JP2017066987A - Blower - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent vibrations caused by an electric motor and a fan from being directly transmitted to an electric contact of a power source connection plug.SOLUTION: A blower includes: a casing part 11 having an electric motor 112 and a fan 113 which is rotated by the electric motor 112; a support member 12 which supports the casing part 11; an attachment plug 14 which fixes the support member 12 to a lighting duct 3; a power source connection plug 15 having an electric contact 154 which is electrically connected with an electrode 32 of the lighting duct 3 and formed separately from the attachment plug 14; and a power cord (a power input cord 16 and a power output cord 17) which connects the electric motor 112 with the electric contact 154.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a blower installed on a ceiling or a wall.

  As a conventional blower installed on a ceiling or a wall, for example, a blower disclosed in Patent Document 1 is known. The blower device includes a blower that blows wind by rotating a fan by a motor, and a support unit that can support the blower at a desired position of the lighting duct. With this support unit, the direction and angle of the wind blown from the blower can be manually adjusted. The support unit has a socket that can be detachably attached to the lighting duct. The socket can be electrically connected to the power supply conductive portion of the lighting duct, and the base of the blower can be detachably mounted. Then, with the support unit attached to the desired position of the lighting duct and with the base of the blower mounted on the socket, the power supplied via the power supply conductive portion is supplied from the socket to the base of the blower, and the motor is Drive to rotate the impeller. Thereby, wind can be blown in a desired direction.

  Japanese Patent Application Laid-Open No. H10-228561 describes that vibrations generated while the impeller is rotated by driving a motor of a blower by providing vibration absorbing means as a part of the support unit.

  Moreover, in the above air blowers, the installation position of the apparatus or the wiring for obtaining the power supply and the operation part for performing the on / off operation of the power supply of the apparatus are at a high place, which is difficult. Therefore, for example, a blower as disclosed in Patent Document 2 is also known. This blower is configured to receive attachment and power supply using a square hooking outlet used for illumination. Further, the temperature inside the room is sensed by an electrical signal from a temperature sensor provided in the blower, and the operation is performed only when necessary.

Utility Model Registration No. 3172900 JP-A-10-281514

  As described above, the blower disclosed in Patent Document 1 describes a structure that absorbs vibration by vibration absorbing means. However, the vibration absorbing means has not reached the point of insulating the vibration, and its structure is not specifically shown. Therefore, when the vibration of the fan, which is a rotating body, is directly transmitted to the conductive part for power supply, or due to a mechanism motion such as changing the direction of the blower or a reaction force due to movement of the center of gravity, the connecting part with the electrical contact or lighting duct Is expected to have a significant impact on Therefore, it is a product installed at a high place in consideration of manufacturing with sufficiently small initial rotational unbalance of the fan and motor, and to cope with the increase in the amount of unbalance due to dust over time. However, there was a problem that it was necessary to clean up regularly to eliminate the imbalance. In addition, there is a problem that a function such as a swing operation that generates a reaction force due to mechanism motion or center of gravity movement cannot be added. The blower disclosed in Patent Document 2 has the same problem as described above.

  Moreover, in the air blower disclosed in Patent Document 2, the mounting position is restricted by the position of the square hooking outlet, and the direction of the device cannot be changed to the optimum wind direction for generating the optimum circulating airflow. There are challenges. In addition, in the air blower disclosed by patent document 1, although the direction of a wind can be changed, the driving | operation by an automatic swing operation cannot be performed, but the functionality as an electric fan which applies an airflow to a human body and obtains a cool breeze is low. There are challenges.

  Further, neither of these documents considers the on / off control of the blower and other controls. In particular, the blower uses a power supply for illumination, but does not consider the combination of on / off control with illumination. For example, in Patent Document 1, when other electrical devices such as an illuminator connected to the lighting duct do not have a function of individually turning on and off the power, all the devices are in a state where the lighting duct is energized. However, it cannot be used to operate only the blower.

  The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a blower device that can prevent vibrations caused by an electric motor and a fan from being directly transmitted to electrical contacts of a power connection plug. It is said.

  The blower according to the present invention is electrically connected to a casing portion having an electric motor and a fan that is rotated by the electric motor, a supporting member that supports the casing portion, a mounting plug that fixes the supporting member to the lighting duct, and an electrode of the lighting duct. And a power connection plug configured separately from the mounting plug, and a power cord for connecting the electric motor and the electrical contact.

  According to this invention, since it comprised as mentioned above, it can prevent that the vibration by an electric motor and a fan is transmitted to the electrical contact of a power supply connection plug directly.

It is a partial cross section side view which shows the structural example of the air blower which concerns on Embodiment 1 of this invention. It is a partial cross section front view which shows the structural example of the air blower which concerns on Embodiment 1 of this invention. It is a perspective view which shows the structural example of the air blower which concerns on Embodiment 1 of this invention. It is a partial cross section front view which shows the structural example of the attachment plug in Embodiment 1 of this invention. It is an expanded sectional view which shows the structural example of the engaging part of the attachment plug in Embodiment 1 of this invention. It is a partial cross section front view which shows the structural example of the power supply connection plug in Embodiment 1 of this invention. It is an expanded sectional view which shows the structural example of the engaging part of the power supply connection plug in Embodiment 1 of this invention. It is a partial cross section perspective view which shows the structural example of the air blower which concerns on Embodiment 2 of this invention. It is an expanded sectional view which shows the structural example of the attachment plug in Embodiment 2 of this invention. It is a partial cross section front view which shows the structural example of the air blower which concerns on Embodiment 3 of this invention. It is a partial cross section front view which shows the structural example of the attachment plug in Embodiment 4 of this invention. It is side surface sectional drawing which shows the structural example of the casing part in Embodiment 5 of this invention. It is side surface sectional drawing which shows another structural example of the casing part in Embodiment 5 of this invention. It is a side view which shows the structural example of the air blower which concerns on Embodiment 6 of this invention. It is a side view which shows the structural example of the air blower which concerns on Embodiment 7 of this invention. It is a side view which shows the structural example of the air blower which concerns on Embodiment 8 of this invention. It is a figure which shows the LED display example in the air blower which concerns on Embodiment 8 of this invention. It is a side view which shows the structural example of the air blower which concerns on Embodiment 9 of this invention. It is a block diagram which shows the structural example of the air blower which concerns on Embodiment 9 of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1 FIG.
1 is a partial cross-sectional side view showing a configuration example of a blower 1 according to Embodiment 1 of the present invention, FIG. 2 is a partial cross-sectional front view, and FIG. 3 is a perspective view.
The blower 1 is installed in a lighting duct 3 provided on a ceiling surface 2 or a wall surface in a room, and blows wind in a desired direction. FIG. 1 shows a case where a lighting duct 3 is installed on the ceiling surface 2. As shown in FIG. 1, the blower 1 includes a casing part 11, a support member 12, and a connection plug part 13. Moreover, the connection plug part 13 has the attachment plug 14 and the power supply connection plug 15 which were comprised separately.

  The casing portion 11 is obtained by attaching an electric motor 112 and a fan 113 rotated by the electric motor 112 inside a cylindrical main body casing 111. The main body casing 111 is provided with a suction port 114 at one end and a blowout port 115 at the other end.

  The support member 12 supports the casing part 11 and is composed of a plate-like member bent into an inverted U shape as shown in FIGS. At both ends of the support member 12, casing connection portions 121 that connect the casing portion 11 to the support member 12 are provided. The casing connecting portion 121 connects the casing portion 11 so as to be rotatable along a plane perpendicular to the installation surface of the lighting duct 3 (in the drawing, can be rotated in the vertical direction). As shown in FIGS. 1 and 3, the connection position 301 between the main body casing 111 and the casing connection portion 121 is such that the center of gravity 303 of the casing portion 11 coincides as much as possible with the axis 302 passing through the two casing connection portions 121. It is configured. A support member connecting portion 122 that connects the support member 12 to the mounting plug 14 is provided at the center of the support member 12. The support member connecting portion 122 connects the support member 12 so as to be rotatable around a vertical line of the installation surface of the lighting duct 3 (in the drawing, can be rotated in the horizontal direction).

  The attachment plug 14 fixes the support member 12 to the lighting duct 3. As shown in FIGS. 4 and 5, the attachment plug 14 has an engagement portion (attachment side engagement portion) 142 that is engaged with the engagement portion 31 of the lighting duct 3 on the upper surface of the resin plug case 141. Is provided. This engaging portion 142 is resin-molded together with the plug case 141. As shown in FIG. 5, a metal hook (attachment side metal part) 143 that is integrated with the engaging part 142 and engaged with the engaging part 31 of the lighting duct 3 is inserted in the engaging part 142. Molded.

In addition, power from the power connection plug 15 is supplied to the electric motor 112 via the power input cord 16 and the power output cord 17 connected to the power input cord 16 in the mounting plug 14.
Further, the mounting plug 14 may be provided with a control circuit (not shown) 144 inside the plug case 141, and this control circuit 144 controls the motor 112 (on / off control of the motor 112, the fan 113. Air volume control). The control circuit 144 is supplied with power from the power connection plug 15 via the power input cord 16 and has a function of receiving a signal from a remote controller (not shown) 4. Then, the control circuit 144 controls the electric motor 112 by supplying electric power to the electric motor 112 via the power supply output cord 17 in accordance with the signal received from the remote controller 4.
The power input cord 16 and the power output cord 17 constitute the power cord of the present invention.

  The power connection plug 15 is configured separately from the mounting plug 14 and is electrically connected to the lighting duct 3. As shown in FIGS. 6 and 7, the power connection plug 15 has an engagement portion (power supply side engagement portion) engaged with the engagement portion 31 of the lighting duct 3 on the upper surface of the resin plug case 151. 152 is provided. The engaging portion 152 is resin-molded together with the plug case 151. As shown in FIG. 7, a metal hook (power supply side metal portion) 153 that is integrated with the engaging portion 152 and engaged with the engaging portion 31 of the lighting duct 3 is inserted in the engaging portion 152. Molded. The engaging portion 152 is provided with an electrical contact (electrical contact) 154 that is electrically connected to the electrode 32 of the lighting duct 3. The electric motor 112 and the electrical contact 154 are electrically connected by a power input cord 16 and a power output cord 17. In the above description, the power from the power connection plug 15 is supplied to the motor 112 via the power input cord 16 and the power output cord 17 connected to the power input cord 16 in the mounting plug 14. However, the present invention is not limited to this, and the power can be supplied directly from the power connection plug 15 to the motor 112 via the power cord 16.

  As described above, according to the first embodiment, the casing 112 having the electric motor 112 and the fan 113 rotated by the electric motor 112, the supporting member 12 that supports the casing 11, and the supporting member 12 are connected to the lighting duct 3. A power plug plug 15 that is electrically connected to the electrode 32 of the lighting duct 3, and is configured separately from the mounting plug 14, and the motor 112 and the electrical contacts. Since power supply cords (power supply input cord 16 and power supply output cord 17) are connected to 154, it is possible to prevent vibration caused by the motor 112 and the fan 113 from being directly transmitted to the electrical contact 154 of the power connection plug 15. it can. That is, the vibration caused by the initial rotational imbalance of the motor 112 and the fan 113 and the increase in the amount of imbalance due to dust over time is absorbed by the power cord that is a flexible structure, Vibration is not directly transmitted to the electrical contact 154. Therefore, it is possible to reduce the influence of the wear of the electrical contact 154 and the contact failure caused thereby, and to improve the reliability of the product.

In the present invention, the connecting position 301 between the main casing 111 and the casing connecting portion 121 is configured so that the center of gravity 303 of the casing portion 11 matches the axis 302 passing through the two casing connecting portions 121 as much as possible. Can be balanced, and the influence of vibration can be reduced.
The casing connecting portion 121 connects the main body casing 111 to the support member 12 so as to be rotatable in the vertical direction, and the support member connecting portion 122 enables the support member 12 to be rotated in the horizontal direction with respect to the mounting plug 14. Since it is connected, the casing part 11 can be rotated in the up-down direction and the horizontal direction, and the wind direction can be changed to an arbitrary direction.

  Further, as shown in FIG. 5, since the metal hook 143 is insert-molded inside the resin-molded engagement portion 142, the load of the entire blower 1 is received by both the engagement portion 142 and the metal hook 143. Thus, the strength can be further increased.

  In the above description, it has been shown that the control circuit 144 for controlling the electric motor 112 can be provided in the attachment plug 14. However, the present invention is not limited to this, and the control circuit 144 can be provided in the power connection plug 15.

Embodiment 2. FIG.
In the second embodiment, a configuration in which the casing part 11 is automatically swung is shown.
FIG. 8 is a partial cross-sectional perspective view showing a configuration example of the blower 1 according to Embodiment 2 of the present invention. The blower 1 according to the second embodiment shown in FIG. 8 is obtained by changing the internal configuration of the mounting plug 14 and the casing connecting portion 121 of the blower 1 according to the first embodiment shown in FIGS. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

  As shown in FIGS. 8 and 9, the mounting plug 14 in the second embodiment is provided with a gear motor 145 inside the plug case 141. A four-bar linkage mechanism 146 including a crank 1461, a link 1462, and an arm 1463 is connected to the output shaft 1451 of the gear motor 145. One side of the crank 1461 is connected to the output shaft 1451 of the gear motor 145, and an engagement protrusion 1464 is provided on the circumference of the other side. One end of the link 1462 is rotatably connected to the engagement protrusion 1464 of the crank 1461. The arm 1463 has one end rotatably connected to the other end of the link 1462. The other end of the arm 1463 is connected to the support member connecting portion 122 via a bearing 147.

  Note that the lengths of the crank 1461, the link 1462, and the arm 1463 constituting the four-bar linkage mechanism 146 are set so that the rotational movement of the crank 1461 is changed to the reciprocating movement of the arm 1463. Therefore, when the output shaft 1451 of the gear motor 145 rotates, the arm 1463 reciprocates in the horizontal direction, and the support member 12 connected to the arm 1463 rotates (swings) in the horizontal direction. Since the support member 12 supports the casing unit 11 including the electric motor 112 and the fan 113, the entire casing unit 11 rotates (swings) in the horizontal direction and changes the wind direction in the horizontal direction. Can do.

  Although not shown, the casing connecting portion 121 in the second embodiment is also configured similarly to the mounting plug 14. That is, a gear motor is provided inside the casing connecting portion 121. A four-bar linkage mechanism comprising a crank, a link and an arm is connected to the output shaft of the gear motor. The crank has one surface connected to the output shaft of the gear motor, and an engagement protrusion provided on the circumference of the other surface. The link has one end rotatably connected to the engagement protrusion of the crank. The arm has one end rotatably connected to the other end of the link. The other end of the arm is connected to the casing portion 11 via a bearing.

  Note that the lengths of the crank, link, and arm constituting the four-bar linkage mechanism are set so that the rotational motion of the crank is changed to the reciprocating motion of the arm. The direction of the output shaft and the bearing of the gear motor is arranged so as to be parallel to the axis 302 passing through the two casing connecting portions 121. Therefore, when the output shaft of the gear motor rotates, the arm reciprocates in the vertical direction, and the casing portion 11 connected to the arm rotates in the vertical direction (swings), so that the wind direction is changed in the vertical direction. be able to.

  In addition to the functions in the first embodiment, the control circuit 144 built in the mounting plug 14 controls the gear motor 145 of the mounting plug 14 and the gear motor of the casing connecting portion 121 (on / off control or the like). At this time, the control circuit 144 supplies power to the gear motor 145 of the mounting plug 14 via the lead wire 148 according to the signal received from the remote controller 4, and also connects the casing via a power output cord (not shown). Control is performed by supplying power to the gear motor of the unit 121.

As described above, according to the second embodiment, since the control circuit 144 is configured to control the rotation of the casing connecting portion 121 and the support member 12, in addition to the effects in the first embodiment, the casing portion. 11 swing operations can be performed automatically and the direction of the wind can be changed.
In addition, the control circuit 144 controls the rotation according to the signal received from the remote controller 4 so that the user can easily perform the swing operation by operating the remote controller.

Moreover, even if the center of gravity of the entire blower 1 or a reaction force is generated by the swing motion, the power connection plug 15 that has the electrical contact 154 and supplies power is separated from the mounting plug 14. 154 is not affected.
Further, by insert-molding the metal hook 143 inside the engaging portion 142 of the mounting plug 14, the proof stress is further increased against the change in the center of gravity or the reaction force of the entire blower 1 due to the swing motion, and such a mechanism structure. Can be installed.

  In addition, although the case where the horizontal swing and the vertical swing of the casing part 11 are automatically performed has been described above, the swing of only one direction may be automatically performed.

Embodiment 3 FIG.
FIG. 10 is a partial cross-sectional front view showing a configuration example of the blower 1 according to Embodiment 3 of the present invention. The blower 1 according to Embodiment 3 shown in FIG. 10 is obtained by adding a vibration isolation mechanism 18 to the blower 1 according to Embodiment 1 shown in FIGS. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

  The vibration isolation mechanism 18 is provided with the support member 12 or the attachment plug 14 and insulates vibration from the casing portion 11. In the example of FIG. 10, a case where a vibration isolator is used as the vibration isolation mechanism 18 and disposed in the support member connecting portion 122 is shown. The vibration isolation mechanism 18 can prevent the vibration from the casing portion 11 from being transmitted to the electrical contact 154 of the power connection plug 15 via the attachment plug 14.

  In addition, although the case where the vibration insulation mechanism 18 was provided in the structure of Embodiment 1 was shown above, it is not restricted to this, You may provide the vibration insulation mechanism 18 in the structure of Embodiment 2. FIG.

Embodiment 4 FIG.
FIG. 11 is a partial cross-sectional front view showing a configuration example of the mounting plug 14 according to Embodiment 4 of the present invention. The attachment plug 14 according to the fourth embodiment shown in FIG. 11 is obtained by adding a clamping portion (attachment side clamping portion) 149 to the attachment plug 14 according to the fourth embodiment shown in FIG. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

  The clamping part 149 is movable until it comes into contact with the engaging part 31 of the lighting duct 3 and sandwiches the engaging part 31 with the engaging part 142. This clamping part 149 has a screw part 1491 applied to a neck part of a cylindrical shape (including the meaning of a substantially cylindrical shape) of the mounting plug 14, and a fixing nut 1492 that is screwed into the screw part 1491. . The fixing nut 1492 fits into the screw portion 1491 and moves upward or downward along the screw portion 1491 by being rotated.

  When the attachment plug 14 is attached to the lighting duct 3, first, the engaging portion 142 is engaged with the engaging portion 31 of the lighting duct 3 and brought into contact with the inner side surface 311. Thereafter, the fixing nut 1492 is moved upward by the screw portion 1491. Then, the fixing nut 1492 is brought into contact with the outer surface 312 of the engaging portion 31. Thereby, the engaging part 31 of the lighting duct 3 can be clamped between the engaging part 142 and the clamping part 149.

As a result, the mounting plug 14 can be firmly fixed to the lighting duct 3 without a gap, so that the engaging portion 142 is relatively moved relative to the lighting duct 3 by the reaction force caused by the vibration of the supporting blower 1 or the swinging motion. There is no movement. Therefore, it is possible to prevent the engaging portion 142 from being damaged by being rubbed.
In this configuration, since the engaging portion 31 of the lighting duct 3 is sandwiched between the fixing nut 1492 and the engaging portion 142, a reaction force is also applied to the resin engaging portion 142. However, the metal hook 143 can be insert-molded inside the engaging portion 142 to ensure the strength to withstand it.

As described above, in the fourth embodiment, since the holding plug 149 that clamps the engaging portion 31 of the lighting duct 3 is provided in the mounting plug 14, in addition to the effects in the first embodiment, the lighting duct 3 is more firmly provided. It can be connected to and can suppress vibration.
Further, by increasing the attachment strength to the lighting duct 3, it becomes easier to mount the function of automatically swinging the casing portion 11 in the vertical direction and the horizontal direction, and the functionality of the product can be further improved. .

In the above description, the case where the clamping portion 149 is provided in the configuration of the first embodiment has been described. However, the present invention is not limited to this, and the clamping unit 149 may be provided in the configurations of the second and third embodiments.
Moreover, although the case where the clamping part 149 was provided in the attachment plug 14 was shown above, you may provide a clamping part (power supply side clamping part) in the power supply connection plug 15, and can acquire the effect similar to the above.

Embodiment 5. FIG.
12 and 13 are side cross-sectional views showing a configuration example of the casing portion 11 according to Embodiment 5 of the present invention. The casing part 11 in Embodiment 5 shown to FIG. 12, 13 adds the air quality conversion element 19 to the casing part 11 of the air blower 1 which concerns on Embodiment 1 shown to FIGS. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

  The air quality conversion element 19 has a function of changing the air quality of the airflow generated by the fan 113 and is built in the outlet 115 of the main casing 111. FIG. 12 shows a case where a heater 19a is used as the air quality conversion element 19, and warm air can be sent to a cold pool in the room in winter. FIG. 13 shows a case where an aroma filter 19b is used as the air quality conversion element 19, and a cool sensation can be obtained by putting a favorite scent on the air current in the intermediate period or summer. In addition, by using a deodorizing filter or a dust removing filter as the air quality conversion element 19, it is possible to obtain cool air while purifying indoor air.

  In the above description, the air quality conversion element 19 is provided in the configuration of the first embodiment. However, it is not restricted to this, You may provide the air quality conversion element 19 in the structure of Embodiment 2-4.

Embodiment 6 FIG.
In the first embodiment, the case where the control circuit 144 has a function of receiving a signal from the remote controller 4 has been described. On the other hand, the sixth embodiment shows a case where the remote control light receiving unit 20 is provided outside the mounting plug 14.
FIG. 14 is a side view showing a configuration example of the air blower 1 according to Embodiment 6 of the present invention. The ventilation apparatus 1 which concerns on Embodiment 6 shown in FIG. 14 adds the remote control light-receiving part 20 to the ventilation apparatus 1 which concerns on Embodiment 1 shown in FIGS. Other configurations are the same, and the same reference numerals are given and description thereof is omitted. Note that the control circuit 144 in Embodiment 6 does not have a function of receiving a signal from the remote controller 4.

  The remote control light receiving unit 20 is provided outside the mounting plug 14, has an electronic circuit having a light receiving device therein, and receives a signal from the remote control 4. Then, the signal received by the remote control light receiving unit 20 is transmitted to the control circuit 144 housed in the mounting plug 14 via the communication line 201. Then, the control circuit 144 performs an operation according to the signal transmitted from the remote control light receiving unit 20.

  As described above, according to the sixth embodiment, since the remote control light receiving unit 20 provided outside the mounting plug 14 is provided, the remote control light receiving unit 20 is connected to the apparatus main body (the casing unit 11, the support member 12, and the connection plug. Since it can be installed at any position on the lighting duct 3 away from the unit 13), the remote control light receiving unit 20 can be installed at a position where the signal from the remote controller 4 is not blocked by the apparatus main body or other obstacles. The operability of the operation can be improved.

  In the above description, the remote control light receiving unit 20 is provided in the configuration of the first embodiment. However, the present invention is not limited to this, and the remote control light receiving unit 20 may be provided in the configurations of the second to fifth embodiments.

Embodiment 7 FIG.
In the first embodiment, the case where the control circuit 144 has a function of receiving a signal from the remote controller 4 has been described. On the other hand, Embodiment 7 shows a case where the control circuit 144 is provided with a function of receiving signals by short-range wireless communication such as Bluetooth (registered trademark).
FIG. 15 is a side view showing a configuration example of the blower 1 according to Embodiment 7 of the present invention. The air blower 1 according to Embodiment 7 shown in FIG. 15 is obtained by changing the configuration of the control circuit 144 of the air blower 1 according to Embodiment 1 shown in FIGS. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

The control circuit 144 according to the seventh embodiment has a function of receiving a signal received by short-range wireless communication in place of the function of receiving a signal from the remote controller 4 with respect to the control circuit 144 according to the first embodiment. The operation is performed according to the received signal.
As described above, by adding the short-range wireless communication function to the control circuit 144, remote operation by the terminal 5 such as a smartphone or a tablet becomes possible, and the remote control light receiving unit 20 and the remote control 4 become unnecessary. Further, in short-range wireless communication such as Bluetooth, communication is possible even if there is an obstacle such as the remote controller 4, so that the influence of the obstacle can be ignored, which is more than the configuration of the sixth embodiment. Operability is improved.

Note that a remote control light receiving unit 20 may be further added to the configuration of FIG. 15 to enable operations from both the remote control 4 and the terminal 5.
In the above description, the case where the control circuit 144 having the short-range wireless communication function is provided in the configuration of the first embodiment has been described. However, the present invention is not limited to this, and the control circuit 144 having a short-range wireless communication function may be provided in the configurations of the second to fifth embodiments.

Embodiment 8 FIG.
FIG. 16 is a side view showing a configuration example of the blower 1 according to Embodiment 8 of the present invention. The air blower 1 according to the eighth embodiment shown in FIG. 16 is provided with a plurality of air blowers 1 according to the sixth embodiment shown in FIG. 14, and a channel setting switch 116 and a channel display LED 117 are added to each air blower 1. It is. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

The channel setting switch 116 is for setting a channel for the own device (the air blower 1).
The channel display LED 117 performs LED display according to the channel set by the channel setting switch 116. Here, as an LED display example, as shown in FIG. 17, there is a method of changing the LED color or the number of LED lighting.
Further, in the example of FIG. 16, a case where a channel setting switch 116 and a channel display LED 117 are provided in the casing portion 11 is shown.

  In the configuration of the eighth embodiment, by selecting a desired channel of the blower device 1 with the remote controller 4, only the blower device 1 can be operated, and a plurality of blower devices 1 can be individually operated with one remote controller 4. Can be controlled. In addition, the blower device 1 is provided with a channel display LED 117, which can confirm at a glance which channel the blower device 1 is set to obtain the blower device 1 having excellent visibility of the corresponding channel. it can.

  In the above description, the channel setting switch 116 and the channel display LED 117 are provided in the configuration of the sixth embodiment. However, the present invention is not limited to this, and the channel setting switch 116 and the channel display LED 117 may be provided in the configurations of the first to fifth and seventh embodiments.

Embodiment 9 FIG.
FIG. 18 is a diagram showing a configuration example of the blower 1 according to Embodiment 9 of the present invention, and FIG. 19 is a block diagram. The air blower 1 according to Embodiment 9 shown in FIGS. 18 and 19 is obtained by adding a plug connection terminal 21 and an energization switching element 1441 to the air blower 1 according to Embodiment 6 shown in FIG. Other configurations are the same, and the same reference numerals are given and description thereof is omitted.

The plug connection terminal 21 is for electrically connecting other electrical devices such as the lighting 6 to the lighting duct 3. As shown in FIG. 19, the plug connection terminal 21 has one electrode connected to one electrode 32 of the lighting duct 3 and the other electrode connected to the other electrode 32 of the lighting duct 3 via the power line 211. Electrically connected.
The energization switching element 1441 is disposed between the other electrode 32 of the lighting duct 3 and the power line 211 and switches energization to the plug connection terminal 21. In the example of FIG. 19, the energization switching element 1441 is built in the control circuit 144.

  The control circuit 144 controls switching of the energization switching element 1441 according to a signal from the remote controller 4. Thereby, it becomes possible to drive | operate other electric devices, such as the illumination 6, and the air blower 1 separately. In FIG. 19, reference numeral 1442 denotes a microcomputer in the control circuit 144, and reference numeral 1443 denotes an energization switching element that switches energization to the motor 112.

  As described above, according to the ninth embodiment, the plug connection terminal 21 that enables electrical equipment to be electrically connected to the lighting duct 3 and the energization switching element 1441 that switches energization to the plug connection terminal 21 are provided. Since the control circuit 144 is configured to control the switching of the energization switching element 1441, the blower device 1 and other electric devices can be individually controlled on and off.

  In the above description, the plug connection terminal 21 and the energization switching element 1441 are provided in the configuration of the sixth embodiment. However, the present invention is not limited to this, and the plug connection terminal 21 and the energization switching element 1441 may be provided in the configurations of the first to fifth, seventh, and eighth embodiments.

  Further, within the scope of the present invention, the invention of the present application can be freely combined with each embodiment, modified with any component in each embodiment, or omitted with any component in each embodiment. .

  DESCRIPTION OF SYMBOLS 1 Air blower, 2 Ceiling surface, 3 Lighting duct, 4 Remote control, 5 Terminal, 6 Illumination, 11 Casing part, 12 Support member, 13 Connection plug part, 14 Installation plug, 15 Power supply connection plug, 16 Power supply cord, 17 Power supply Output cord, 18 Vibration isolation mechanism, 19 Air quality conversion element, 19a Heater, 19b Aroma filter, 20 Remote control light receiving part, 21 Plug connection terminal, 31 Engagement part, 32 Electrode, 111 Body casing, 112 Electric motor, 113 Fan, 114 Suction port, 115 outlet port, 116 channel setting switch, 117 channel display LED, 121 casing connecting portion, 122 support member connecting portion, 141 plug case, 142 engaging portion, 143 metal hook, 144 control circuit, 145 gear motor, 146 4 Clause Mechanism, 147 bearing, 148 lead wire, 149 clamping part, 151 plug case, 152 engaging part, 153 metal hook, 154 electrical contact, 201 communication line, 211 power supply line, 311 inner side, 312 outer side, 1441 energization switching Element, 1442 Microcomputer, 1443 Energization switching element, 1451 Output shaft, 1461 Crank, 1462 Link, 1463 Arm, 1464 Engagement protrusion, 1491 Screw part, 1492 Fixing nut.

Claims (17)

A casing portion having an electric motor and a fan rotated by the electric motor;
A support member for supporting the casing part;
A mounting plug for fixing the support member to a lighting duct;
A power connection plug having an electrical contact electrically connected to the electrode of the lighting duct and configured separately from the mounting plug;
A blower device comprising: a power cord connecting the electric motor and the electrical contact. The blower according to claim 1, further comprising a control circuit that is built in the attachment plug or the power connection plug and controls the electric motor. The blower according to claim 1 or 2, further comprising a vibration isolation mechanism that is provided on the support member or the attachment plug and insulates vibration from the casing. The said support member has a casing connection part which connects the said casing part so that rotation is possible along the surface perpendicular | vertical with respect to the installation surface of the said lighting duct with respect to the said support member. The air blower according to any one of claims 1 to 3. The support member has a casing connection part that connects the casing part to the support member so as to be rotatable along a plane perpendicular to the installation surface of the lighting duct,
The blower according to claim 2, wherein the control circuit controls the rotation of the casing part. The said support member has a support member connection part which connects the said support member to the said attachment plug so that rotation around the perpendicular of the installation surface of the said lighting duct is possible. The air blower according to any one of 5. The support member has a support member connecting portion that connects the support member to the attachment plug so as to be rotatable around a vertical line of an installation surface of the lighting duct,
The blower according to claim 2, wherein the control circuit controls the rotation of the support member. The mounting plug is
An attachment side engaging portion engaged with an engaging portion of the lighting duct;
2. An attachment-side metal portion that is insert-molded in the attachment-side engagement portion and is engaged with the engagement portion of the lighting duct integrally with the attachment-side engagement portion. The air blower according to claim 7. The mounting plug is
The mounting side clamping part which is movable until it contacts the engaging part of the lighting duct and sandwiches the engaging part of the lighting duct with the mounting side engaging part. Blower. The power connection plug is
A power supply side engaging portion engaged with an engaging portion of the lighting duct;
The power supply side engaging portion is insert-molded, and has a power supply side metal portion that is integrated with the power supply side engaging portion and engaged with the engaging portion of the lighting duct. The blower device according to claim 9. The power connection plug is
The power supply side clamping part which is movable until it contacts the engaging part of the lighting duct and sandwiches the engaging part of the riding duct with the power supply side engaging part. Blower. The air blower according to any one of claims 1 to 11, wherein the casing portion includes an air quality conversion element that changes an air quality of an airflow generated by the fan. Provided outside the mounting plug, comprising a remote control receiver for receiving a signal from a remote control,
The blower device according to any one of claims 2, 5, and 7, wherein the control circuit operates in accordance with a signal received by the remote control receiver. The said control circuit operate | moves according to the signal received by near field communication, The air blower of any one of Claim 2, Claim 5, Claim 13, and Claim 13 characterized by the above-mentioned. . A channel setting section for setting a channel corresponding to the own device;
The blower device according to claim 1, further comprising: an LED display unit that performs LED display according to a channel set by the channel setting unit. The said LED display part performs the said LED display by changing the color of LED or the number of lighting of LED. The air blower of Claim 15 characterized by the above-mentioned. A plug connection terminal that allows an electrical device to be electrically connected to the lighting duct;
An energization switching element that switches energization to the plug connection terminal;
The blower according to any one of claims 2, 5, 7, 13, and 14, wherein the control circuit controls switching of the energization switching element.

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