 6B is a characteristic diagram in the YZ direction of the wireless communication unit in the ventilation device. FIG. 6C is a characteristic diagram in the XZ direction of the wireless communication unit in the ventilation device. FIG. 7A is a perspective view from above of a ventilation device according to a comparative example. FIG. 7B is a transparent perspective view of a wireless communication unit in the ventilation device. FIG. 8A is a characteristic diagram in the XY direction of the wireless communication unit in the ventilation device. FIG. 8B is a characteristic diagram in the YZ direction of the wireless communication unit in the ventilation device. FIG. 8C is a characteristic diagram in the XZ direction of the wireless communication unit in the ventilation device. FIG. 9A is a perspective view for explaining an installation example of a ventilation device according to Modification 1 of the embodiment. FIG. 9B is a perspective view for explaining an installation example of the ventilation device same as above.

1A, 1B, 2, 3, 7A, 7B, 9A, and 9B described in the following embodiments, etc. are schematic diagrams, and the sizes and thickness ratios of each component in the diagrams are not necessarily the same. It does not necessarily reflect the actual size ratio.

(Embodiment)
Hereinafter, a ventilation device 1 and a ventilation system 100 including the same according to an embodiment will be described based on FIGS. 1A to 5.

(1) Overview The ventilation device 1 according to the embodiment is, for example, a range hood placed above a cooking device 210, as shown in FIG. FIG. 2 shows an example in which the ventilation system 1 is placed above a cooking device 210 in a kitchen 209 of a house 200. The house 200 is, for example, a two-story detached house, but is not limited thereto, and may be, for example, a one-story or three-story detached house, or a residential unit of an apartment complex. The cooker 210 is, for example, an electromagnetic cooker, but is not limited thereto, and may be, for example, a gas stove. If the house 200 is a two-story or three-story detached house, the cooker 210 is placed in the kitchen on the first floor of the house 200, for example.

The ventilation system 1 is not limited to cases where it is installed in buildings (single-family houses, apartment complexes, commercial facilities, stores, factories, amusement facilities, theme parks, airports, railway stations, dome stadiums, hotels, etc.), but also in cases where it is installed in trains, ships, etc. It may be provided on a moving body such as the following. The ventilation device 1 ventilates the room by exhausting indoor air to the outside.

As shown in FIGS. 1A and 4, the ventilation device 1 includes a main body case 2, a fan 5, a wireless communication section 7, and a control section 8. The main body case 2 is made of metal. The main body case 2 has an intake port 21 (see FIG. 2) and an exhaust port 22. The fan 5 (see FIG. 4) is arranged inside the main body case 2. The wireless communication unit 7 has an antenna 71 and performs wireless communication using radio waves of a predetermined wavelength as a medium. The control section 8 (see FIG. 4) is connected to the wireless communication section 7. The control unit 8 controls the fan 5 according to the signal received by the wireless communication unit 7.

Further, as shown in FIG. 5, the ventilation system 100 includes a ventilation device 1 and a main device 101 that is a device. Base device 101 performs wireless communication with wireless communication section 7 of ventilation device 1 . Ventilation system 100 may further include a repeater 102. In this case, the ventilation device 1 also performs wireless communication with the repeater 102. Further, the ventilation system 100 may further include an information terminal 103. In this case, the information terminal 103 performs wireless communication with the base device 101. The information terminal 103 is, for example, a mobile terminal carried by a user of the ventilation apparatus 1, and is, for example, a communication terminal such as a smartphone. Further, the information terminal 103 is not limited to a smartphone, and may be, for example, a tablet-type mobile terminal or a desktop-type computer.

(2) Details As described above, the ventilation device 1 includes the main body case 2, the fan 5, the wireless communication section 7, and the control section 8, as shown in FIGS. 1A to 4. Further, the ventilation device 1 further includes a current plate 10 (see FIG. 2). Further, the ventilation device 1 further includes a duct connection section 15. Further, the ventilation device 1 further includes a first cover 11 and a second cover 12.

The main body case 2 includes an intake section 3 and an exhaust section 4. In the main body case 2, an intake section 3 made of metal (e.g., stainless steel) and an exhaust section 4 made of metal (e.g., stainless steel), which are formed separately, are combined and integrated, but the invention is not limited to this. , the intake section 3 and the exhaust section 4 may be integrally formed without being combined.

The air intake section 3 has a box shape including a lower surface 30, an upper surface 31, a front surface 32 that connects a front edge 301 of the lower surface 30 and a front edge 311 of the upper surface 31, and has an air intake port 21. In the intake section 3, the dimension in the up-down direction D1 is smaller than the dimension in the front-back direction D2 and the dimension in the direction D3 perpendicular to the up-down direction D1 and the front-back direction D2. The intake section 3 has a flat rectangular box shape.

The intake section 3 has an intake port 21 on the lower surface 30. The opening shape of the intake port 21 is, for example, rectangular. The ventilation device 1 further includes a filter and an oil catch arranged above the intake port 21 in the intake section 3. The filter is, for example, a baffle filter, and is provided inside the main body case 2. The oil catch is arranged inside the main body case 2 and catches oil from the filter.

In the ventilation device 1, a current plate 10 is arranged below the main body case 2. The current plate 10 is made of metal (for example, stainless steel). The current plate 10 has a rectangular plate shape and is separated from the lower surface 30 of the air intake section 3 and the air intake port 21 in the vertical direction D1. The current plate 10 is supported by the main body case 2. When viewed from below the ventilation device 1, the current plate 10 is smaller than the air intake section 3. Here, the current plate 10 is located inside the outer peripheral edge of the air intake portion 3 and overlaps the entire area of the air intake port 21 . In the ventilation device 1, indoor air enters the intake port 21 through the gap between the main body case 2 and the rectifier plate 10. By including the rectifier plate 10, the ventilation device 1 can increase the speed at which air is sucked in, and can suppress oil and the like contained in the air from escaping.

The exhaust section 4 is located on the upper surface 31 of the intake section 3 and has an exhaust port 22 . The exhaust part 4 has a cylindrical shape (in the illustrated example, a rectangular cylindrical shape). The inner space of the exhaust section 4 is connected to the inner space of the intake section 3. Thereby, in the main body case 2, a flow path through which air flows is formed between the intake port 21 and the exhaust port 22.

The exhaust part 4 is the upper surface 31 of the intake part 3 and is separated from the front edge 311 of the upper surface 31 in the front-rear direction D2. As a result, in the ventilation device 1, the upper surface 31 of the intake section 3 has a rectangular front region 315 without the exhaust section 4 between the front edge 311 of the upper surface 31 and the plane including the front surface 42 of the exhaust section 4. . In the ventilation device 1 according to the embodiment, the distance between the front edge 311 of the upper surface 31 of the intake section 3 and the exhaust section 4 is the distance between the rear edge 312 of the upper surface 31 of the intake section 3 and the exhaust section 4 in the front-rear direction D2. longer than, but not limited to.

The fan 5 is arranged in the inner space of the exhaust section 4 of the main body case 2. The fan 5 blows air sucked in through the intake port 21 of the main body case 2 from the exhaust port 22. Fan 5 is an electric fan with a motor.

The duct connection section 15 is connected to the upper end of the exhaust section 4 . The duct connection part 15 is cylindrical. The inner space of the duct connection part 15 is connected to the inner space of the exhaust part 4. A duct 16 is connected to the duct connection portion 15 .

In the ventilation system 1, when the fan 5 starts operating, air sucked in from the intake port 21 of the intake section 3 is discharged outdoors through the exhaust section 4, the duct connection section 15, the duct 16, and the like.

The control unit 8 can operate or stop the fan 5 and change the air volume according to the content of the signal from the main device 101 received by the wireless communication unit 7 . The ventilation device 1 can change the air volume in multiple stages (here, two stages), and can operate in a normal operation mode where the air volume is relatively small and a strong operation mode where the air volume is relatively large. That is, the operation modes of the ventilation system 1 include a normal operation mode and a strong operation mode.

The control section 8 is electrically connected to the wireless communication section 7. Further, the control unit 8 is electrically connected to the motor of the fan 5. The control unit 8 controls the fan 5 according to the signal received from the base unit 101 in the wireless communication unit 7 . The ventilation device 1 includes a power supply circuit that is connected to an external power source and supplies voltage to the control unit 8.

For example, if the signal from the base unit 101 received by the wireless communication unit 7 is a signal instructing the ventilation device 1 to start operating, the control unit 8 operates the motor of the fan 5 . When the ventilation system 1 is capable of operating in a plurality of operation modes (for example, strong operation mode, medium operation mode, and weak operation mode), the control unit 8 controls the base unit 101 received by the wireless communication unit 7. If the signal from the ventilator 1 is a signal indicating a request to transmit information on the operating state of the ventilation device 1, the information on the operating state of the fan 5 is transmitted to the base unit 101 by wireless communication. Further, if the signal received from the base unit 101 by the wireless communication unit 7 is a signal instructing to stop operation of the ventilation device 1, the control unit 8 stops the motor of the fan 5.

The operation of the control unit 8 is set, for example, by the user operating the information terminal 103. The wireless communication unit included in the information terminal 103 is configured via the repeater 102, the base unit 101, and the wireless communication unit 7. In the ventilation system 100, the communication method of the wireless communication unit of the information terminal 103 is Wi-Fi (registered trademark), and the repeater 102 is a router compatible with Wi-Fi (registered trademark). The communication method between the information terminal 103 and the repeater 102 is not limited to Wi-Fi (registered trademark), but may also be a communication method compliant with Bluetooth (registered trademark) Low Energy or Ethernet (registered trademark) standards, for example. . Furthermore, the repeater 102 is not limited to a router compatible with Wi-Fi (registered trademark), as long as it is capable of wireless communication with the information terminal 103. The communication method between the repeater 102 and the base device 101 may be a wireless communication method or a wired communication method.

The control unit 8 is composed of, for example, a microcomputer having a processor and a memory. That is, the control unit 8 is realized by a computer system having a processor and a memory. The computer system functions as the control unit 8 by the processor executing an appropriate program. The program may be pre-recorded in a memory, or may be provided via a telecommunications line such as the Internet, or recorded on a non-transitory recording medium such as a memory card.

Further, the ventilation device 1 further includes an input section 13 provided on the front surface 32 of the intake section 3. The input unit 13 is operated by the user, for example, when the user manually instructs the fan 5 to operate, stop, or change the air volume. The control unit 8 is electrically connected to the input unit 13 and can operate or stop the fan 5 and change the air volume according to the output of the input unit 13. The input unit 13 also includes a display unit that displays the operating state of the ventilation device 1 (the operating state of the fan 5).

In the ventilation device 1, the intake section 3 further includes a first opening 38 and a second opening 39. The first opening 38 is located on the upper surface 31 of the air intake section 3 and overlaps at least a portion of the wireless communication section 7 in the vertical direction D1. Here, the first opening 38 is located on the upper surface 31 of the intake section 3 between the front edge 311 of the upper surface 31 and the exhaust section 4 . The second opening 39 is located on the front surface 32 of the intake section 3 and overlaps at least a portion of the wireless communication section 7 in the front-rear direction D2. The wireless communication section 7 overlaps the front region 315 of the upper surface 31 of the intake section 3 in the vertical direction D1, and the first opening 38 is located in the front region 315. Here, the wireless communication section 7, the first opening 38, and the second opening 39 are located near the front edge 311 of the upper surface 31 of the intake section 3. The wireless communication unit 7 is arranged below the first opening 38 in the up-down direction D1, and arranged behind the second opening 39 in the front-back direction D2. The wireless communication section 7 is inserted into the air intake section 3 through the first opening 38 and arranged within the air intake section 3 when the ventilator 1 is manufactured.

The wireless communication unit 7 includes a printed circuit board 70, an antenna 71, an RFIC (Radio Frequency Integrated Circuit) 72, and a matching circuit.

A matching circuit is provided between the antenna 71 and the RFIC 72. The outer peripheral shape of the printed circuit board 70 is rectangular when viewed from the thickness direction of the printed circuit board 70. The printed circuit board 70 has a first main surface (front surface) and a second main surface (back surface) that intersect in the thickness direction of the printed circuit board 70. The antenna 71 is, for example, a meander-shaped radiation conductor (conductor pattern) formed at one end in the longitudinal direction of the printed circuit board 70 on the first main surface of the printed circuit board 70 . The antenna 71 is separated from the outer periphery of the printed circuit board 70. The RFIC 72 is mounted on the first main surface of the printed circuit board 70. The matching circuit is a circuit for matching the impedance on the antenna 71 side and the impedance on the RFIC 72 side.

The wireless communication unit 7 further includes a first connector for external connection arranged on the second main surface of the printed circuit board 70. The wireless communication unit 7 further includes a module case 75 that houses a wireless communication module including a printed circuit board 70, an antenna 71, and an RFIC 72. The material of the module case 75 is resin. Note that in FIG. 3, illustration of the resist layer covering the antenna 71 on the printed circuit board 70 is omitted. In the ventilation device 1 according to the embodiment, the wireless communication unit 7 is arranged such that the first main surface of the printed circuit board 70 is on the side surface 33 side.

The wireless communication unit 7 performs wireless communication using radio waves of a predetermined wavelength as a medium. The communication method of the wireless communication unit 7 is, for example, Zigbee (registered trademark), which is a wireless communication standard. The wireless communication unit 7 uses, for example, any one channel out of 16 channels in the 2.4 GHz frequency band as the predetermined wavelength. Therefore, in the wireless communication unit 7, for example, when using the lowest center frequency of 2.405 GHz among the 16 channels, the predetermined wavelength is about 125 mm, and when using the highest center frequency of 2.48 GHz, The predetermined wavelength is approximately 120 mm. The wireless communication standard of the wireless communication unit 7 is not limited to Zigbee (registered trademark), but also Wi-Fi (registered trademark), Bluetooth (registered trademark), Bluetooth (registered trademark) Low Energy, and specified low power wireless. Good too.

As shown in FIG. 1B, the wireless communication unit 7 is arranged within the intake unit 3 such that the antenna 71 is located below the RFIC 72 in the vertical direction D1. Furthermore, the wireless communication section 7 is arranged on the right side of the input section 13 when the intake section 3 is viewed from the front side. In FIG. 1A, of the two side surfaces adjacent to the front surface 32 of the intake section 3, the side surface 33 closest to the wireless communication section 7 is illustrated.

The first opening 38 overlaps the antenna 71 in the vertical direction D1. The opening shape of the first opening 38 is a horizontally long rectangle. That is, the opening shape of the first opening 38 is a rectangular shape whose longitudinal direction is a direction D3 (hereinafter also referred to as a left-right direction D3) orthogonal to the up-down direction D1 and the front-back direction D2. The opening shape of the first opening 38 is, for example, a rectangular shape with a long side of 77.6 mm and a short side of 52.4 mm. The maximum aperture width L1 of the first aperture 38 in the left-right direction D3 is, for example, larger than 60 mm, which is 1/2 of the predetermined wavelength. As an example, the maximum opening width L1 is 77.6 mm.

The second opening 39 overlaps the antenna 71 in the front-rear direction D2. The opening shape of the second opening 39 is a horizontally long rectangle. That is, the opening shape of the second opening 39 is a rectangular shape whose longitudinal direction is the left-right direction D3. The opening shape of the second opening 39 is, for example, a rectangular shape with a long side of 100 mm and a short side of 40 mm. The maximum aperture width L2 of the second aperture 39 in the left-right direction D3 is, for example, larger than 60 mm, which is 1/2 of the predetermined wavelength. As an example, the maximum opening width L2 is 100 mm.

In the ventilation device 1, when the main body case 2 is viewed from above, the first opening 38 and the second opening 39 overlap in the front-rear direction D2. Here, a portion of the second opening 39 in the left-right direction D3 overlaps the entire length of the first opening 38 in the left-right direction.

The ventilation device 1 further includes a first cover 11 and a second cover 12.

The first cover 11 covers the first opening 38 and transmits radio waves of a predetermined wavelength. Thereby, even if the first cover 11 is present, the wireless communication unit 7 can communicate with the base device 101. The material of the first cover 11 includes resin (for example, ABS resin). The first cover 11 is attached to the main body case 2 after the wireless communication section 7 is inserted into the main body case 2 through the first opening 38 . The first cover 11 is attached to the main body case 2 with screws 17, for example. The material of the first cover 11 is not limited to resin, and may be glass.

The second cover 12 covers the second opening 39 and transmits radio waves of a predetermined wavelength. Thereby, even if the second cover 12 is present, the wireless communication unit 7 can communicate with the base device 101. The material of the second cover 12 includes resin (for example, ABS resin). The material of the second cover 12 is not limited to resin, and may be glass. Although the second cover 12 is attached to the main body case 2 from the inside of the main body case 2, the second cover 12 is not limited to this, and may be attached to the main body case 2 from the outside of the main body case 2.

(3) Communication performance of the wireless communication unit in the ventilation system Below, in order to explain the communication performance of the wireless communication unit 7 of the ventilation system 1 according to the embodiment, as an example, regarding the antenna 71 of the wireless communication unit 7, the antenna 71 in FIG. As shown in the lower left, right-handed orthogonal coordinates are defined that have three axes, the X-axis, Y-axis, and Z-axis, which are orthogonal to each other. The origin of the orthogonal coordinates is the tip of the antenna 71. In FIG. 1A, the direction opposite to the side surface 33 in the left-right direction D3 is the positive direction of the X-axis, the front direction in the front-back direction D2 is the positive direction of the Y-axis, and the upward direction in the vertical direction D1 is the positive direction of the Z-axis. This is in a positive direction. The X-axis, Y-axis, and Z-axis are all virtual axes, and the arrows indicating "X,""Y," and "Z" in FIG. 1A are only shown for explanation. None of them involve substance. Additionally, the positive direction (+Z direction) of the Z axis corresponds to the upward direction when the ventilation device 1 is installed, and the negative direction (−Z direction) of the Z axis corresponds to the downward direction when the ventilation device 1 is installed. . Regarding the positive direction of the X-axis (+X direction), the negative direction of the X-axis (-X direction), the positive direction of the Y-axis (+Y direction), and the negative direction of the Y-axis (-Y direction), when installing the ventilation system 1. It is not intended to limit the direction of

Below, before explaining the communication performance of the wireless communication unit 7 of the ventilation apparatus 1 according to the embodiment with reference to FIGS. 6A to 6C, a ventilation apparatus 1r according to a comparative example will be explained based on FIG. 7. Regarding the ventilation device 1r according to the comparative example, the same components as those in the ventilation device 1 according to the embodiment are given the same reference numerals, and the description thereof will be omitted as appropriate.

The ventilation device 1r according to the comparative example differs from the ventilation device 1 according to the embodiment in that it does not include the second opening 39 and the second cover 12 of the ventilation device 1 according to the embodiment. The configuration of the wireless communication unit 7 of the ventilation device 1r according to the comparative example is the same as that of the ventilation device 1 according to the embodiment. In order to explain the communication performance of the wireless communication unit 7 of the ventilation apparatus 1r according to the comparative example, the same orthogonal coordinates as the orthogonal coordinates at the lower left of FIG. 1A are also shown at the lower left of FIG. 7A. 8A to 8C show the communication performance of the wireless communication unit 7 of the ventilation apparatus 1r according to the comparative example.

Each of FIGS. 6A and 8A shows communication characteristics (directivity) in a plane including the X-axis and the Y-axis. Moreover, each of FIGS. 6B and 8B shows communication characteristics (directivity) in a plane including the Y-axis and the Z-axis. Each of FIGS. 6C and 8C shows communication characteristics (directivity) in a plane including the X-axis and the Z-axis. In each of FIGS. 6A to 6C and 8A to 8C, the thick solid lines indicate the characteristics of vertical polarization, and the broken lines indicate the characteristics of horizontal polarization.

Table 1 below summarizes the antenna gains in each direction and the corresponding true values in each of FIGS. 6A to 6C and 8A to 8C. In Table 1 below, the ratio is the true value corresponding to the antenna gain of the wireless communication unit 7 in the ventilation device 1 according to the embodiment to the true value corresponding to the antenna gain of the wireless communication unit 7 in the ventilation device 1 r according to the comparative example. This is the value divided by .

From Table 1, the true value of the antenna gain in the +X direction of the wireless communication unit 7 of the ventilation apparatus 1 according to the embodiment is 1.6 times that of the wireless communication unit 7 of the ventilation apparatus 1r according to the comparative example, and - It can be seen that the true value of the antenna gain in the X direction is 2.4 times, and it is possible to improve the communication performance in both the +X direction and the -X direction.

Furthermore, from Table 1, the true value of the antenna gain in the +Y direction of the wireless communication unit 7 of the ventilation device 1 according to the embodiment is 2.4 times that of the wireless communication unit 7 of the ventilation device 1r according to the comparative example. , the true value of the antenna gain in the -Y direction is 1.1 times, which indicates that the communication performance in both the +Y direction and the -Y direction can be improved.

Furthermore, from Table 1, the true value of the antenna gain in the +Z direction of the wireless communication unit 7 of the ventilation device 1 according to the embodiment is 2.2 times that of the wireless communication unit 7 of the ventilation device 1r according to the comparative example. , the true value of the antenna gain in the −Z direction is 1.5 times, which indicates that the communication performance in both the +Z direction and the −Z direction can be improved.

(4) Advantages In the ventilation device 1 according to the embodiment, the intake section 3 has the first opening 38 and the second opening 39. The first opening 38 is located on the upper surface 31 of the air intake section 3 and overlaps at least a portion of the wireless communication section 7 in the vertical direction D1. The second opening 39 is located on the front surface 32 of the intake section 3 and overlaps at least a portion of the wireless communication section 7 in the front-rear direction D2. Therefore, the ventilation device 1 according to the embodiment can improve communication performance.

Here, in the ventilation device 1 according to the embodiment and the ventilation system 100 including the same, it is possible to improve the communication performance by improving the antenna gain in any of the up-down direction D1, the front-back direction D2, and the left-right direction D3. As a result, in the ventilation device 1 and the ventilation system 100 including the ventilation device 1 according to the embodiment, the degree of freedom in the arrangement of the ventilation device 1 and the main unit 101 is increased, and the usability is also improved.

Further, in the ventilation device 1 according to the embodiment, the first opening 38 is located between the front edge 311 of the upper surface 31 and the exhaust section 4 on the upper surface 31, so that the communication environment of the wireless communication section 7 is different from that of the exhaust section 4. This makes it less susceptible to the effects and improves communication performance.

(5) Modification of the embodiment FIGS. 9A and 9B show a ventilation device 1a according to a modification of the embodiment. Regarding the ventilation device 1a, the same components as those of the ventilation device 1 according to the embodiment are given the same reference numerals, and the description thereof will be omitted as appropriate.

The ventilation device 1a according to the modification differs from the ventilation device 1 according to the embodiment in that the length of the exhaust part 4 in the vertical direction D1 is shorter than that of the ventilation device 1 according to the embodiment.

In the ventilation device 1a according to the modification, for example, a part of the exhaust section 4 is arranged in the internal space of the storage box 205 of the house 200. The storage box 205 has an opening 251 on the front. The opening 251 of the storage box 205 can be opened and closed by a door 206 attached to the storage box 205 by two hinges 208. The door 206 is movable between a first position in which the opening 251 of the storage box 205 is opened and a second position in which the opening 251 is closed.

In the ventilation device 1a according to the first modification, the intake section 3 includes a first opening 38 (see FIG. 1A) and a second opening 39, similar to the ventilation device 1 according to the embodiment. Therefore, the ventilation device 1a according to the first modification can improve the communication performance similarly to the ventilation device 1 according to the embodiment.

(6) Other Modifications This embodiment is just one of various embodiments of the present disclosure. The embodiments can be modified in various ways depending on the design, etc., as long as the objective of the present disclosure can be achieved.

For example, the ventilation device 1 may be placed in a suspended state from the ceiling of the house 200.

In the ventilation device 1, the main body case 2 may be subjected to an appropriate surface treatment. Examples of the surface treatment include painting, plating, alumite treatment, and coating.

The first opening 38 only needs to overlap at least a portion of the wireless communication section 7 in the vertical direction D1, but from the viewpoint of further improving communication performance, it is preferable that the first opening 38 overlap the entire portion. The second opening 39 only needs to overlap at least a portion of the wireless communication section 7 in the front-rear direction D2, but from the viewpoint of further improving communication performance, it is preferable that the second opening 39 overlap the entire portion.

In the ventilation device 1, the control unit 8 may control the fan 5 based on the output of the sensor. Examples of the sensor include a smoke sensor that detects smoke, a heat sensor that detects heat, an air quality sensor that detects at least one of temperature, humidity, and CO ₂ concentration, and a sensor that detects the state of cooking device 210. be. The ventilation device 1 may or may not be equipped with the sensor.

Further, in the ventilation device 1, the fan 5 is arranged in the inner space of the exhaust part 4, but the fan 5 is not limited to this, and may be arranged in the main body case 2. For example, the fan 5 can be arranged in the inner space of the intake part 3. may have been done.

Further, in the ventilation system 100 according to the embodiment, the information terminal 103 is not a component of the ventilation system 100, but may be included in the ventilation system 100 as a component of the ventilation system 100. In this case, if the information terminal 103 performs wireless communication with the wireless communication unit 7 of the ventilation apparatus 1 without going through the repeater 102 and the base unit 101, the usability will be improved.

Further, in the ventilation system 100 according to the embodiment, the repeater 102 is not a component of the ventilation system 100, but may be included in the ventilation system 100 as a component of the ventilation system 100.

(mode)
The following aspects are disclosed herein.

The ventilation device (1; 1a) according to the first aspect includes a main body case (2), a fan (5), a wireless communication section (7), and a control section (8). The main body case (2) is made of metal. The main body case (2) has an intake port (21) and an exhaust port (22). The fan (5) is arranged inside the main body case (2). The wireless communication unit (7) has an antenna (71) and performs wireless communication using radio waves of a predetermined wavelength as a medium. The control section (8) is connected to the wireless communication section (7). The control section (8) controls the fan (5) according to the signal received by the wireless communication section (7). The main body case (2) includes an intake section (3) and an exhaust section (4). The intake part (3) has a lower surface (30), an upper surface (31), and a front surface (32) connecting the front edge (301) of the lower surface (30) and the front edge (311) of the upper surface (31); It is box-shaped and has an intake port (21) on the lower surface (30). The exhaust section (4) is located on the upper surface (31) of the intake section (3) and has an exhaust port (22). The intake section (3) further includes a first opening (38) and a second opening (39). The first opening (38) is located on the top surface (31) and overlaps at least a portion of the wireless communication section (7) in the vertical direction (D1). The second opening (39) is located on the front surface (32) and overlaps at least a portion of the wireless communication section (7) in the front-rear direction (D2).

In the ventilation device (1; 1a) according to the first aspect, communication performance can be improved.

In the ventilation device (1; 1a) according to the second aspect, in the first aspect, when the main body case (2) is viewed from above, the first opening (38) and the second opening are arranged in the front-rear direction (D2). (39) overlaps.

In the ventilation device (1; 1a) according to the second aspect, communication performance can be improved.

In the ventilation device (1; 1a) according to the third aspect, in the first or second aspect, the first opening (38) overlaps the antenna (71) in the vertical direction (D1).

In the ventilation device (1; 1a) according to the third aspect, communication performance can be improved.

In the ventilation device (1; 1a) according to the fourth aspect, in any one of the first to third aspects, the second opening (39) overlaps the antenna (71) in the front-back direction (D2). .

In the ventilation device (1; 1a) according to the fourth aspect, communication performance can be improved.

The ventilation device (1; 1a) according to the fifth aspect, in any one of the first to fourth aspects, further includes a first cover (11) and a second cover (12). The first cover (11) covers the first opening (38) and transmits radio waves. The second cover (12) covers the second opening (39) and transmits radio waves.

In the ventilation device (1; 1a) according to the fifth aspect, the wireless communication section (7) can be protected.

In the ventilation device (1; 1a) according to the sixth aspect, in the fifth aspect, the material of the first cover (11) contains resin.

In the ventilation device (1; 1a) according to the seventh aspect, in the fifth or sixth aspect, the material of the second cover (12) contains resin.

In the ventilation device (1; 1a) according to the eighth aspect, in any one of the first to seventh aspects, the first The maximum aperture width (L1) of the aperture (38) is larger than 1/2 of the predetermined wavelength.

In the ventilation device (1; 1a) according to the eighth aspect, communication performance can be improved.

In the ventilation device (1; 1a) according to the ninth aspect, in any one of the first to eighth aspects, the second The maximum aperture width (L2) of the aperture (39) is larger than 1/2 of the predetermined wavelength.

In the ventilation device (1; 1a) according to the ninth aspect, communication performance can be improved.

In the ventilation device (1; 1a) according to the tenth aspect, in any one of the first to ninth aspects, the opening shape of the first opening (38) is rectangular.

In the ventilation device (1; 1a) according to the tenth aspect, the opening area of the first opening (38) can be increased, and communication performance can be improved.

In the ventilation device (1; 1a) according to the eleventh aspect, in any one of the first to tenth aspects, the opening shape of the second opening (39) is rectangular.

In the ventilation device (1; 1a) according to the eleventh aspect, the opening area of the second opening (39) can be increased, and communication performance can be improved.

A ventilation system (100) according to the twelfth aspect includes the ventilation device (1; 1a) according to any one of the first to eleventh aspects and a device (base unit 101). The device (master unit 101) performs wireless communication with the wireless communication unit (7) of the ventilation device (1; 1a).

In the ventilation system (100) according to the twelfth aspect, wireless communication is possible and communication performance can be improved.

1, 1a Ventilation device 2 Main body case 21 Intake port 22 Exhaust port 3 Intake section 30 Bottom surface 301 Front edge 31 Top surface 311 Front edge 32 Front surface 38 First opening 39 Second opening 4 Exhaust section 5 Fan 7 Wireless communication section 71 Antenna 8 Control Part 11 First cover 12 Second cover 100 Ventilation system 101 Main unit (equipment)
D1 Vertical direction D2 Front-back direction D3 Direction L1 Maximum opening width L2 Maximum opening width

Claims (12)

A metal main body case having an intake port and an exhaust port,
a fan disposed within the main body case;
a wireless communication unit having an antenna and performing wireless communication using radio waves of a predetermined wavelength as a medium;
a control unit that is connected to the wireless communication unit and controls the fan according to a signal received in the wireless communication unit,
The main body case is
a box-shaped intake part having a lower surface, an upper surface, and a front surface connecting the front edge of the lower surface and the front edge of the upper surface, and having the intake port;
an exhaust section located on the upper surface of the intake section and having the exhaust port,
The intake part is
a first opening located on the top surface and overlapping at least a portion of the wireless communication unit in the vertical direction;
a second opening located on the front surface and overlapping at least a portion of the wireless communication unit in the front-rear direction ;
The wireless communication unit further includes a resin module case housing a wireless communication module including a printed circuit board, the antenna, and an RFIC.
Ventilation equipment. When the main body case is viewed from above, the first opening and the second opening overlap in the front-rear direction;
A ventilator according to claim 1. the first opening overlaps the antenna in the vertical direction;
The ventilation device according to claim 1 or 2. the second opening overlaps the antenna in the front-rear direction;
Ventilation device according to any one of claims 1 to 3. a first cover that covers the first opening and transmits the radio waves;
further comprising a second cover that covers the second opening and transmits the radio waves;
Ventilation device according to any one of claims 1 to 4. The material of the first cover includes resin.
The ventilation device according to claim 5. The material of the second cover includes resin.
The ventilation device according to claim 5 or 6. The maximum opening width of the first opening in a direction orthogonal to the up-down direction and the front-back direction is larger than 1/2 of the predetermined wavelength.
Ventilation device according to any one of claims 1 to 7. The maximum opening width of the second opening in a direction perpendicular to the up-down direction and the front-back direction is larger than 1/2 of the predetermined wavelength.
Ventilation device according to any one of claims 1 to 8. The opening shape of the first opening is rectangular.
Ventilation device according to any one of claims 1 to 9. The opening shape of the second opening is rectangular.
Ventilation device according to any one of claims 1 to 10. A ventilation device according to any one of claims 1 to 11,
a device that performs wireless communication with the wireless communication unit of the ventilation device;
ventilation system.

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