JPH083867Y2 - Air conditioning nozzle - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to an air conditioning nozzle, and more particularly to an air conditioning nozzle capable of varying the air blowing direction.

[Conventional technology]

Generally, in order to maintain comfort in pneumatic equipment,
It is necessary to adjust the air-conditioning nozzle that opens in the room to optimize the wind direction.

That is, since the density of blown air becomes high (heavy) during cooling, cold air tends to accumulate on the floor, and the blowing direction must be directed to the ceiling side, while the density of blown air is low during heating. Since it becomes (lighter), warm air stays on the ceiling, and to prevent this, the blowing direction must be toward the floor.

In many cases, the wind direction is controlled by manually changing the angle of a plate-shaped vane provided at the air outlet, but there is a method that uses a bellows sensor to automate this. The bellows sensor is a bellows-like actuator in which gas is enclosed, and expands and contracts according to changes in the outside air, so that the expanding and contracting force can drive the movable vane.

[Problems to be solved by the device]

However, since the bellows sensor is expensive, the cost of the air conditioning nozzle is high.

Further, since the bellows sensor has a tubular shape, it may become a resistance when built in the air conditioning nozzle.

The present invention has been made in view of the above matters, and it is a technical object to provide an air conditioning nozzle in which movable vanes are automatically operated in accordance with temperature and which can be constructed at low cost.

[Means for solving the problem]

The present invention has the following configuration in order to solve the technical problem.

That is, while arranging the plate-shaped fixed vanes in the air blowing portion, the plate-shaped movable vanes are pivotally attached to the downstream end of the fixed vanes so that the movable vanes are swingable, and the fixed vanes are provided on the surface in the vicinity of the downstream end. One end of the plate-shaped bimetal is fixed and the other end is fixedly attached to the surface of the movable vane. This bimetal tilts the tip of the movable vane vertically downward when the temperature of the passing air is higher than a predetermined value. On the other hand, when the temperature of the passing air is lower than a predetermined value, the tip of the movable vane is bent so as to vertically incline so that the air conditioning nozzle is formed.

It is desirable that the bimetal be displaced at about 20 ° C.

[Action]

When the temperature of the passing air is lower than a predetermined value, that is, during cooling, the bimetal drives the tip of the movable vane in a direction in which the tip of the movable vane is tilted vertically upward to guide the cool air to the ceiling side.

On the other hand, when the temperature of the passing air is higher than a predetermined value, that is, during heating, the tip of the movable vane is tilted vertically downward to guide warm air to the floor.

Since the bimetal is plate-shaped, there is no risk of disturbing the internal air and no risk of pressure loss.

〔Example〕

An embodiment of the present invention will be described with reference to FIGS.

The air blowing portion 1 has a rectangular tubular shape, and four fixed vanes 2 formed in a plate shape are arranged inside. The fixed vanes 2 are provided parallel to the airflow F so as not to obstruct the airflow F. At the downstream end of the fixed vane 2, a plate-shaped movable vane 3 is fixed by a shaft 10.
The movable vane 3 is swingable.

The movable vane 3 is connected to the fixed vane 2 by fixing the other end of a plate-shaped bimetal whose one end is fixed to the surface near the downstream end of the fixed vane 2 to the surface of the movable vane 3. That is, the bimetal 4 has a semicircular curved portion 4a formed in the central portion of the plate body so as to escape the shaft 10, and both end portions of the bimetal 4 serve as the movable vane 3 and the fixed vane 2, respectively. It is fixed. Bimetal 4
Indicates that the non-fixed end (the side connected to the movable vane 3) bends vertically downward when the temperature of the passing air is higher than a predetermined value, and conversely, the temperature of the passing air is lower than the predetermined value. It is sometimes configured to bend vertically upward.

Hereinafter, an operation example will be described. First, when the temperature of the passing air is lower than a predetermined value, that is, when cooling, the upper surface of the bimetal 4 contracts and the lower surface extends, so that the tips of the movable vanes 3 face upward (vertically upward). Therefore, the cold air is guided to the ceiling side.

On the other hand, when the temperature of the passing air is higher than a predetermined value, that is, when heating, the upper surface of the bimetal 4 expands and the lower surface contracts, so the tip of the movable vane 3 tilts downward (vertically downward), and the warm air flows toward the floor. Be induced.

Since the bimetal is plate-shaped, there is no risk of disturbing the internal air and no risk of pressure loss. Moreover, since the bimetal 4 is exposed in the air blowing portion 1, the response is good and quick control is possible.

[Effect of device]

According to the present invention, since the movable vane provided in the air outlet and controlling the wind direction is connected to the fixed vane by the plate-shaped bimetal, the conditioned air blown out from the air outlet has a very simple structure. The orientation can be automatically changed according to the above, and since the bimetal arranged in the blowing passage is plate-shaped, there is no fear of disturbing the internal air. Further, since the bimetal is used, it can be manufactured at a lower cost than the one using the bellows sensor. Moreover, since the bimetal is plate-shaped, there is no risk of disturbing the internal air and no risk of pressure loss.

[Brief description of drawings]

1 to 3 show an embodiment of the present invention, FIG. 1 is a partially cutaway perspective view, and FIG. 2 is a side view showing an internal structure.
FIG. 3 is a plan view showing the internal structure. 1 ... Air blowout part, 2 ... Fixed vane, 3 ... Movable vane, 4 ... Bimetal.

Claims (1)

[Scope of utility model registration request] 1. A plate-shaped fixed vane is arranged in an air blowing part, and a plate-shaped movable vane is pivotally attached to a downstream side end of the fixed vane so as to be swingable, and near the downstream side end of the fixed vane. One end of a plate-shaped bimetal is fixed to the surface of the movable vane and the other end is fixed to the surface of the movable vane. When the temperature of the passing air is higher than a predetermined value, the bimetal vertically lowers the tip of the movable vane. The air-conditioning nozzle is configured to bend so as to tilt in a direction, and on the other hand, when the temperature of the passing air is lower than a predetermined value, to bend the tip of the movable vane so as to tilt vertically.