KR20130080763A - Air blowing device - Google Patents

Abstract

PURPOSE: An air extraction device is provided to agreeably ventilate a ventilated space by preventing non-uniformed temperature and dew condensation in the cold draft and the ventilated space. CONSTITUTION: An air extraction device comprises an air extraction outlet main body (2), a covering body (4), and an outer container (5). The air extraction outlet main body has an intake unit (23) and a nozzle type extraction opening unit (1), and extracts the air as the supply air, which is delivered from the intake opening unit, from the air extraction opening unit to a ventilated space (S). The covering body supports the extraction opening unit to be moved by changing the extraction direction of the supply air. The base part puts the fixed interval in the outside perimeter of the extraction outlet part from the extraction outlet part and the outer container is arranged. The outer container has a base end part which is arranged with a fixed space from the extraction opening unit on the periphery of the outside of the extraction opening unit, and a front end part which is arranged before the extraction opening unit. [Reference numerals] (AA) Supplied air; (BB) Intake air; (CC) Mixed air

Description

[0001] The present invention relates to an air blowing device,

The present invention relates to an air blowing device.

An air blow-out device (10) having a spherical portion having an outer surface of a spherical shape and a nozzle-shaped air blow-out port portion and rotating the spherical portion supported by the support member (11) .

Japanese Patent Application Laid-Open No. 8-200785

There is also an air conditioning system for supplying supply air having an amount of excursion to a space to be air-conditioned such as a room from an air conditioner in order to reduce energy for generating a blowing power. In this air conditioning system, there is a problem that cold draft and condensation occur because the air to be supplied to the space to be air-conditioned is low in temperature and the amount of excrement is small.

In order to solve the above-described problems, an air taking-out apparatus of the present invention comprises: an air outlet main body having an air inlet portion and a nozzle-like air outlet portion for taking out the air introduced from the air inlet portion from the air outlet portion to the air- An outlet body for movably supporting the outlet outlet main body so as to change the take-out direction of the supply air, and a base end portion of the outlet which is arranged around the outside periphery of the outlet portion at a predetermined distance from the outlet portion, And an air cylinder disposed in front of the air cylinder and having an annular shape that collects air in the air to be air-conditioned space as induction air into the inside of the outer cylinder body is provided between the base end of the outer cylinder and the air outlet main body And an air blowing passage for blowing air to the inside of the outer cylinder located forward of the blowout opening, And a mixed-air blow-out air passage communicating with both the blow-out mouth portion and the incendiary blow-out duct are constituted.

According to the invention of claim 1, since the air in the air-to-air space to be air-conditioned can be attracted by the air in the air-to-air path using the supply air taken out from the air outlet port of the air outlet main body and the supply air can be heated by this air It is possible to reduce the temperature difference between the temperature of the air (mixed air) taken out of the air passage into the air-conditioning space and the temperature of the air in the space to be air-conditioned. Therefore, for the purpose of reducing energy, even when the supply air is cooled at a lower temperature than usual, and the amount of excrement is made, it is possible to prevent uneven temperature of the cold draft and the air to be cooled and dew condensation, There is a number. In addition, since unnecessary energy such as a heater is not used, energy saving can be achieved.

According to the invention of claim 2, by providing the shielding member, the air velocity of the supply air blown out from the blow-out port of the blow-out mouth main body can be increased, and the air in the air- Further, by using one shielding member among a plurality of shielding members of different sizes, the air velocity of the supply air can be adjusted, and the mixing ratio of the amount of the air (attracted air) attracted by the attracting air passage and the amount of the supply air can be adjusted . Thus, the temperature of the air (mixed air) taken out of the mixed air take-out air passage into the air-to-be-controlled space can be set to a temperature optimum for air-conditioning, so that the air conditioning efficiency can be improved.

According to the invention of claim 3, since the annular air blowing path is formed between the blow-out port part and the shielding member, the amount of the attracting air to be mixed into the supply air can be more secured and the amount of mixed air can be increased. Accordingly, the diffusibility of the mixed air can be increased, and the temperature and humidity of the air-conditioned space can be made uniform. In addition, since it is a simple structure that supports one shielding member selected from a plurality of shielding members having different outer diameters by the supporting member, it is easy to manufacture and a cost can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side sectional view of an air blowing apparatus of the present invention. Fig.
2 is a front view of the air take-out apparatus.
3 is a side view of the air takeout apparatus.
Fig. 4 is a perspective view of the air take-out apparatus viewed from the front. Fig.

Figs. 1 to 4 show an embodiment of the air taking-out apparatus of the present invention. This air taking-out apparatus has an air outlet main body 2, an external body 4, and an external body 5. The air outlet main body 2 has an air inlet portion 23 and a nozzle-like air outlet portion 1 so that the air introduced from the air inlet portion 23 is supplied from the air outlet portion 1 as air supply air to the air- ). The air outlet main body 2 has a spherical portion 3 having a spherical outer surface and a suction port portion 23 is provided at the base end portion of the spherical portion 3, And the air outlet portion 1 is provided. The external body (4) movably supports the air outlet main body (2) so as to change the take-out direction of the supply air. Specifically, the external body 4 supports the spherical portion 3 of the air outlet main body 2 so as to be rotatable from the outside. Therefore, the spherical portion 3 is rotatable with respect to the outer casing 4, so that the direction of taking out of the air taken out from the air outlet portion 1 can be freely changed. The outer cylinder 5 is a cylindrical member 11 having a proximal end arranged at a predetermined distance from the outflow port 1 on the outer periphery of the outflow port 1, Respectively.

An annular manned air passage 12 is formed between the proximal end of the outer cylinder 5 and the air outlet main body 2 so as to collect the air in the air to be conditioned space S as drawn air into the outer cylinder 5 have. A mixed air blowing passage (13) communicating with both the blowing out port (1) and the blowing air duct (12) is formed in the outer cylinder (5) located ahead of the blowing out port part (1). The mixed air take-off air passage (13) mixes the attracted air and the supplied air to lead to the air-conditioned space (S). Most of the outer cylinder 5 is constituted by a cylindrical portion 16 and a cylindrical tube portion 14 is formed at the base end portion of the cylindrical portion 16. In the present embodiment, the annular tube portion 14 is arranged around the outer periphery of the outlet portion 1 at a predetermined distance from the outlet portion 1, and the tip end portion of the cylindrical portion 16 is located in front of the outlet portion 1 Respectively. In the present invention, the annular shape includes various shapes such as a ring shape, a cylinder shape, and a flare shape.

The outer body 4 is composed of a support ring 7 having a tongue-like shape slidably fitted outside the spherical portion 3 and a cylindrical ring 7 having an inner jaw- A casing 8 and a plurality of support members 9 provided between the outer jaws of the support ring 7 and the inner jaws of the casing 8 at predetermined intervals in the circumferential direction. The support ring 7, the support member 9, and the casing 8 are fixed to each other by fasteners such as bolts / nuts (not shown). The inward portion of the casing 8 is mounted on the device 10 such as an air conditioner or a duct. The supply air from the appliance 10 is introduced into the outlet main body 2 from the inlet port 23 and is taken out from the outlet port 1 through the internal space of the outlet main body 2. On the other hand, the configuration of the external body 4 is not limited to this embodiment.

The air outlet main body 2 is provided with an air speed adjusting mechanism A for adjusting the air blowing-out speed of the air outlet 1. The wind speed adjusting mechanism A includes a shielding member 6 which is detachably installed inside the air outlet 1 and shields a part of the flow path of the supply air and a shielding member 6 which shields the shielding member 6 from the center of the air outlet 1, And a support member (11) for detachably supporting the support member (11). The shielding member 6 has an outer diameter smaller than the inner diameter of the air outlet portion 1 and one shielding member 6 selected from a plurality of shielding members 6 having different outer diameters is supported by the support member 11 have. An annular air jetting path 15 for jetting the supply air is formed between the inner surface of the air outlet portion 1 and the outer surface of the shielding member 6 in a state in which the shielding member 6 is supported by the supporting member 11 Respectively. The opening width H of the annular air ejection passage 15 (the inner diameter of the blow-out port portion 1 and the inner diameter of the shield member 6) of the shielding member 6 can be appropriately selected from a plurality of shielding members 6 having different outer diameters, (The difference between the maximum outer diameters of the outer ring 6). Thus, by changing the opening width H of the air blowing passage 15, the air velocity of the air blown out from the air blowing passage 15 toward the mixed air blowing air passage 13 can be adjusted.

The shielding member 6 includes a conical guide portion 17 having a pointed shape toward the upstream side of the flow of the supply air and a columnar or annular guide portion 17 projecting from the end portion of the guide portion 17 (20). The supply air can be guided to the air jet path 15 by the conical guide portion 17. Since the guide portion 17 is conical, the pressure loss of the supply air can be suppressed. When the shielding member 6 is changed to another shielding member 6 having a different maximum outer diameter of the guide portion 17, the opening width H of the air spouting passage 15 is changed. The support member 11 includes an annular mounting portion 18 for concentrically supporting the fitting portion 20 of the shielding member 6 with respect to the outer cylinder 5 and a fixing portion 18 for fixing the mounting portion 18 and the outlet portion 1 And has a thin plate-like support portion 21 for connection. The outer cylinder 5 is connected to the outlet portion 1 concentrically with another thin plate-like support portion 19. [

The bold dotted arrows in Fig. 1 indicate the direction in which the air flows. The supply air drawn in from the inlet port 23 passes through the inside of the outlet main body 2 and is taken out from the air spouting passage 15 of the outlet port 1 toward the mixed air take- At this time, since the communicating portion (the mixed air take-out air passage 13 in this embodiment) that communicates the air jet path 15 with the induction air path 12 becomes negative pressure, Is drawn to the mixed-air blowing-out air passage (13) through the inducing air passage (12). This attracted air is mixed with the supplied air in the mixed air take-out air passage (13). The mixed air of the attracting air and the supplying air is taken out from the mixed air take-out air passage 13 toward the air-conditioned space S.

The mixing ratio of the supply air and the attracting air constituting the mixed air can be adjusted by changing the opening width H of the air spraying path 15. [ In order to change the opening width H, the shielding member 6 of the wind speed adjusting mechanism A may be changed to another shielding member 6 having a different outer diameter, and the outer cylinder 5 may be replaced with another outer cylinder (5). By adjusting the mixing ratio, the temperature of the mixed air can be optimally adjusted. For example, in the mixed air take-off air passage 13 at the time of cooling, the supply air at a low temperature of about 13 캜 and the attracting air at a higher temperature of 27 to 30 캜 are mixed to supply mixed air of 19 to 22 캜 to the air- (S). Therefore, condensation does not occur. It is preferable that the supply air is higher in temperature than the dew point temperature of the space to be air-conditioned (S) at the point of mixing with the attracting air and lower than the absolute humidity of the air-conditioned space (S).

The present invention is not limited to the above-described embodiments, and may be freely changed without departing from the gist of the present invention. For example, the shapes, structures, and structures of the outer cylinder 5, the shielding member 6, and the support member 11 may be changed. In addition, the wind speed adjusting mechanism A may be changed to a damper or a shutter capable of adjusting the air flow rate. In addition, the wind speed adjusting mechanism A may be omitted.

1:
2:
5: outer cylinder
6: shield member
11: Support member
12: Drifting wind
13: Mix air blow-out air passage
15: With air spout
23:
A:
H: opening width
S: Air conditioning space

Claims (3)

And an air outlet main body (1) having an air inlet portion (23) and a nozzle-like air outlet portion (1) and taking out air introduced from the air inlet portion (23) from the air outlet portion (1) 2)
An external body (4) for movably supporting the air outlet main body (2) so as to change the taking out direction of the supply air,
And an outer cylinder body (5) whose proximal end is arranged on the outer periphery of the outlet portion (1) at a predetermined interval from the outlet portion (1) and whose tip end is arranged in front of the outlet portion (1) ,
An annular manned air passage (not shown) is provided between the base end portion of the outer cylinder 5 and the air outlet main body 2 to collect the air in the air space S as drawn air into the outer cylinder 5 12,
A mixed air blow-out duct 13 communicating with both the blow-out mouth portion 1 and the incendiary blow-out duct 12 is formed in the outer body 5 located ahead of the blow-out mouth portion 1 Characterized in that it comprises:
The method according to claim 1,
Further comprising a shielding member (6) detachably installed inside the air outlet portion (1) to shield a part of the flow of the supply air.
3. The method of claim 2,
Further comprising a support member (11) for detachably supporting the shielding member (6) at the center of the air outlet portion (1)
The shield member (6) has an outer diameter smaller than the inner diameter of the blow-out port portion (1)
Wherein one shielding member (6) selected from a plurality of shielding members (6) having different outer diameters is supported by the support member (11).

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