JPH0138434Y2 - - Google Patents

Description

[Detailed description of the invention] [Technical field of the invention] This invention relates to an improvement of an air conditioner installed inside the ceiling.

[Prior art]

Conventionally, this type of air conditioner has been constructed as shown in FIG. That is, in Fig. 1, 1 is a box-shaped main body installed in the ceiling (A), 2 has a service panel 3 in the center as shown in Fig. 2, and suction ports 4, 4 on both sides thereof. and a ceiling exposed panel sequentially having air outlets 5, 5; 6 is a louver device provided at the air outlets 5, 5 to adjust the air flow of the blown air;
Reference numeral 7 denotes a blower consisting of a Sirotskov fan fixed to one side of the upper part of the main body 1 via a blower stand 8, and its blowing surface 7a has a predetermined angle (θ ₁ ) with respect to the upper wall 1a of the main body 1. The scroll portion 7b of the fan casing is arranged inside the main body 1. Reference numeral 9 denotes a partition plate attached to one end of the blower stand 8, which, together with the blower stand 8, divides the inner upper part of the main body 1 into a suction side passage 10 and an outlet side passage 11. A heat exchanger 12 faces the blowing surface 7a of the blower 7 on the blowing side passage 11 side and is fixed to the main body 1 via the mounting plate 13, and its suction surface 12a is connected to the upper wall 1a of the main body 1. , has a predetermined angle (θ ₂ ). Therefore, the blowing surface 7a of the blower 7 and the heat exchanger 1
The suction surface 12a of No. 2 is arranged at a predetermined angle (θ ₃ ), for example, 50° to 90°. 14,1
5 is the cold/hot water inlet and outlet of the heat exchanger 12, 16
is provided below the heat exchanger 12, and the discharge port 16a
17 is a blower stand 8 and a heat exchanger 1.
A shielding plate 18 that shields the space between the lower end of the heat exchanger 12 and the lower end of the heat exchanger 12, and prevents the air blown from the blower 7 from bypassing.
2 is a chamber block molded separately from the main body 1, and this chamber block is constructed as shown in FIG. In the same figure, reference numeral 19 denotes an upper block molded from a foamed resin such as styrofoam, which has an outer wall 20 of a predetermined height on its periphery, and has a through hole 21 in the center.
An inner wall 22 having the same height as the outer wall 20 is provided on the periphery of the inner wall 1 , and an air passage 23 is formed around the through hole 21 by the inner and outer walls 20 and 22 . Further, the block 19 has an air inlet 24 in an elongated shape that projects upward, and a communication passage 25 that communicates the air inlet 24 with the air passage 23 on one side of the through hole 21. 26 is the lower block,
Unlike the upper block, it is molded from sheet metal and covers the air passage 23 of the upper block 19, with an air inlet 27 equivalent to the through hole 21 of the upper block 19 in the center, and air passages 23 on both sides. It has an air outlet 28 that communicates with the upper and lower blocks 1.
When assembling the chamber blocks 9 and 26, the chamber block is assembled as shown in FIG. 4 by inserting the mounting screws 31 into the screw holes 29 and 30 of each block 19 and 26. As shown in FIG. 1, this chamber block 18 is moved vertically through a sealing material 32 to the outlet of the outlet side passage 11 formed by the partition plate 9 and the main body 1, using the peripheral wall of the air inlet 24 as a guide. Slidably mounted. Therefore, the through hole 21 of the chamber block 18 and the air inlet 27
A suction chamber (C) is formed therein, and the air blown from the blow-off side passage 11 flows through an air inlet 24, a communication passage 25, and each air passage 2 as shown by arrows in FIG.
3. A series of blowout chambers leading to the air outlet 28 (D)
is formed. 33 is a filter installed in the suction chamber (C). Next, the mounting structure of the exposed ceiling panel 2 will be explained. In FIG. 5, the connecting plate 34 of the exposed ceiling panel 2 is provided with a screw hole 35 for connecting with the lower block 26 of the chamber block 18 and a relief hole 36 for connecting the lower block 26 with the main body 1. When this ceiling exposed panel 2 is connected to the lower block 26, the mounting screws 38 are inserted into the screw holes 35 and the nuts 37 fixed to the lower block 26, and when assembled together, the blowing chamber (D ) and the air outlets 5,5 communicate with each other. After installing this assembly into the outlet of the air outlet passage 11 as described above, the chamber block 18 is inserted into the relief hole 36 of the exposed ceiling panel 2, the screw hole 39 of the lower block 26, and the nut 40 fixed to the side of the main body. A long adjustment screw 41 is inserted and assembled together. With this structure, maintenance of the filter 33 requires opening the service panel 3 wide and pulling the filter 33 directly below the suction chamber (C) to take it out. In other words, this type of ceiling-embedded air conditioner is different from floor-standing type air conditioners placed near the wall of the room or ceiling-mounted type air conditioners, which are installed modularly vertically and horizontally in the center of the room. is common. Especially in tenant buildings, rooms are economically divided according to the building strength of the building.
Furthermore, a method is generally used in which partitions are further divided into smaller sections using partitions. However, the way the divisions are divided will change depending on your needs.
It is necessary to install in advance an air conditioner that matches the heating and cooling load of the minimum compartment, but in the case of an air conditioner equipped with two air outlets and two suction ports as shown in the conventional example, If air conditioners with the same output are installed in locations where the center is separated by partitions, the number of units to be installed can be cut in half, and ancillary construction costs can be significantly reduced. However, even if the material area of the filter is increased to increase the amount of dust collected, maintenance (cleaning) must be performed on the filter, and the partition must be removed each time, making it impractical. Lacking.

[Summary of the idea]

This idea divides the service panel into two parts, one panel is fixed, and the other is a rotatable panel with a crank bend, so that the filter can be taken out diagonally, so that when the partition is installed, You can maintain the filter without having to remove the partition each time.
Furthermore, even when a partition is not installed, the above-mentioned drawbacks are removed by crank-bending one end of the rotatable service panel so that it overlaps the upper surface of one end of the fixed panel.

[Example of idea]

An embodiment of this invention will be described below based on the drawings. In FIG. 6, 41 is a service panel that is removable and has a bent portion that rests on the fixed panel 42 during installation, and 42 is a fixed panel 43 that is locked to the ceiling exposed panel 2. Special screws 44 are pins that support the other side of the service panel 41 and are inserted into and fixed to the connection plates 34 at both ends of the exposed ceiling panel 2, respectively. Reference numeral 45 denotes a filter in which filter media are accumulated in the shape of an elongated box, and the bottom part is provided with a mounting piece that also serves as a handle. 46 connects the filter 45 to the main body 1.
This filter case is to be stored diagonally relative to the chamber block 18, and is secured to the lower block 26 of the chamber block 18 with screws (not shown). 47 is a mounting screw for housing and fixing the filter 45 in the filter case 46. Reference numeral 48 designates spring guides that are welded or screwed to the inner surfaces of both side plates of the filter case 46.

[Effect of idea]

When installing the partition (B) of an air conditioner configured in this way, the inside of the machine cannot be seen from the partition (B), and maintenance of the filter 45 is carried out by lifting the air conditioner to the suction port 4 side of the service panel 41. By removing the part from the side pull pin 44, the part rotates downward and the service panel 41 can be removed. Next, attach the mounting screw 4 at the bottom of the filter 45.
7 and take out the filter 45 diagonally F toward the suction port side of the service panel 41, the filter 45 can be removed without removing the partition.
5 maintenance can be carried out, and when the partition (B) is not installed, one end of the service panel 41 is bent by a crank so that it overlaps the top of the fixed panel 42 of the exposed ceiling panel 2, making it directly visible from the living area. Moreover, it has the effect of looking good in terms of design.

[Brief explanation of the drawing]

Figure 1 is a longitudinal sectional view of a conventional air conditioner, Figure 2 is a perspective view of the exposed ceiling panel, and Figures 3 to 5.
The figure is a partially exploded view to explain the operation of this type of air conditioner, Figure 6 is a vertical sectional view showing one embodiment of the present invention, and Figure 7 is a perspective view of the exposed ceiling panel from below. It is a diagram. Note that the same reference numerals in the figures indicate the same or corresponding parts. In the figure, 1 is the main body, 2 is the exposed ceiling panel, 7 is the blower, 9 is the partition plate, 10 is the suction side passage, 11 is the blowout side passage, 12 is the heat exchanger, 18 is the chamber block, 33 is the filter, and 41 is the service. panel, 4
2 is a fixed panel.

Claims (1)

[Scope of utility model registration request] A main body installed in the ceiling, a partition plate that divides the upper part of the main body into a suction side passage and an outlet side passage, a blower housed in the above suction side passage, a heat exchanger housed in the above mentioned outlet side passage, the center A suction chamber that communicates with the suction side passage and an air outlet chamber that communicates with the outlet side passage and are formed around the suction chamber are integrally formed in the lower part of the main body. a chamber block mounted thereon; a ceiling exposed panel having a suction port in the center so as to communicate with the suction chamber; and an air outlet formed around the suction port and communicating with the air outlet chamber; In an air conditioner equipped with a suction filter installed in a penetrating manner and a filter case that houses the filter, the service panel of the exposed ceiling panel is divided into two parts, a fixed panel and a rotatable panel, so that the service panel can be freely rotated. A ceiling-embedded air conditioner characterized in that one end of the panel overlaps the upper surface of one end of the fixed panel.