DE112015006154T5 - FAN - Google Patents

Abstract

A fan (50) comprises: a blower unit (10), the blades (11), a fan motor (12) having an output shaft to which the blades (11) are attached, and a cover which covers an area at one the wing (11) opposite side over the fan motor (12) covers, a support post (23) extending vertically and is inserted into the cover, supporting shafts (24), each of side surfaces of the support post (23) in one project lateral directions and opposite to each other and support the support unit (10) so that it is rotatable up and down, and an oscillation motor, which is disposed within the cover and the fan unit (10) rotates upwards and downwards.

Description

area

The present invention relates to a fan that rotates vanes to generate air.

background

A fan includes a fan unit that rotates vanes mounted on a fan motor to produce air. In this type of fan, the blower unit is sometimes supported by a support post to be rotatable up and down. Patent Document 1 discloses a fan in which an oscillation motor that automatically rotates a fan unit up and down is provided, that is, a fan having an automatic up and down oscillation function. Since the fan with the automatic up and down oscillation function can automatically change the direction of air generated by the rotation of the vanes up and down, the fan is easily usable as a circulator circulating room air.

CITATION

patent literature

• Patent Document 1: Japanese Patent No. 5626942

short version

Technical problem

However, in the fan disclosed in Patent Document 1, a cover covering the back of a fan motor is disposed on both sides between a right and left branching support post, thereby supporting the blower unit. Therefore, branched support posts protrude on both sides of the cover, thereby hindering downsizing and weight reduction of the device. Further, rotary shafts for rotating the blower unit are arranged at two positions which are right and left supporting positions via the cover, and therefore the distance between the rotary shafts increases. Therefore, a high mounting accuracy is required to suppress misalignment of the right and left support shafts, which can lead to an increase in manufacturing costs and difficulties in assembly.

The present invention has been made in view of the foregoing problems, and it is an object of the present invention to provide a fan which enables downsizing of the device, reduction of weight, suppression of manufacturing cost, and simplified assembly while providing an automatic upward movement. and down oscillation function.

the solution of the problem

In order to overcome the foregoing problems and to achieve the object, there is provided a ventilator including: a fan unit having blades, a fan motor having an output shaft to which the blades are fixed, and a cover having a portion on the opposite side of the fan Covering the vane over the fan motor; a support post extending vertically and inserted in the cover; a support shaft protruding in a lateral direction from sides of the support post and supporting the blower unit so as to be rotatable up and down; and an oscillation motor which is disposed inside the cover and rotates the blower unit up and down.

Advantageous Effects of the Invention

In the fan of the present invention, an effect is obtained which makes it possible to downsize the device, reduce the weight, suppress the manufacturing cost, and simplify the assembly while maintaining an automatic up and down oscillation function.

Brief description of the drawings

1 is a perspective view of a fan according to a first embodiment of the present invention.

2 FIG. 12 is a diagram of a blower unit of the fan according to the first embodiment viewed from the side. FIG.

3 Fig. 10 is a diagram of the fan unit of the fan according to the first embodiment viewed from the rear side.

4 Fig. 10 is an enlarged fragmentary sectional view of a part of a support post supporting the blower unit of the fan of the first embodiment viewed from the rear side.

5 FIG. 15 is a perspective view of the fan unit of the first embodiment according to the first embodiment, which is viewed from the rear side and is a diagram illustrating a state in which a cover is removed.

6 is an exploded perspective view of the support post according to the first embodiment.

7 Fig. 10 is an enlarged partial sectional view of an oscillation mechanism in the fan according to the first embodiment, which is enlarged and viewed from the side.

8th is a sectional view of the in 7 illustrated oscillation mechanism viewed from the front.

Description of exemplary embodiments

Embodiments of a fan according to the present invention will be described below in detail with reference to the accompanying drawings. The present invention is not limited to the embodiments.

First embodiment

1 is a perspective view of a fan according to a first embodiment of the present invention. A fan 50 contains a blower unit 10 that generates air and a base unit 20 that the blower unit 10 supports.

2 is a diagram of the fan unit 10 of the fan 50 according to the first embodiment, which is viewed from the side. The blower unit 10 contains wings 11 rotating to generate air, a fan motor 12 which has an output shaft C at which the wings 11 attached, and a cover 13 that make an area on the opposite side of the wing 11 over the fan motor 12 covers. In the following description will be a page on which the wings 11 on the fan motor 12 is attached, adopted as a "front", and a side on which the cover 13 is arranged, is assumed as a "back". One side of the fan motor 12 in a direction perpendicular and horizontal to the output shaft C is assumed as a "lateral side".

The fan motor 12 turns the wings 11 on the output shaft C to generate air. The front of the wings 11 is protected by a fan 14 covered. Several gaps are in the fan guard 14 formed by the rotation of the wings 11 generated air is blown through the column. The cover of the front of the wings 11 with the fan protection 14 prevents fingers and foreign objects from the wings 11 touch and improves safety.

According to 1 has the base unit 20 a support unit 21 that the blower unit 10 rotatably supports, and a seat 22 who is the support unit 21 at a lower part of this keeps to the fan 50 to be installed in a standing manner. control switch 22a for controlling an operation and stopping the fan 50 are on an upper surface of the seat 22 arranged.

The support unit 21 has a rod-like support post 23 which extends vertically. The support post 23 is at the bottom part by the seat 22 held. 3 is a diagram of the fan unit 10 of the fan 50 according to the first embodiment, which is viewed from the back. An upper part of the support post 23 is in the cover 13 used. A section 13a is in a part of the cover 13 formed with the support post 23 overlaps, as can be seen from the back.

4 FIG. 10 is an enlarged fragmentary sectional view of a portion of the blower unit. FIG 10 of the fan 50 supporting support unit 21 according to the first embodiment, which is viewed from the back. The blower unit 10 is through an upper part of the support unit 21 contained support post 23 supported to be rotatable up and down. The support unit 21 has support shafts 24 taken from side surfaces of the support post 23 projecting in lateral directions and opposite each other. The support waves 24 have a cylindrical shape and can with screws on the support post 23 be attached or may be integral with the support post 23 be shaped.

A warehouse 15 is with each of the support shafts 24 arranged. Camps 15 are rotatable on Oszillationsachsen D, the center axes of the support shafts 24 with the cylindrical shape, in a state in which the bearings 15 are arranged on these. A mounting plate 27 is at the camps 15 attached and the fan motor 12 is so on the mounting plate 27 attached that the blower unit 10 containing the fan motor 12 is able to turn up and down on the oscillation axes D. It should be noted that when the bearings 15 at any of the constituent elements of the blower unit 10 are attached, the blower unit 10 can be rotated up and down on the oscillation axes D.

A configuration of a mechanism that the blower unit 10 containing the fan motor 12 automatically up and down rotates, that is, a configuration of a so-called up / down oscillating mechanism will be described next. 5 is a perspective view of the blower unit 10 of the fan 50 according to the first embodiment, which is viewed from the rear side, and is a diagram illustrating a state in which the cover 13 is removed. 6 is a perspective view of the support post 23 in the first embodiment, wherein the automatic oscillating up / down mechanism is pulled apart.

The automatic oscillating up / down mechanism includes an oscillation motor 16 who is at the fan unit 10 is provided, a gear 17 the blower unit, which is connected to an output shaft 16a of the oscillation motor 16 attached, and a gear 25 the support unit attached to the support post 23 is attached and that with the gear 17 the fan unit is in mesh. The oscillation motor 16 and the gear 17 the blower unit are inside the cover 13 arranged. The output shaft 16a of the oscillation motor 16 is parallel to the in 4 illustrated oscillatory axes D arranged. The gear 25 The support unit has a shape in which a part of a circular gear is cut, that is, a shape having a plurality of teeth formed on an arcuate outer peripheral surface.

The outer peripheral surface with the teeth of the gear formed thereon 25 The support unit is an arcuate surface around the oscillation axis D around. Although the oscillation motor 16 on the mounting plate 27 is attached, which in the first embodiment of the camps 15 attached, can the oscillation motor 16 at any of the constituent elements of the blower unit 10 be attached.

Because the gear 25 the support unit on the support post 23 is attached, the gear moves 17 the blower unit along an outer circumference of the gear 25 the support unit, if the oscillation motor 16 the gear 17 the fan unit is rotating. The oscillation motor 16 also moves with the gear 17 the blower unit so that the blower unit 10 at which the oscillation motor 16 is fixed, rotates on the oscillatory axes D up and down. The direction of rotation of the gear 17 the blower unit changes at certain intervals by the oscillation motor 16 , causing the blower unit 10 performs an up / down oscillation movement automatically.

7 is an enlarged partial sectional view of a oscillation mechanism of the fan 50 according to the first embodiment, which is viewed from the side. In 7 For example, a left side of the paper plane is the front side, and a right side of the paper plane is the back side. 8th is a sectional view of the in 7 illustrated oscillation mechanism viewed from the front. In 8th is the hatching of a bias unit 26 omitted. The bias unit 26 which applies a biasing force to the blower unit 10 in the direction opposite to the direction of rotation is due to the oscillation mechanism of the fan 50 intended.

In the first embodiment, a torsion spring is an example of the biasing unit 26 illustrated. One end of the bias unit 26 is in a deepened area 25a of the gear 25 the support unit fitted and fixed in this, and the other end of the biasing unit 26 is in a deepened area 25a who is in the appropriate camp 15 is formed, fitted and fixed in this. In a state where the position of the center of gravity of the blower unit 10 a position G1 is the same height as that of the oscillation axes D is the bias unit 26 not twisted and is in a neutral state in which no biasing force is applied. When the blower unit 10 is rotated from this state in a direction indicated by an arrow Y and the position of the center of gravity of the blower unit 10 is rotated so as to move from the position G1 at the same height as that of the oscillation axes D to a position G2 higher than the oscillation axes D, the bearings also rotate 15 in the direction indicated by the arrow Y. Due to the rotation of the bearing 15 in the direction indicated by the arrow Y turns on the recessed area 15a in the direction indicated by the arrow Y, and accordingly, the bias unit becomes 26 twisted. The recovery force of the pretensioner unit 26 becomes a biasing force for rotating the blower unit 10 in a direction indicated by an arrow X.

When the blower unit 10 is rotated in a direction indicated by an arrow W and the position of the center of gravity of the blower unit 10 is rotated so as to move from the position G1 at the same height as that of the oscillation axes D to a position G3 lower than the oscillation axes D, the bearing also rotates 15 in the direction indicated by the arrow W. Due to the rotation of the bearing 15 in the direction indicated by the arrow W, the recessed area also rotates 15a in the direction indicated by the arrow W, and the biasing unit 26 is twisted. The recovery force of the pretensioner unit 26 The biasing force for rotating the blower unit 10 in the direction indicated by an arrow V.

In the above-described fan 50 can, as the support post 23 who is the blower unit 10 rotatably supports, has the shape of a rod and in the cover 13 is used, the device compared to the case in which the support post 23 on the two sides of the cover 13 projects, be scaled down. Furthermore, the weight due to the reduction of the support post 23 even be reduced. The design can also be improved compared to the case in which the support posts on both sides of the cover 13 protrude.

The oscillation axes D, as the axes of rotation of the blower unit 10 serve, are located in two positions, that is, an area of the support shaft 24 standing on one side over the support post 23 is arranged, and a portion of the support shaft 24 which is arranged on the other side. Therefore, the oscillation axes D located at the two positions can be easily brought closer to each other. Closer fixing of the oscillation axes D prevents misalignment of the axes of rotation from occurring easily. Accordingly, a requirement on the mounting accuracy is suppressed, and a reduction in manufacturing cost and ease of assembly can be achieved.

Furthermore, the application of the biasing force by the biasing unit 26 on the blower unit 10 in the opposite direction to the direction of rotation, the occurrence of knocking during a rotational movement of the blower unit 10 suppress. The knocking of the blower unit 10 can easily occur when combing the teeth between the gear 17 the blower unit and the gear 25 the support unit is released during a turning operation. Combing teeth between the gear 17 the blower unit and the gear 25 the support unit occurs more easily when the position of the center of gravity of the blower unit 10 further away from the position G1.

That is, when the position of the center of gravity of the blower unit 10 closer to the position G2 or G3 than to the in 7 illustrated position G1, the meshing of the teeth between the gear is 17 the blower unit and the gear 25 the support unit easier released and knocking occurs more easily. Since in the first embodiment, the biasing force in the direction opposite to the direction of rotation more on the blower unit 10 is exercised when the position of the center of gravity of the blower unit 10 gets closer to the position G2 or G3, the meshing of the teeth between the gear 17 the blower unit and the gear 25 the support unit is less likely to be released, and the occurrence of knocking can also be suppressed.

While in the first embodiment, an example in which the two support shafts 24 at the support post 23 are illustrated, the present invention is not limited thereto. As long as sufficient strength to support the blower unit 10 It is possible that a support shaft 24 the fan unit supports.

Industrial Applicability

The configuration described in the above embodiment is just one example of the content of the present invention. The configuration may be combined with other known techniques, and part of the configuration may be omitted or modified without departing from the scope of the present invention.

LIST OF REFERENCE NUMBERS

10

blower unit

11

wing

12

fan motor

13

cover

13a

neckline

14

fan protection

15

camp

15a

head Start

16

oscillation motor

16a

output shaft

17

Gear of the blower unit

20

base unit

21

support unit

22

Seat

22a

control switch

23

support posts

24

support shaft

25

Gear of the support unit

26

biasing unit

50

fan

C

output shaft

D

oscillation

Claims (4)

Fan comprising: a blower unit including wings, a fan motor having an output shaft to which the blades are fixed, and a cover covering an area on a side opposite to the blades via the fan motor; a support post extending vertically and having an upper part inserted in the cover; a support shaft projecting from the support post in a lateral direction and supporting the blower unit so as to be rotatable up and down; and an oscillation motor which is disposed inside the cover and rotates the blower unit up and down. The ventilator of claim 1, further comprising: a gear of the blower unit, which is attached to an output shaft of the oscillation motor; and a gear of the support unit, which is fixed to the support post inside the cover and meshes with the gear of the blower unit. The fan according to claim 2, further comprising a biasing unit for applying a biasing force in a direction opposite to a rotational direction to the blower unit when the blower unit rotates with the rotation of the gear of the blower unit. The fan according to claim 3, wherein the biasing force is applied to the blower unit in a direction opposite to a rotation direction when the blower unit rotates in such a direction that a position of a center of gravity of the blower unit becomes higher than a rotation shaft of the blower unit, and if the blower unit Blower unit rotates in such a direction that a position of the center of gravity of the blower unit is lower than the rotational shaft of the blower unit.

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