JP6234468B2 - Blower - Google Patents

Description

  The present invention relates to a blower.

  An example of the blower based on a prior art is described in Unexamined-Japanese-Patent No. 2011-75201 (patent document 1).

  Another example of the blower based on the prior art is shown in FIG. In FIG. 29, a part of the housing is cut away so that the internal structure can be easily understood.

  The blower 901 includes the blower body 1. The blower main body 1 has an air inlet 2 and an air outlet 3. A multiblade fan 7 is arranged inside the blower main body 1. Air taken in from the air inlet 2 is sent out from the air outlet 3.

JP 2011-75201 A

  An apparatus for supplying a substance having an air purification action (hereinafter referred to as “purification substance”) into the air generally includes a blower for sending the purification substance on the air. These devices are required to deliver the purification substance throughout the room. Generally, these air conditioners are installed near one wall in the room, and the wind containing the purification substance is discharged toward the center of the room by the action of the blower. In this way, the indoor air is circulated.

  However, since the wind direction from one outlet is concentrated in the blowing direction, the emission direction of the purification substance is limited. As shown in FIG. 30, especially in the opening area as the air outlet 3, the wind speed tends to be high near the center and the wind speed tends to be low at the peripheral portion. As a result, a high wind speed wind is concentrated on the extension of the center line of the air outlet 3, and there is a problem that a person who receives this part of the wind feels uncomfortable.

  Then, an object of this invention is to provide the air blower which can blow with a simple structure so that a wind direction may not concentrate.

  In order to achieve the above object, a blower according to the present invention includes a blower main body having a blower outlet having two sides facing each other, and an adjustment plate extending from the two sides toward the blower downstream side, respectively. The adjustment plate is disposed so as to be inclined so that the gap between the adjustment plates becomes narrower toward the air blowing downstream side, and the adjustment plate is downstream of the air blowing compared to the width of the portion in contact with the air outlet. The width becomes narrower toward the side.

  ADVANTAGE OF THE INVENTION According to this invention, the air blower which can be ventilated with a simple structure so that a wind direction may not concentrate can be implement | achieved.

It is a 1st perspective view of the air blower in Embodiment 1 based on this invention. It is a 2nd perspective view of the air blower in Embodiment 1 based on this invention. It is a side view of the air blower in Embodiment 1 based on this invention. It is the figure which looked at the air blower in Embodiment 1 based on this invention from the blower outlet side. It is a top view of the air blower in Embodiment 1 based on this invention. It is explanatory drawing of the wind which comes out of the blower outlet of the air blower in Embodiment 1 based on this invention. It is a fragmentary top view of the adjustment board vicinity of the air blower in Embodiment 1 based on this invention. It is explanatory drawing when the adjustment board of the air blower in Embodiment 1 based on this invention rotates. It is explanatory drawing when the adjustment board of the air blower in Embodiment 1 based on this invention slides. It is a side view of the blower outlet vicinity of the modification of the air blower in Embodiment 1 based on this invention. It is a front view of the blower outlet vicinity of the modification of the air blower in Embodiment 1 based on this invention. It is a top view of the blower outlet vicinity of the modification of the air blower in Embodiment 1 based on this invention. It is sectional drawing of the air blower in Embodiment 1 based on this invention. It is sectional drawing of the case where there is no offset of the air blower in Embodiment 1 based on this invention. It is the figure which looked at the air blower in Embodiment 2 based on this invention from the suction inlet side. It is sectional drawing of the air blower in Embodiment 2 based on this invention. It is sectional drawing of the case where there is no offset of the air blower in Embodiment 2 based on this invention. It is sectional drawing of the air blower in Embodiment 3 based on this invention. It is sectional drawing of the air blower in Embodiment 3 based on this invention. It is explanatory drawing of the air blower in Embodiment 4 based on this invention. It is 1st explanatory drawing of the air blower in Embodiment 5 based on this invention. It is 2nd explanatory drawing of the air blower in Embodiment 5 based on this invention. It is explanatory drawing of the air blower in Embodiment 6 based on this invention. It is explanatory drawing of the 1st modification of the air blower in Embodiment 6 based on this invention. It is explanatory drawing of the 2nd modification of the air blower in Embodiment 6 based on this invention. It is a perspective view of the air blower in Embodiment 7 based on this invention. It is 1st explanatory drawing of the air blower assembly in Embodiment 8 based on this invention. It is 2nd explanatory drawing of the air blower assembly in Embodiment 8 based on this invention. It is a perspective view of the air blower based on a prior art. It is explanatory drawing of the wind which comes out from the blower outlet of the air blower based on a prior art.

(Embodiment 1)
With reference to FIGS. 1-5, the air blower 101 in Embodiment 1 based on this invention is demonstrated. The whole blower 101 is shown in FIG. The place which looked at the air blower 101 from the direction different from FIG. 1 is shown in FIG. The blower 101 includes a blower main body 1 having an air outlet 3 having two sides 6a and 6b facing each other, and adjustment plates 4a and 4b extending from the two sides 6a and 6b toward the blower downstream side, respectively. Is provided. The adjusting plates 4a and 4b are arranged so as to be inclined so that the gap between them becomes narrower as it goes to the air blowing downstream side. The adjustment plates 4 a and 4 b are narrower in width toward the air blowing downstream side than the width of the portion in contact with the air outlet 3.

  The place which looked at the air blower 101 from 90 degrees different from the blower outlet 3 is shown in FIG. The place which looked at the air blower 101 from the front side of the blower outlet 3 is shown in FIG. A plan view of the blower 101 is shown in FIG.

  The adjusting plates 4a and 4b are semicircular. The blower main body 1 has an air inlet 2. The blower main body 1 includes an air passage portion 11. The air passage portion 11 is a part of the blower body 1. An air outlet 3 is provided at the tip of the air passage portion 11.

  In the present embodiment, the adjustment plates 4a and 4b extend from two opposite sides 6a and 6b of the outlet 3, respectively. The adjustment plates 4a and 4b have a gap between them as they go to the downstream side of the air flow. Since the width becomes narrower toward the downstream side of the blower than the width of the portion that is inclined so as to be narrow and is in contact with the blower outlet 3, the wind from the blower outlet 3 is shown in FIG. As shown in FIG. 4, the light is spread over a wide range due to the influence of the adjusting plates 4a and 4b. As for the wind speed, the center line does not become strong, and the wind speed is almost uniform as a whole, which is preferable. Therefore, according to the present embodiment, it is possible to realize a blower capable of blowing air with a simple structure so that the wind direction is not concentrated.

  The shapes of the adjusting plates 4a and 4b are not particularly limited, but preferably have any shape selected from a semicircular shape, a semi-elliptical shape, a trapezoidal shape, and a semi-polygonal shape as shown in the present embodiment. . If the adjustment plates 4a and 4b are configured to have these shapes, it is possible to direct the emitted wind over a wide range and to make the wind speed almost uniform in each direction. An example when the adjusting plates 4a and 4b are semi-polygons is shown in FIG. Note that a semicircular shape includes not only an accurate semicircular shape but also a shape similar to a semicircular shape. The same applies to the semi-elliptical shape and the semi-polygon shape. The half polygon includes not only a shape obtained by cutting a regular polygon in half, but also a shape obtained by cutting a polygon other than a regular polygon in half.

The adjustment plates 4a and 4b are particularly preferably semicircular or semielliptical.
The adjustment plates 4a and 4b are preferably configured to be able to change the size of the gap at the narrowest part of the air passage by rotating or sliding with respect to the blower main body 1. . An example in the case where the adjusting plates 4a and 4b rotate with respect to the blower main body 1 is shown in FIG. An example in which the adjusting plates 4a and 4b slide with respect to the blower main body 1 is shown in FIG. In either case, the size of the gap at the narrowest part of the air passage can be changed by operating the adjustment plate. If it is these structures, the state of the wind sent out can be adjusted freely.

  In addition, although the structure which both the two adjustment plates inclined so far so far was illustrated, arrangement | positioning of an adjustment plate is not restricted to this. For example, a configuration in which the two adjustment plates are inclined at different angles may be employed. Further, a configuration in which only one of the two adjustment plates is inclined and the other is not inclined but extends straight is also conceivable. An example is shown in FIGS. 10 to 12 show only the vicinity of the outlet, FIG. 10 is a side view, FIG. 11 is a front view, and FIG. 12 is a plan view.

  In the present embodiment, as shown in FIG. 13, the multi-blade fan 7 that radially sends out the air sucked from the air inlet 2 provided on one side facing the direction of the rotation axis is used as the blower body 1. The blower outlet 3 is centered on a center line 82 that is a straight line offset from the extension of the center line 81 that bisects the dimension of the multiblade fan 7 in the direction of the axis of rotation to the suction port 2 side. It is preferable that they are arranged. It can be read from FIGS. 3 and 4 that the air outlets 3 are offset as described above. As shown in FIG. 13, in the multiblade fan 7 that radially sends out the air sucked from the air inlet 2 provided on one side facing the rotation axis direction, as indicated by a plurality of arrows 92, the air inlet 2 There is a case where the wind speed tends to increase on the side closer to. In the plurality of arrows 92, the length of the arrow relatively represents the magnitude of the wind speed. Even if the wind speed distribution is uneven as described above, if the air outlets 3 are offset and arranged as in the present embodiment, the wind speed distribution is substantially uniform as shown by the arrows 93. become. In this way, the wind indicated by the plurality of arrows 93 passes between the adjusting plates 4a and 4b, so that the wind properly travels on the extension of the center line 82 as indicated by the arrow 94.

  A case where the configuration has no offset will also be described. The following description does not claim that it is essential for the present invention to have an offset, but describes inconveniences that may occur when there is no offset. Such an inconvenience does not necessarily occur, and if it occurs, it can be satisfactorily dealt with by the offset configuration described in the present embodiment. When there is no offset, it is as shown in FIG. That is, the wind immediately after exiting the multiblade fan 7 tends to have a higher wind speed on the side close to the suction port 2 as indicated by a plurality of arrows 92. Since this wind travels directly through the flow path to the outlet 3 in parallel to the center line 81, when passing between the adjustment plates 4a and 4b, as shown by an arrow 95 in FIG. The wind speed component is weak and the wind speed component on the adjustment plate 4 a side is strong, and as a result, the discharged wind advances obliquely as indicated by an arrow 96. That is, it is emitted in a direction away from the center line 81. However, by offsetting as in the present embodiment, the accuracy of the direction of the emitted wind can be improved as shown in FIG.

  There may be a case where it is not always necessary to offset if there is enough space so that the wind path portion 11 can be designed to be long enough to make the difference in wind speed indicated by the arrows 92 sufficiently uniform. However, compactness is usually important when designing products. By offsetting as described above, the direction of the emitted air can be brought closer to the center line 81 without increasing the length of the air passage portion 11, so that a compact design can be supported.

(Embodiment 2)
With reference to FIGS. 15-16, the air blower 102 in Embodiment 2 based on this invention is demonstrated. The place which looked at the air blower 102 from the suction inlet 2 side is shown in FIG. FIG. 16 shows a cross-sectional view seen from a direction different from this by 90 °. The blower device 102 has the same basic configuration as the blower device 101 shown in the first embodiment, but the longitudinal direction of the blowout port 3 is different by 90 °. The blower 102 includes adjustment plates 4c and 4d at the air outlet 3 instead of the adjustment plates 4a and 4b.

  In the present embodiment, as shown in FIG. 16, the multiblade fan 7 that radially sends out the air sucked from the air inlet 2 provided on one side facing the rotation axis direction is provided inside the blower main body 1. The blower outlet 3 is arranged around a center line 82 that is a straight line that is offset from the extension of the center line 81 that bisects the dimension of the multi-blade fan 7 in the direction of the axis of rotation to the suction port 2 side. ing.

  As described in the first embodiment, the wind immediately after coming out of the multi-blade fan 7 may tend to have an uneven wind speed distribution as indicated by a plurality of arrows 92. That is, in this example, the wind speed tends to increase on the side close to the suction port 2. However, even if there is a bias in the wind speed distribution immediately after exiting from the multiblade fan 7 in this way, in the present embodiment, the air outlet 3 is arranged offset as described above. As indicated by a plurality of arrows 93i, the wind speed distribution is substantially uniform. Thus, the wind indicated by the plurality of arrows 93i passes between the adjusting plates 4c and 4d, so that the wind can be discharged radially and uniformly as indicated by the arrow 94i.

  A case where the configuration has no offset will also be described. The following description does not claim that it is essential to have an offset, but describes inconveniences that may occur when there is no offset. Such an inconvenience does not necessarily occur, and if it occurs, it can be satisfactorily dealt with by the offset configuration described in the present embodiment. When there is no offset, it becomes as shown in FIG. That is, the wind immediately after exiting the multiblade fan 7 tends to have a higher wind speed on the side close to the suction port 2 as indicated by a plurality of arrows 92. Since this wind advances along the center line 81 as it expands in accordance with the change in the width of the air passage portion 11, it is as indicated by an arrow 95i immediately before the air outlet 3. That is, the wind speed is high on the suction port 2 side of the air outlet 3, and the wind speed is low on the side opposite to the suction port 2. By passing between the adjusting plates 4c and 4d in this state, the discharged air becomes non-uniform as indicated by the arrow 96i. However, by offsetting as in the present embodiment, it is possible to make the emitted air uniform as shown in FIG.

(Embodiment 3)
With reference to FIGS. 18-19, the air blower in Embodiment 3 based on this invention is demonstrated.

  When attention is paid to the uniformity of the air discharged radially from the adjustment plates 4a and 4b of the air outlet 3 in the blower 101 described in the first embodiment, the air may become non-uniform as shown in FIG. From the positional relationship between the air passage portion 11 and the multi-blade fan 7, a portion where the wind speed is high and a portion where the air speed is low can occur in the air passage portion 11.

  As shown in FIG. 19, it is conceivable to provide a movable plate 21 on the side wall near the multi-blade fan 7 in the vicinity of the air outlet 3 of the air passage portion 11. The angle of the movable plate 21 can be changed by pushing with the cam 22 from the outside. The cam 22 can be moved by a motor 23.

  With this configuration, as shown in FIG. 19, when the wind on the side near the multi-blade fan 7 in the air outlet 3 is cut by the movable plate 21, only the wind on the side farther from the multi-blade fan 7 in the air outlet 3 is provided. It remains and is released.

(Embodiment 4)
With reference to FIG. 20, the air blower in Embodiment 4 based on this invention is demonstrated.

  Contrary to the air blower described in the third embodiment, as shown in FIG. 20, it is conceivable to provide a movable plate 21 on the side wall of the air passage portion 11 in the vicinity of the air outlet 3 near the multi-blade fan 7. . The relationship between the movable plate 21, the cam 22, and the motor 23 is as described above.

  With this configuration, as shown in FIG. 20, when the wind on the side farther from the multi-blade fan 7 in the air outlet 3 is cut by the movable plate 21, only the wind on the side closer to the multi-blade fan 7 in the air outlet 3. It remains and is released.

  Combining the blowing device described so far with the generation source of the purification substance enables the purification substance to be delivered into a desired space. The purification substance may be ions, for example. Below, the air blower for supplying ion as an example of a purification | cleaning substance is demonstrated. Note that the present invention can also be applied to supply a purification substance other than ions.

(Embodiment 5)
With reference to FIG. 21, a case where the ion generating discharge needle 25 is arranged in the middle of the air passage unit 11 in the blower 101 described in the first embodiment will be considered. The ion generating discharge needle 25 is disposed in the vicinity of the side walls on both sides. As shown in FIG. 21, due to the positional relationship between the air passage portion 11 and the multiblade fan 7, a portion where the wind speed is high and a portion where the air speed is low can occur in the air passage portion 11. The ion generating discharge needles 25 are arranged symmetrically and function equally. Here, when attention is paid to the wind that is discharged radially by the adjusting plates 4a and 4b outside the air outlet 3, there is a difference in ion concentration depending on the direction. A high ion concentration wind is sent out to the side of the air outlet 3 far from the multi-blade fan 7, and a low ion concentration wind is sent out to the side of the air outlet 3 near the multi-blade fan 7.

  With reference to FIG. 22, the air blower 105 in Embodiment 5 based on this invention is demonstrated. In the air blower 105, the flow path dividing member 26 is disposed inside the air passage portion 11 of the air blower main body 1. The flow path dividing member 26 is arranged so as to divide the internal space of the air passage portion 11 into a narrower side and a wider side. As a result, in the narrower region 31, a flow that travels outside and has a high wind speed and a low air volume is formed. In the wider region 32, a flow traveling inward and having a low wind speed and a large air volume is formed. Since the gap in the wider region 32 becomes narrower as it travels thereafter, high wind speed is also formed in the wider region 32. In this way, the wind having a high wind speed passes through the ion generating discharge needle 25 in both regions. As a result, the air discharged radially from the adjustment plates 4a and 4b of the outlet 3 is uniform.

  In connection with Embodiments 3 to 5, the inventions that can be assumed are organized and shown as additional notes below.

(Appendix 1-1)
An air blower provided with a mechanism for adjusting an opening area of a flow path of a wind that is about to exit from the air outlet near the air outlet.

(Appendix 1-2)
The blower according to appendix 1-1, wherein the adjustment mechanism includes a movable plate that adjusts the width of the opening area.

(Appendix 1-3)
The blower according to appendix 1-2, wherein the movable plate can change a posture by a displacement of a cam.

(Appendix 1-4)
The air blower according to appendix 1-3, wherein the cam can be displaced by a motor.

  In the third and fourth embodiments, the cam 22 is directly displaced by the motor 23. However, the configuration is such that power is transmitted from the motor to the cam through an appropriate gear, link, etc. between the cam and the motor. May be.

(Appendix 1-5)
A wind source that generates a wind having a high wind speed side and a low wind speed side, and a wind path portion extending from the wind source to the outlet, and a wind flow is provided in the middle of the wind path portion. A dividing member that divides the path into two is disposed, and the dividing member divides the flow path so that the side with high wind speed is narrow and the side with low wind speed is wide, and ion generation discharge is generated in each of the divided flow paths. A blower in which a needle is arranged.

(Appendix 1-6)
The air blower according to appendix 1-5, wherein the dividing member is a triangular member with a sharp upstream side of the wind.

(Embodiment 6)
The mite carcasses and feces, which are mite allergens, become dust, float in the air, and eventually accumulate on the indoor floor. There are many mites on the uneven surface such as carpets and tatami mats. Such a floor is a hotbed of the mite allele material.

  In the prior art, air is sucked in from the lower side close to the floor surface, and the dust or the dust collector installed inside removes the mite aller substance and blows out the upper side, or the structure that blows down from near the ceiling. It was almost that. Daniarel substance that has entered the eyes of carpets and tatami mats can easily be swept into the air as people walk. Nonetheless, in the case of a device that collects mite allergens by inhaling air, it can collect mite mite allergens, but it can also collect mite allergens deposited inside carpets and tatami mats. It was not possible to collect dust.

  On the other hand, there are ions that can neutralize the allele action by touching the mite allele substance. The air blower in Embodiment 6 based on this invention is an air blower which can blow out such ions, and neutralizes the mite aller substance lurking on a floor surface by spraying an ion wind directly on the floor surface.

  With reference to FIGS. 23-25, the air blower in Embodiment 6 based on this invention is demonstrated. The blower composite 106 has a configuration corresponding to two of the blowers described in the embodiments so far in one housing 10. The air blower complex 106 includes two air outlets 3. One blower outlet 3 opens vertically and sends ion wind toward the upper part of the room, and the other blower outlet 3 opens horizontally and sends ion wind towards the floor. The air blower in Embodiment 6 is one of the two air blowers provided in the air blower complex 106. The air blower in this Embodiment is fundamentally provided with the structure of the air blower demonstrated in either of Embodiment 1-5, and is equipped with the ion generator inside the air blower main body 1. FIG. Usually, an ion generator is provided inside the air passage unit 11.

  As shown in FIG. 23, the air blower in the present embodiment includes an ion generation source that generates ions that neutralize the allele substance, and the air outlet 3 directly blows the air containing the ions onto the floor surface. Are arranged as follows.

  In this embodiment, since the wind containing ions can be directly blown on the floor surface in this way, the mite aller substance lurking on the floor surface can be effectively neutralized.

  As shown in FIG. 24, the air outlet 3 that sends the wind toward the floor may be configured so that the direction of delivery can be controlled by the adjusting plate. The adjustment plate may be configured so that its posture can be automatically changed by a motor or the like.

  As shown in FIG. 25, in the blower outlet 3 which sends a wind toward a floor surface, you may become a structure which controls a wind direction with a plate-shaped louver.

It should be noted that the inventions that can be assumed in relation to the sixth embodiment are organized and shown as additional notes below.
(Appendix 2-1)
A first air outlet that is provided with an ion generation source that generates ions for neutralizing the allele substance and that opens vertically and is directed obliquely upward; and a second air outlet that is horizontally open and directed toward the floor And a blower composite.

(Appendix 2-2)
The blower according to appendix 2-1, wherein the second blowout port is capable of adjusting a direction in which wind is sent out by an adjustment plate or a louver.

(Embodiment 7)
With reference to FIG. 26, the air blower in Embodiment 7 based on this invention is demonstrated. In this blower, one blower 101 described in the first embodiment is housed in a housing 10. Only the vicinity of the air outlet 3 of the blower 101 is exposed from the opening of the housing 10. The adjustment plates 4 a and 4 b may protrude from the opening of the housing 10.

  By setting it as such a structure, the air blower based on this invention can become a structure suitable for installing and using indoors.

(Embodiment 8)
With reference to FIGS. 27 to 28, a blower assembly 108 according to the eighth embodiment of the present invention will be described. FIG. 27 is a side view of the state in which wind is sent out from the blower 108. FIG. 28 is a diagram of a state in which wind is sent out from the blower assembly 108 as viewed from above.

  The blower assembly 108 has a configuration corresponding to a plurality of blowers described in the first to fifth embodiments. The blower assembly 108 is configured by stacking a plurality of blowers in the vertical direction. Air is sent out from each air blower included in the air blower 108 into a fan shape that spreads flat in the horizontal direction by the action of the adjusting plate. Therefore, as shown in FIG. 27 and FIG. 28, wind is sent out from each outlet, and a plurality of fan-shaped flat winds are combined, so that the wind can be sent over the entire indoor space. When the blower assembly 108 is provided with an ion generation source to send out an ion wind, ions can be supplied uniformly over the entire indoor space.

In addition, you may employ | adopt combining suitably two or more among the said embodiment.
It should be noted that the inventions that can be assumed in relation to the eighth embodiment are organized and shown as additional notes below.

(Appendix 3-1)
An air blower comprising a housing and first to nth air blowers housed so as to be stacked in the housing.

(Appendix 3-2)
The first to nth blowers can send out a flat and radial air, and the first to nth blowers are arranged so as to be able to blow in a horizontal direction at different heights. .

  In addition, the said embodiment disclosed this time is an illustration in all the points, Comprising: It is not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  DESCRIPTION OF SYMBOLS 1 Air blower main body, 2 Air inlet, 3 Air outlet, 4a, 4b, 4c, 4d Adjustment plate, 6a, 6b side, 7 Multiblade fan, 10 Housing | casing, 11 Air path part, 21 Movable plate, 22 Cam, 23 Motor, 25 ion generating discharge needle, 26 flow path dividing member, 31, 32 region, 81, 82 center line, 90 air flow downstream side, 92, 93 plural arrows, 94 arrow, 95, 95i, 96, 96i arrow, 101 , 102, 105 Blower, 106, 108 Blower complex, 901 Blower (based on prior art).

Claims (4)

A blower main body having a blower outlet having two sides facing each other;
An adjustment plate extending from the two sides toward the blower downstream side,
The adjustment plate is arranged so as to be inclined so that the gap between the adjustment plates becomes narrower as it goes downstream.
The adjustment plate is narrower in width as it goes downstream of the blower than the width of the portion in contact with the outlet,
The adjusting plate is a blower having a semicircular shape that does not include a straight portion on the tip side .   The said adjustment plate is comprised so that the magnitude | size of the gap | interval in the location where the air passage became the narrowest can be changed by rotating or sliding with respect to the said air blower main body. The blower described. A multi-blade fan that radially sends out the air sucked from the intake port provided on one side facing the rotation axis direction, provided inside the blower main body,
The said blower outlet is arrange | positioned centering | focusing on the straight line offset to the said suction inlet side from the extension of the centerline which bisects the dimension of the rotating shaft direction of the said multiblade fan to 2 equally. The blower described. It has an ion source that generates ions that neutralize the allele material,
The blower according to any one of claims 1 to 3, wherein the air outlet is disposed so as to blow the air containing the ions directly onto the floor surface.

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