JP2571774B2 - Air blower for air conditioning - Google Patents

Description

Description: BACKGROUND OF THE INVENTION The present invention relates to an air-conditioning air blower provided with a damper at a flow path outlet of an air supply flow path.

[Conventional technology]

Conventionally, as this type of air-conditioning air blower, as shown in FIG. 5, an air blow-off tube (2) forming an air supply flow path (1) is provided at a front end portion (that is, a flow path outlet portion). A damper (5) rotatable between a closed position for closing the flow path outlet (4) and an open position for opening the flow path outlet (4), and the damper (5) is moved between the closed position and the open position. There is one that is selectively held depending on the posture.

[Problems to be solved by the invention]

However, in the above-described conventional blower, the damper (5) can be held only in two positions, that is, the closed position and the open position, and the open position is constant. In order to blow air from the outlet (4), a fixed flow rate of air can be blown only in a certain direction, and the blowing direction and the blowing amount of the air cannot be appropriately changed depending on various air conditioning conditions and the like. .

As an improvement to this point, the inclination angle of the damper (5) can be adjusted between the closed position and the open position, so that the damper portion located on the lower side of the flow path outlet (4) blows out. In guiding the air, it is conceivable to change the air blowing direction by adjusting the inclination angle of the damper (5). However, even in this case, the inclination angle of the damper (5) is changed for the purpose of changing the blowing direction. When this is changed, there is a problem that the resistance at the flow path outlet (4) changes with this, and the air blowing amount also changes.

An object of the present invention is to provide an air-conditioning air blower that can individually change and adjust the blow-out direction and blow-out amount of air while simplifying the structure.

[Means for solving the problem]

The characteristic configuration of the air-conditioning air blower according to the present invention is a configuration in which a damper is provided at a flow path outlet of an air supply flow path. An angle adjusting mechanism for changing an inclination angle; and moving the damper in a direction of a flow path center axis at the flow path outlet in a state where a damper portion exists on a lower side of the air blowing direction than the flow path outlet. A movement adjusting mechanism is provided.

[Action]

According to the above-mentioned characteristic configuration, by moving the damper in the direction of the center axis of the flow path at the flow path outlet with the movement adjusting mechanism in a state where the damper portion exists on the lower side of the air blowing direction than the flow path outlet. In addition, while maintaining the direction in which the blown air is guided by the lower damper portion, the resistance at the flow path outlet can be changed to change the air blowout amount.

In addition, if the inclination angle of the damper with respect to the opening surface of the flow path outlet is changed by changing the rotation posture of the damper by the angle adjusting mechanism, the air guide direction by the lower damper portion is changed to change the air blowing direction. be able to.

〔The invention's effect〕

As a result of the above-described operation, it is possible to individually change and adjust the blowing direction and the blowing amount of the air from the flow path outlet according to various air conditioning conditions and the like.

Further, since the adjustment of the blowing direction and the adjustment of the blowing amount are performed by moving the one damper and changing the inclination angle, for example, a damper for adjusting the blowing amount is provided in the middle of the air supply passage, and Compared to a configuration in which a damper for adjusting the blowing direction is provided at the outlet and the adjustment of the blowing direction and the adjustment of the blowing amount are separately performed by these two dedicated dampers, the number of dampers is smaller and the structure is simpler. This is advantageous in terms of cost, compactness, and the like.

〔Example〕

 Next, an embodiment will be described.

Fig. 3 shows a high ceiling (for example, 10m) like a factory building.
Above) and in a wide room (for example, 10 m to 20 m), a work area (S) from the floor to about 2 m to 3 m is cooled and heated by blowing air from the air-conditioning air blower (A). As shown, an air-conditioning air blower (A) is connected to a lower end of a branch duct (C) derived from a main duct (B) for supplying air-conditioning air.

About the specific structure of this air blower for air conditioning (A),
As shown in FIGS. 1 and 2, a metal or synthetic resin air blowing tube (2) forming an air supply channel (1) is provided, and the upper end side of the air blowing tube (2) is provided. The opening is a connection port for the branch duct (C), and the lower end side opening (that is, the flow path outlet of the air supply flow path (1)) is a downward outlet (4).

A large number of horizontal outlets (3) are formed on the entire peripheral wall of the air blowing tube (2), and a downward blowing outlet (4) is formed at the lower end of the air blowing tube (2). There is provided a damper (5) for opening and closing.

The air-conditioning air blower (A) is provided with an adjusting mechanism (D) for adjusting the direction and amount of air blown from the downward air outlet (4), and the adjusting mechanism (D) is provided with the damper. It comprises a movement adjusting mechanism (6) for (5) and an angle adjusting mechanism (7).

The movement adjusting mechanism (6) moves the damper (5) in the direction of the center axis of the flow path in the downward outlet (4) in a state where the damper portion exists on the lower side in the air blowing direction than the downward outlet (4). In this example, the damper (5) is moved in the vertical axis (Y) direction, and the angle adjusting mechanism (7) changes the posture of the damper (5) by rotating the downward outlet (4).
Is to change the inclination angle of the damper (5) with respect to the opening surface.

Regarding the specific structure of the movement adjusting mechanism (6), a vertical operating shaft (10) having a damper (5) at the lower end thereof is connected to two upper and lower bosses (11) inside the air blowing tube (2). ,
According to (12), it is supported so as to be rotatable about the vertical axis (Y) and slidably in the direction of the vertical axis (Y). Ball (13) to be engaged with annular groove (10a) formed on shaft (10)
And a spring (14) for urging the ball (13) toward the engagement side. On the other hand, the operating shaft (10) has the annular grooves (10a) formed at a plurality of positions in the axial direction. It is.

That is, the operation shaft (10) is pushed and pulled in the direction of the longitudinal axis (Y) to selectively engage the ball (13) with one of the plurality of annular grooves (10a). The damper (5) is moved in the direction of the longitudinal axis (Y) on the lower side of the air blow-out direction than the downward blow-off port (4) to selectively hold the position at a plurality of moving positions.

In the drawings, (8) and (9) are support arms that support the bosses (11) and (12).

On the other hand, as for the specific structure of the angle adjusting mechanism (7), as a mounting structure of the damper (5) with respect to the operating shaft (10), a pair of dampers (5) is attached to the lower end of the operating shaft (10). (19) are connected to each other via hinges (20) via a hinge (20) so as to be rotatable around the horizontal axis. On the other hand, in the middle part of the operation shaft (10), a male screw formed on this operation shaft (10) A cylindrical screw member (15) is screwed into (10b), and the screw member (15) and each damper (5) are connected via a link (18).

That is, the operation axis (10) is rotated around the vertical axis (Y) in a state where the relative rotation between the operation axis (10) and the damper (5) around the vertical axis (Y) is allowed. Accordingly, the screw member (15) is moved in the direction of the vertical axis (Y) by relative rotation with respect to the male screw portion (10b), so that the damper (5) is linked to the horizontal axis by the link (18). The damper (5) is pivoted around, thereby changing the inclination angle of the damper (5) with respect to the opening surface of the downward outlet (4).

In a state where the relative rotation between the operation axis (10) and the damper (5) around the vertical axis (Y) is prohibited, the operation axis (10)
Is rotated around the vertical axis (Y) together with the damper (5), so that the inclination angle of the damper (5) with respect to the opening surface of the downward outlet (4) is maintained while maintaining the inclination angle of the vertical axis (Y). The blowing direction can be changed for the surroundings.

In the drawing, (16) is a connection bracket on the screw member (15) side for the link (18), and (17) is a connection bracket on the damper (5) side for the link (18).

In the air-conditioning air blower (A) having the above structure, the damper (5) is set in a horizontal position by the angle adjusting mechanism (7), and the damper (5) is moved upward by the movement adjusting mechanism (6). By closing the downward outlet (4), a cooling mode in which the cool air supplied from the branch duct (C) is blown out from the lateral outlet (3) is performed.

Further, by opening the downward air outlet (4) by damper operation by the angle adjusting mechanism (7) and the movement adjusting mechanism (6), the cool air supplied from the branch duct (C) is blown out from the downward air outlet (4). Execute the heating mode.

And, in the heating mode, the downward outlet (4)
In a state in which the damper (5) is opened, the damper (5) is moved in the direction of the longitudinal axis (Y) on the lower side of the air blowing direction from the downward outlet (4) by the movement adjusting mechanism (6). ), The air blowing amount is changed by changing the resistance at the downward air outlet (4) while the direction in which the blown air is guided is kept constant, and the damper (5) is rotated by the angle adjusting mechanism (7). By changing the inclination angle of the damper (5) with respect to the opening surface of the downward outlet (4), the air guiding direction by the damper (5) is changed to change the air blowing direction.

Next, an example of the specifications of the air-conditioning air blower (A) will be described.

Height from floor (FL) to downward outlet (4) H = 20
The diameter D ₁ = 450 mm blowing velocity of 00mm air discharge cylinder for (2) the axis length L = 600 mm air outlet for tube (2): during cooling [sideways outlet (3)] 1.0～1.5M /
s Heating [downward outlet (4)] 3.0-4.0m /
s Outlet temperature: 17-20 ° C for cooling 28-30 ° C for heating The outlet height (H) may be set to an appropriate height in the range of 1m to 3m.

(Another embodiment)

 Next, another embodiment will be described.

In the above embodiment, a pair of substantially semicircular dampers (5) are rotatable around a horizontal axis with respect to a mounting member (19) attached to the lower end of the operating shaft (10). However, as shown in FIG. 4, as shown in FIG. 4, the same operation shaft (10) as that of the above-described embodiment (that is, movement operation in the direction of the longitudinal axis (Y) and fixing operation by the movement adjustment mechanism (6)). A single damper (5) can be rotated and fixed around the horizontal axis (X) by the angle adjusting mechanism (7) having an appropriate specific structure with respect to the lower end of the shaft that enables the above). You may make it attach in the state which enabled it (namely, the state which enabled the change operation of the inclination angle).

FIG. 4 shows a state in which the damper (5) is pulled up to the limit position in the inclined posture shown in the figure by the upward movement of the operation shaft (10) by the movement adjusting mechanism (6). The tilting angle of the damper (5) is changed from the tilted position shown in the figure to the horizontal position by a rotation operation about the horizontal axis (X) by the angle adjusting mechanism (7).
By moving the operation shaft (10) downward by the movement adjusting mechanism (6), the damper (5) is moved downward while maintaining the illustrated inclined posture, and furthermore, the operation shaft by the movement adjusting mechanism (6). With the damper (5) moved downward by the downward movement operation of (10), the angle adjusting mechanism (7)
It is possible to change the inclination angle of the damper (5) to the horizontal posture side or the steeply inclined side from the illustrated inclined posture by the rotation operation around the horizontal axis (X) by the same manner as in the previous embodiment. is there.

In the above-described embodiment, the air supply flow path (1) is formed by the air blowing tube (2). However, the air supply flow path (1) is formed by using a part of the earthquake-resistant wall or the partition. You may.

The configuration of the downward outlet (4) and the formation position, shape, and number of the lateral outlet (3) can be variously changed.

In short, any flow path structure can be used as long as the air supplied to the air supply flow path (1) can be blown out from the downward blowout port (4) or the horizontal blowout port (3) to a predetermined air conditioning area. Good.

In the above-described embodiment, the movement adjusting mechanism (6) and the angle adjusting mechanism (7) are operated by one operating shaft (10), and the structure is simplified by eliminating the number of parts by this dual use. However, as a specific structure of the movement adjusting mechanism (6) and the angle adjusting mechanism (7), a configuration in which these mechanisms (6) and (7) are operated by different operating tools may be adopted. A configuration in which the operation is performed using an actuator such as a motor or a cylinder may be employed.

Note that, in the claims, reference numerals are written for convenience of the drawings, but the present invention is not limited to the structure of the attached drawings by the entry.

[Brief description of the drawings]

1 to 3 show an embodiment of an air blower for air conditioning according to the present invention. FIG. 1 is a longitudinal sectional front view of a main part, FIG. 2 is a view taken along the line II-II of FIG. FIG. 3 is a schematic front view of the equipment. FIG. 4 is a schematic vertical sectional front view showing another embodiment, and FIG.
The figure is a schematic vertical sectional front view showing a conventional air blower for air conditioning. (1) Air supply channel (4) Channel outlet (5)
... A damper, (6) a movement adjusting mechanism, (7) an angle adjusting mechanism.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Shig Okamoto 2-6-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo In-house Co., Ltd. (72) Inventor Shiro Odawara 2-6-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo Oki Co., Ltd.

Claims (3)

(57) [Claims] 1. An air-conditioning air blower provided with a damper (5) at a flow path outlet (4) of an air supply flow path (1), wherein the attitude of the damper (5) is changed by rotation. An angle adjusting mechanism (7) for changing an inclination angle of the damper (5) with respect to an opening surface of the flow path outlet (4); An air-conditioning air blower provided with a movement adjusting mechanism (6) for moving the flow path outlet (4) in the direction of the center axis of the flow path in a state where the damper portion is present on the lower side. 2. A side wall forming said air supply channel (1) is provided with an outlet (3) for blowing air in a direction perpendicular to a direction of air blowing from said channel outlet (4). The air blower for air conditioning according to claim 1. 3. The flow path outlet (4) wherein the damper (5) is provided.
The air blower for air conditioning according to claim 1 or 2, wherein the air blower is configured to be rotatable around the center axis of the flow path in (1).