JPS5995330A - Multi-direction blow-off type air-conditioner - Google Patents

Abstract

PURPOSE:To distribute ventilating air to blow-off ports at the sides of different directions simultaneously by a method wherein partitioning plates or air direction regulating plates are arranged at the intermediate part of a heat exchanging coil to divide the inside of the frame for the conditioner. CONSTITUTION:The partitioning or air direction regulating plates 8 are arranged at the intermediate part of the heat exchanging coils 2, 2 arranged opposingly so as to be located at a predetermined position with a predetermined angle in accordance with the arrangement and the condition of the room 8. According to this method, the inside of a heat exchanging room is divided into fine triangular divisions by the plates 8 and the ventilating air from the fans 6, 6 of both sides of the main frame 1 is distributed simultaneously to both sides of the room through the blow-off ports 3... 3'... of different directions. When the plate 8 is arranged at the intermediate part of the heat exchanging coils 2, 2 along the axial direction of the main frame 1, the ventilating air from both sides fans 6, 6 is divided into two part in the fore and aft directions of the main frame 1. When the partitioning plate 8 is added in the width direction of the main frame 1, the ventilating air may be distributed into four directions of both sides as well as the fore and aft directions of the main frame 1. When the plate 8 is arranged so as to be slanted to some degree, the air may be distributed into four directions having different blow-off ports 3... 3'... while the three directions air flow may be obtained when the plate 8 is arranged in biased to one side of the main frame 1.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a multi-directional blow-out type 9-adjusting machine,
With a single telescope, it is possible to reliably distribute the air from the blower to each room in different directions, and in particular, it is possible to distribute the air with different amounts of Ii to multiple rooms at the same time. The aim is to provide a ramie preparation machine for the purpose of making noodles.

Previously, was it possible to do multiple rooms at the same time? The means for heating the room are a nine-air system in which hot and cold air generated in the machine room is directly supplied to each room through ducts, and terminal equipment is placed in each room.

A so-called terminal method is known in which air conditioning is carried out by supplying cold and hot water exclusively to each of the bale containers, but in the former case, the cost of transporting multiple units through equipment or coverings is extremely high, and in the latter case, central control is required. In addition to problems arising in this respect, there were also drawbacks such as the constant fear of water leakage. In particular, in cases where there are a number of rooms with different 9-temperature conditions, such as hotels, conference halls, schools, etc., it is extremely difficult and uneconomical to install them using the all-9-temperature method and the terminal method. It is clear.

In view of problems such as slanted ceilings, the present invention can be easily installed in a hallway, for example, and can simultaneously supply desired fiLit cold and hot air to multiple rooms isolated on both sides with a single device. All of the heat exchanger coils are arranged relative to each other on both sides inside the fuselage, and the air outlet of the bottom part is opened outside the heat exchanger coil, and the heat exchanger coils are installed at the same both ends along the length of the fuselage. In an air conditioner in which a blower mechanism is disposed in the air conditioner, a partition plate and an adjustment plate are disposed in the middle of the heat exchanger coils disposed relative to each other to divide the inside of the air conditioner and allow air to be blown from the blower mechanism. Try placing them simultaneously on the same side of the air outlet.
It is characterized by the vlIM system.

Hereinafter, an air conditioner installed in a hallway will be described as an embodiment of the present invention with reference to an illustrative diagram.The air conditioner O) has an elongated machine housing with heat exchanger coils (2) I relatively arranged on both sides of the front and rear inside.
(2) and place the heat exchanger coil (2) l (2)
Multiple cylinder air outlets (3)...(3)' on the outside front of the
... will be established.

In addition, there are ventilation chambers (a) at both longitudinal ends of the fuselage (1),
(a), and the electric motor (5) and blower (6) are placed inside each other, but in some cases, the suction duct <7> and (f) IIIK may be directly connected without installing the blower (6). is also something to consider.

In an air conditioner with a hook structure, a partition plate (8) is installed in the middle of the heat exchanger coils (2) and (2), which are arranged opposite each other, depending on the arrangement conditions of the room, etc. For example, as shown in Figure 1, by arranging it at a diagonal position inside the fuselage, the heat exchanger room can be divided into a partition plate and an air volume adjustment plate (8). It is divided into two halves in the shape of a cat's rectangle, so that the shape (1), the blowers (6) on both sides, and the air blowers (61 and 61) are mutually anisotropic.
3)... (3)'... Air will be distributed simultaneously into both sides of the room via the partition plate lij
Wind adjustment plate (8) Gold heat exchanger coil (2) + (2)
By disposing the body (1) in the longitudinal direction, that is, in the axial direction, as shown in the second figure, in the middle part of both (11Q blower (6)
, (6) The air from the side is distributed to the front and back of the body (1) at the same time, and by arranging it across the width of the body (1) as shown in the third figure, the body (1) ), and by arranging them in a slightly inclined manner as shown in Figure 4, the air distribution between the four directions with different numbers of air outlets (3)...(3)... As shown in Figure 5, by tilting the fuselage (1) toward the -blade side, it is possible to easily determine the divided distribution of air flow that is suitable for each room on three sides. .

Further, although a plane plate is usually used as the partition plate/adjustment plate (8), a modified plate such as a curved plate having a circularly curved surface or a bent plate having a constant angle may be used depending on the ηb fluid.

Furthermore, depending on the length of the fuselage (1), air blowing capacity, etc., a better wind direction adjustment force can be obtained by installing a wind flow adjustment guide plate (9) on the floor at an appropriate location inside the fuselage. It is.

In addition, the symbols) indicate each air outlet (3)...(3)'...
・Indicates the air volume adjustment equipment that can be installed inside.

As described above, an air conditioner that can perform one operation is installed in the ceiling of a hallway, etc. or between multiple rooms (4), or air is blown by the operation of a tact distribution heel blower (6) % (6) for each window, etc. The partition plate and pulse adjustment plate (8) inside the aircraft divides the air into the desired skin distribution force simultaneously in each cabin via each air outlet (3)'. ; it is done.

The present invention is significant in that the ideal air conditioning distribution according to the feeding capacity in each room can be easily obtained with a single air conditioner, and in particular, It has the advantage of being able to select the capacity arbitrarily even in cases where the sunlight conditions are different. By simply shutting down the air conditioner, the supply of cooling/heating air conditioner is immediately cut off, and the power consumption can be reduced to an extremely low level.

[Brief explanation of the drawing]

Fig. 1 is a plan view showing the internal mechanism of a multi-directional air conditioner according to the present invention; Fig. 21 is a schematic plan view of a two-way air conditioner as an embodiment of the above; FIG. 4 is the same diagram as above of the same blow-out mold, FIG. 4 is the same diagram as above of the anisotropic blow-out mold, and FIG. Explanation of symbols (1) Airframe, A] Heat exchanger coil, (3) Air outlet, (4
) Air supply chamber, (6) Electric motor, (6) Air blower, (7) Suction duct, Trunk) Partition plate and wind direction adjustment plate, (9) Air flow adjustment guide plate, (Ni) Wind direction adjustment device. Patent applicant

Claims (1)

[Claims] θ) Heat exchanger coils are arranged relative to each other on both sides inside the fuselage,
In addition, several air outlets are fully opened in the WIS outside the heat exchanger coil, and air is sent to both ends of the length of the fuselage. Ii1.
In a nitrogen regulator equipped with a mechanism, there is a partition plate and air volume installed in the middle of the heat exchanger coils arranged relative to each other. This multi-directional air conditioner is characterized in that the inside of the aircraft is divided by disposing A-straight plates so that the air from the blower mechanism can be distributed to anisotropic and simultaneous air outlets at the same time. Machine. Q) A patent characterized in that the partition plate and wind direction adjusting plate is disposed diagonally inside the fuselage to distribute air simultaneously in the front and rear directions of the fuselage; the multi-directional same blowout type described in box item θ) Nitrogen tone, pale. (d) The partition plate and the airflow adjusting plate are disposed in the axial direction inside the fuselage, so that the air distribution is simultaneously distributed in the longitudinal direction of the fuselage. Multi-directional air conditioner. (4) Scope No. 0 of the patent claim, characterized in that the partition plate and windless adjustment plate are disposed throughout the width of the interior of the aircraft body, and air is simultaneously distributed to each of the four directions in the front and rear of the aircraft body. The multi-directional air conditioner described in Section 1. (F) The partition plate and wind direction adjusting plate is arranged at an appropriate inclination angle in the middle of the heat exchanger coil, and the air is distributed in three directions in the front and back of the aircraft body or in four directions around the sides of the aircraft. A multi-directional, same-blow air conditioner according to claim θ).