JP2014181895A - Ventilation fan - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable waterproof effect to be assured and provide an easy fixing work.SOLUTION: An inner wall 211 of a cover 220 of a capacitor box 200 facing against a motor 120 is provided with the first wiring hole 222, an inner side wall 221 of a pedestal 210 of the capacitor box 200 facing against the motor 120 is provided with the second wiring hole 212, the top surface of the cover 220 above the first wiring hole 222 has a water shielding plate 223 to be extended toward the motor 120, the first wiring hole 222 and the second wiring hole 212 are arranged to be displaced to each other, a pressing rib 213 for pressing down a motor lead line is arranged between the second wiring hole 212 and the first wiring hole 222, and the lower-most end surface of the pressing rib 213 is lower than the second wiring hole 212.

Description

  The present invention relates to a ventilation fan, and more particularly to a waterproof structure of a condenser box of a ventilation fan.

  FIG. 1A is a schematic diagram of a known ventilation fan. FIG. 1B is an internal schematic diagram of a waterproof lid of a known ventilation fan. As shown in FIGS. 1A and 1B, the ventilation fan 1 includes a ventilation fan frame 2 and a motor 3 and a capacitor box 4 installed on the top surface 6 of the frame 2. 4 and a waterproof lid 5 covering the periphery thereof are further provided.

  The prior art ventilation fan 1 is provided with a waterproof lid 5 that covers the entire exterior of the capacitor box 4 in order to prevent water droplets from entering the inside of the capacitor box 4 through the wiring holes 8. It is necessary to fix on the top surface 6 of the frame 2 with screws. With such a configuration, the cost and the number of assembly steps increase.

  The ground screw is attached in the capacitor box 4. Since the space is limited, when the user performs the connection operation between the ground and the capacitor box 4, the user removes the ground screw and connects the ground to the ground screw, and then connects the ground screw from above the capacitor box 4. 7 need to be attached. When the ground screw is attached from above, the ground screw or the washer on the ground screw is easy to drop off, and the wiring operation is very inconvenient.

  In order to solve the above-mentioned problems, the present invention provides a ventilation fan having a waterproof structure that can secure a waterproof effect and is easy to attach.

  In order to achieve the above object, the present invention includes a ventilation fan body, a motor and a capacitor box installed on the top surface, and the motor is provided with an outlet hole for extending a motor lead wire. The condenser box comprises a pedestal and a cover, and an inner wall facing the motor of the cover of the capacitor box is provided with a first wiring hole for penetrating the motor lead wire, A second wiring hole for penetrating the motor lead wire is provided in an inner wall facing the motor of the base of the capacitor box, and a top surface of the cover above the first wiring hole is formed on the motor. A water shielding plate is extended in the direction, the first wiring hole and the second wiring hole are shifted, and the motor lead wire is lowered between the second wiring hole and the first wiring hole. The pressure curve rib presses provided, the height of the lowermost end surface of the pressure line ribs provide low ventilation fan than the second wiring hole.

  The effect of the present invention is to secure a waterproof effect and to save cost and assembly man-hours.

It is a schematic diagram of the conventional ventilation fan. It is an internal schematic diagram of the waterproof lid of the conventional ventilation fan. It is a schematic diagram of Embodiment 1 of the present invention. It is a schematic diagram of the cover of the capacitor | condenser box by Embodiment 1 of this invention. It is a schematic diagram of the base of the capacitor | condenser box by Embodiment 1 of this invention. It is a schematic diagram after the capacitor | condenser box by Embodiment 1 of this invention was attached. It is a schematic diagram at the time of removing the cover of the capacitor box in FIG. 2D according to the first embodiment. It is a schematic diagram of Embodiment 2 of the present invention. It is a schematic diagram of the cover of the capacitor | condenser box by Embodiment 2 of this invention. It is a schematic diagram of the base of a capacitor | condenser box at the time of removing the motor lead wire in Embodiment 2 of this invention. It is a schematic diagram of Embodiment 3 of the present invention.

  A ventilation fan according to an aspect of the present invention includes a ventilation fan main body, a motor and a capacitor box installed on the top surface, and the motor is provided with an outlet hole for extending a motor lead wire. The condenser box includes a pedestal and a cover, and an inner wall facing the motor of the cover of the capacitor box is provided with a first wiring hole for penetrating the motor lead wire, A second wiring hole for penetrating the motor lead wire is provided in an inner wall facing the motor of the pedestal of the capacitor box, and a top surface of the cover above the first wiring hole is formed in the motor direction. A water shielding plate is extended, the first wiring hole and the second wiring hole are shifted, and the motor lead wire is lowered between the second wiring hole and the first wiring hole. The obtaining pressure line ribs provided, the height of the lowermost end surface of the pressure line ribs are characterized by lower than the second wiring hole.

  The water shielding plate may be extended so as to shield the outgoing wire hole of the motor from above.

  In addition, a pressure line rib for holding the motor lead wire low is provided between the second wiring hole and the first wiring hole, and the pressure line rib is disposed so as to surround the second wiring hole. Between the wire rib and the pedestal, a waterproof bottom plate for connecting the pressure wire rib and the pedestal may be installed in a portion other than the hole through which the motor lead wire passes.

  The outer wall of the capacitor box on the side away from the motor is provided with a third wiring hole through which a power supply line passes, and the pedestal inner wall and pedestal outer wall of the pedestal of the capacitor box are connected to each other. The connecting wall to be connected is provided with a fourth wiring hole that penetrates the power supply line, the position of the fourth wiring hole is higher than the third wiring hole, and the power supply line passes through the third wiring hole. Further, it may be bent to enter the fourth wiring hole and connect to the wiring terminal in the capacitor box.

  Further, a pressure line part integrally formed with the cover is provided at a position corresponding to the fourth wiring hole on the inner side of the top surface of the cover of the capacitor box, and the pressure line part has an arc-shaped pressure line. A groove may be provided.

  The capacitor box may be provided with a ground connection portion connected to the ground, and the outer wall of the pedestal may be provided with a notch portion in the vicinity of the ground connection portion.

  The upper surface of the cover may be inclined downward from the first wiring hole to the second wiring hole.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
2A to 2E are schematic views of Embodiment 1 of the present invention.

  As shown in FIGS. 2A to 2C, the ventilation fan 100 includes a ventilation fan body 110, a motor 120 and a capacitor box 200 installed on the top surface 111, and a motor lead wire 121 is extended to the motor 120. Outlet holes 122 (shown in FIG. 2E) are provided.

  The capacitor box 200 includes a pedestal 210 and a cover 220. A first wiring hole 222 for allowing the motor lead wire 121 to pass therethrough is provided in the inner wall 221 of the cover 220 of the capacitor box 200 facing the motor 120. A second wiring hole 212 for allowing the motor lead wire 121 to pass therethrough is provided on the inner wall 211 of the base 210 of the capacitor box 200 facing the motor 120. A top surface of the cover 220 above the first wiring hole 222 extends a water shielding plate 223 toward the motor 120, and the first wiring hole 222 and the second wiring hole 212 are shifted from each other. In the present invention, being installed in a shifted manner means that the center of the first wiring hole 222 and the center of the second wiring hole 212 do not face each other (the positions of the centers do not match).

  In the present invention, the side wall facing the motor 120 of the base 210 and the cover 220 of the capacitor box 200 is an inner wall, and the side wall away from the motor 120 is an outer wall.

  Since the top surface of the cover 220 above the first wiring hole 222 extends the water shielding plate 223 toward the motor 120, the water shielding plate 223 shields the first wiring hole 222 from above. Even if water droplets formed by condensation of moisture adhering to the roof drop on the top surface of the cover 220 of the capacitor box 200, the water droplets fall on the top surface 111 of the ventilation fan main body 110 through the upper surface of the water shielding plate 223. Accordingly, the water droplet does not fall into the first wiring hole 222 and enter the capacitor box 200 through the first wiring hole 222.

  Further, the upper surface of the cover 220 is inclined downward from the first wiring hole 222 to the second wiring hole 212. Therefore, even if water droplets formed by condensation of moisture adhering to the roof drop on the top surface of the cover 220 of the capacitor box 200, the water droplets flow into the second wiring hole 212 on the top surface of the cover 220 and then the ventilation fan body 110. It falls on the top surface 111. Accordingly, it is possible to prevent the water droplet from passing through the first wiring hole 222 and the second wiring hole 212 and then into the pedestal 210 of the capacitor box 200 and coming into contact with an electrical component to cause a failure.

  Furthermore, the first wiring hole 222 and the second wiring hole 212 are shifted from each other, so that the first wiring hole 222 is shifted from the center of the inner wall 221 of the cover 220 and is installed on one side. 212 is installed in the vicinity of the center of the inner wall 211 of the base 210, and a certain space is provided between the first wiring hole 222 and the second wiring hole 212. Thus, even if water droplets around the capacitor box 200 enter the capacitor box 200 through the gap between the first wiring hole 222 and the motor lead 121, the first wiring hole 222 and the second wiring hole 212 After entering the space between the capacitor box 200 and the inner wall 211 of the pedestal 210 of the capacitor box 200, it can be received and received through the second wiring hole 212 to enter the pedestal 210 of the capacitor box 200 and become an electrical component. There is no contact. Further, since the first wiring hole 222 and the second wiring hole 212 are shifted, the motor lead 121 is locked in the two holes of the first wiring hole 222 and the second wiring hole 212 and is not pulled excessively. Absent.

  Therefore, according to the above structure, it is not necessary to attach a waterproof lid that covers the periphery of the capacitor box as in the prior art, thus saving cost and assembly man-hours.

  In order to realize further waterproofing, a pressure line rib 213 that holds the motor lead wire 121 low may be provided between the second wiring hole 212 and the first wiring hole 222, and the pressure line rib 213 may be provided at the outermost position. The lower end surface 214 is lower than the second wiring hole 212. The pressure wire rib 213 is formed integrally with the base 210 of the capacitor box 200 and extends from the inner wall 211 of the base 210 of the capacitor box 200 toward the motor 120. With the above structure, the motor lead 121 extends from the output hole 122 (shown in FIG. 2E) of the motor 120 and then passes through the first wiring hole 222 of the cover 220 of the capacitor box 200 before the pressure line rib 213. A position penetrating below the lowermost end surface 214 and close to or close to the top surface 111 of the ventilation fan body 110 by the pressure line rib 213, that is, from the first wiring hole 222 and the second wiring hole 212. It is pressed to a lower position and enters the second wiring hole 212 of the base 210 upward to form a substantially V-shape. In this way, even if water droplets adhere to the outside of the motor lead wire 121, the water droplet flows downward to the top surface 111 of the ventilation fan body 110 along the motor lead wire 121 pressed downward by the pressure wire rib 213. And does not flow upward into the second wiring hole 212.

  As shown in FIGS. 2D to 2E, a third wiring hole 225 through which the power supply line passes is provided in the outer wall 224 of the cover 220 of the capacitor box 200 on the side away from the motor 120. A connection wall 217 that connects the base inner wall 211 and the base outer wall 216 of the base 210 of the capacitor box 200 is provided with a fourth wiring hole 215 that allows the power supply line to pass therethrough. The power line penetrates through the third wiring hole 225 and then bends into the upper fourth wiring hole 215 to be connected to the wiring terminal 250 in the capacitor box 200.

  With the above structure, the third wiring hole 225 and the fourth wiring hole 215 that allow the power supply line to penetrate are positioned on the outer wall 224 of the cover 220 and the connection wall 217 of the base 210, respectively. Therefore, the power supply line penetrates through the third wiring hole 225 and then bends into the fourth wiring hole 215. As described above, even if the user pulls the power supply line from outside the capacitor box 200, the connection wall 217 of the base 210 of the capacitor box 200 can lock the power supply line, so that the power supply line is not excessively pulled and disconnected. There is nothing to do.

  Even if water droplets outside the capacitor box 200 enter the cover 220 of the capacitor box 200 through the third wiring hole 225, the water drops on the connection wall 217 between the third wiring hole 225 and the fourth wiring hole 215. Received in collision. Further, since the position of the fourth wiring hole 215 is higher than that of the third wiring hole 225, the water droplet does not enter the base 210 of the capacitor box 200 after entering the cover 220 of the capacitor box 200.

  Further, as shown in FIG. 2E, a ground connection portion 230 connected to the ground is provided in the capacitor box 200. The pedestal outer wall 216 is provided with a notch 218 in the vicinity of the ground connection portion 230.

  According to the first embodiment, when using a ground without a ground terminal, the user opens the cover 220 of the capacitor box 200 upward, loosens the ground screw, and washes the ground from the notch 218 on the outer wall. After inserting it down, tighten the screw and pinch the washer firmly to complete the ground connection. This is very convenient because it is not necessary to operate the ground connection after completely removing the screw.

  According to the first embodiment, when using a ground having a ground terminal, the user opens the cover 220 of the capacitor box 200 upward, removes the ground screw, and attaches the ground screw and the washer from the cutout portion. After entering the hole, if you attach the screw and hold the washer firmly, you can complete the ground connection, which is very convenient.

(Embodiment 2)
3A to 3C are schematic views of Embodiment 2 of the present invention.

  As shown in FIGS. 3A to 3C, in the second embodiment, the water shielding plate 223 ′ in which the top surface of the cover 220 above the first wiring hole 222 extends in the direction of the motor 120 is the first embodiment. It is larger than the water shielding plate 223 in the example. The water shielding plate 223 ′ extends so as to shield the outgoing wire hole 122 of the motor 120 from above. Thus, even if the water vapor adhering to the roof condenses and drops as water droplets, the water droplets fall on the top surface 111 of the ventilation fan main body 110 through the upper surface of the water shielding plate 223 '. Therefore, the water droplet does not fall on the motor lead 121 and enter the cover 220 of the capacitor box 200 via the first wiring hole 222.

  Further, in the event that the motor 120 is short-circuited, the water shielding plate 223 ′ of the cover 220 of the capacitor box 200 receives the spark scattered from the outlet hole of the motor 120, and prevents the spark from scattering outside the ventilation fan 100. Can do.

  Therefore, the waterproof effect is secured and the safety is improved.

  In the second embodiment, the pressure line rib 214 ′ is installed so as to surround the second wiring hole 212. Between the pressure line rib 214 ′ and the pedestal 210, a waterproof bottom plate 226 that connects the pressure line rib 214 ′ and the pedestal 210 is installed in a portion other than the hole 219 through which the motor lead 121 passes. The Accordingly, even if the water droplets adhere to the outside of the motor lead wire 121, the water droplet flows downward along the motor lead wire 121 pressed downward by the pressure line rib 214 ′, and the second wiring hole 212 faces upward. Will not flow to.

  Furthermore, even if water droplets on the top surface 111 of the ventilation fan main body 110 scatter into the cover 220 of the capacitor box 200 through the gap between the cover 220 of the capacitor box 200 and the main body top surface 111, the water droplets are received by the waterproof bottom plate 226. It does not enter the pedestal 210 of the capacitor box 200 via the second wiring hole 212. Thereby, the waterproof effect can be improved.

  Other structures in the second embodiment are the same as those in the first embodiment. A duplicate description is omitted here.

(Embodiment 3)
FIG. 4 is a schematic diagram of Embodiment 3 of the present invention.

  As shown in FIG. 4, in the third embodiment, the base 210 ′ and the cover 220 ′ of the capacitor box 200 are installed so as to be integrally formed, and the base 210 ′ and the cover 220 ′ of the capacitor box 200 are formed. A bendable side 240 is provided between them.

  A pressure line portion 260 integrally formed with the cover 220 ′ is provided at a position corresponding to the fourth wiring hole 215 on the inner side of the top surface of the cover 220 ′ of the capacitor box 200. An arc-shaped pressure line groove 261 is provided.

  When the cover 220 ′ is closed via the side 240, the pressure line portion 260 of the cover 220 ′ and the fourth wiring hole 215 of the base 210 ′ sandwich the power line and hold the power line by the arc-shaped pressure line groove 261. To prevent loosening of the power line. Thus, the pressure line operation can be completed without attaching the pressure line piece via the screw as in the prior art. Thereby, cost and assembly man-hours can be saved.

  Other structures in the third embodiment are the same as those in the first or second embodiment. A duplicate description is omitted here.

  The arc-shaped pressure line groove 261 provided in the pressure line portion 260 in the third embodiment may be installed in the first embodiment or the second embodiment.

  It is to be noted that, by appropriately combining any of the above-described various embodiments, the effects possessed by them can be produced.

100 Ventilation fan 110 Ventilation fan body 111 Top surface 120 Motor 121 Motor lead wire 122 Outlet hole 200 Capacitor box 210 Base 210 'Base 211 Inner side wall 212 Second wiring hole 213 Pressure line rib 214 Bottom end surface 214' Pressure line rib 215 4th Wiring hole 216 Pedestal outer wall 217 Connection wall 218 Notch 219 Hole 220 Cover 220 'Cover 221 Inner side wall 222 First wiring hole 223 Water shielding plate 223' Water shielding plate 224 Outer side wall 225 Third wiring hole 226 Waterproof bottom plate 230 Earth Connection part 240 Side 250 Wiring terminal 260 Pressure line part 261 Arc-shaped pressure line groove

Claims (7)

A ventilation fan body, including a motor and a capacitor box installed on the top surface, wherein the motor is provided with an outlet hole for extending a motor lead wire,
The capacitor box includes a pedestal and a cover, and an inner wall facing the motor of the cover of the capacitor box is provided with a first wiring hole for allowing the motor lead wire to pass therethrough, and the pedestal of the capacitor box. A second wiring hole for penetrating the motor lead wire is provided in an inner wall facing the motor, and a top surface of the cover above the first wiring hole is provided with a water shielding plate toward the motor. Extending, the first wiring hole and the second wiring hole are shifted, and a pressure line rib is provided between the second wiring hole and the first wiring hole to hold the motor lead wire low; The ventilation fan according to claim 1, wherein a height of a lowermost end surface of the pressure wire rib is lower than that of the second wiring hole.   The ventilation fan according to claim 1, wherein the water shielding plate is extended so as to shield the outgoing wire hole of the motor from above.   A pressure line rib is provided between the second wiring hole and the first wiring hole to hold down the motor lead wire, and the pressure line rib is disposed so as to surround the second wiring hole. The waterproof bottom plate for connecting the pressure wire rib and the pedestal is installed between the pedestal and the pedestal at a portion other than the hole through which the motor lead wire passes. The described ventilation fan.   A third wiring hole is provided in the outer wall of the capacitor box on the side away from the motor to connect the power line, and connects the base inner wall and the base outer wall of the base of the capacitor box. The connection wall is provided with a fourth wiring hole for penetrating the power supply line, the position of the fourth wiring hole is higher than the third wiring hole, and the power supply line is bent after passing through the third wiring hole. The ventilating fan according to claim 1, wherein the ventilation fan enters the fourth wiring hole and is connected to a wiring terminal in the capacitor box.   On the inner side of the top surface of the cover of the capacitor box, a pressure line portion integrally formed with the cover is provided at a position corresponding to the fourth wiring hole, and the pressure line portion has an arc-shaped pressure line groove. The ventilation fan according to claim 4, wherein the ventilation fan is provided.   2. The capacitor box is provided with a ground connection portion connected to the ground, and the outer wall of the pedestal is provided with a notch portion in the vicinity of the ground connection portion. The described ventilation fan.   The ventilation fan according to claim 1, wherein an upper surface of the cover is inclined downward from the first wiring hole to the second wiring hole.

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