JP7369537B2 - Fan coil unit and desk - Google Patents

Description

The present invention relates to a fan coil unit and a desk.

Techniques for forming an air conditioner integrally with a desk have been disclosed (for example, Patent Documents 1 and 2).

Utility Model Publication No. 53-78076 Japanese Patent Application Publication No. 2018-040514

When forming an air conditioner integrally with a desk, it is conceivable to determine the specifications of the desk and air conditioner before forming the air conditioner. For example, it is possible to select a desk that can be formed integrally with an air conditioner, or to customize the parts that form the air conditioner to match the size of the desk.

However, when selecting a desk that can be formed integrally with an air conditioner, the degree of freedom in selecting the desk may be limited. Furthermore, when customizing the parts that make up the air conditioner according to the size of the desk, initial costs may increase. Furthermore, once the air conditioner is integrated with the desk, it may be difficult to flexibly respond to changes in the specifications of the desk or the air conditioner.

Furthermore, since the air conditioner has a predetermined weight, changing the layout of the air conditioner is considered to be complicated. Moreover, when performing maintenance of the air conditioner after forming the air conditioner integrally with the desk, the maintenance of the air conditioner may become complicated. In other words, if the air conditioner is installed integrally with the desk, handling of the air conditioner will be complicated.

Therefore, an object of the present application is to provide a technology related to an air conditioner that is of a desk-mounted type and is easy to handle.

In order to solve the above problems, the present invention has decided to retrofit a fan coil unit to the outside of the desk.

Specifically, the present invention provides a fan coil unit that is retrofitted to the back side of a desk top so that the air outlet opens toward the front of the desk, and includes a fan that sucks in air and blows out air; The duct that guides the air blown from the fan to the outlet and the space inside the duct where the air blown from the fan advances to the outlet are narrowed in the direction of movement, exchanging heat with the air existing in the space. A fan coil unit including a plate-shaped coil.

According to such a fan coil unit, air blown out from the fan exchanges heat with the coil. Therefore, like an air conditioner formed integrally with the desk, temperature-controlled blown air is supplied to the seated person.

In addition, according to such a fan coil unit, even if the specifications of the fan coil unit or the desk are changed after the fan coil unit is installed on the desk, the fan coil unit can be removed and the specifications changed. It can be easily handled. Moreover, according to such a fan coil unit, since it is formed from a fan and a coil, it has a simple structure. Therefore, the weight of the fan coil unit is reduced, and the layout of the fan coil unit can be easily changed. Moreover, according to such a fan coil unit, maintenance can be easily performed by removing it from the desk. In other words, such a fan coil unit is easy to handle.

Moreover, according to such a fan coil unit, since it is retrofitted to the outside of the desk, there is no need for the desk to have a space for accommodating the fan coil unit, and the degree of freedom in selecting a desk is improved. Furthermore, since such a fan coil unit is retrofitted to a desk, there is no need to customize the parts forming the fan coil unit to match the desk. Therefore, initial costs are suppressed.

Moreover, according to such a fan coil unit, the fan is installed on the back side when viewed from the seated person. Therefore, the degree to which the seated person feels the operating noise of the fan is reduced. Further, a location on the back side when viewed from the seated person is a location where the legs of the seated person are less likely to come into contact with each other when the seated person is seated, compared to a location on the near side of the seated person. Therefore, even if a large fan is provided at the location, when the seated person is seated, the legs of the seated person are prevented from hitting the accommodating portion that accommodates the fan. In other words, by installing a large-sized fan, the output of the fan is suppressed and the operating noise of the fan is reduced.

Moreover, according to such a fan coil unit, the space in the duct through which the air blown out from the fan advances toward the outlet is narrowed in the direction of travel by the coil. Therefore, the blown air flows smoothly through the space and uniformly exchanges heat with the coil. Therefore, a decrease in the efficiency of heat exchange between the blown air and the coil is suppressed, and a pressure loss of the blown air is also suppressed.

In addition, the fan blows air toward the back of the desk top, and one side of the plate-shaped coil is a space inside the duct where the air that is blown from the fan and hits the top of the duct advances to the outlet. The fan coil unit may be provided at a predetermined angle with respect to the traveling direction so that the fan coil unit narrows in the traveling direction.

According to such a fan coil unit, the space in the duct through which air blown from the fan advances toward the outlet is narrowed in the direction of travel by the coil. Therefore, the blown air flows smoothly through the space and uniformly exchanges heat with the coil. Therefore, a decrease in the efficiency of heat exchange between the blown air and the coil is suppressed, and a pressure loss of the blown air is also suppressed.

Further, the fan may be installed in a direction opposite to the direction in which the air outlet opens, on the back side when viewed from the air outlet, so that the surface from which air is blown out is placed on the back.

According to such a fan coil unit, the fan is installed at a location away from the position where the seated person is seated. Therefore, when a seated person is seated, the degree to which the operating sound of the fan is felt is reduced. Therefore, the discomfort felt by the seated person is reduced. Further, according to such a fan coil unit, since the fan is installed on the back, it is possible to reduce the thickness of the accommodating portion that accommodates the fan. Therefore, when the seated person is seated, contact of a part of the seated person's body with the accommodation portion is reduced.

In addition, the duct has a rectangular shape, is arranged closer to the outlet than the first duct, communicates with the first duct, and has a bottom portion facing the bottom surface of the first duct. and a second duct provided in the shape of a step toward the back surface of the desk top, and the portion forming the step may be a fan coil unit including a predetermined inclined surface.

According to such a fan coil unit, the second duct can be made thinner while ensuring a passage area for the blown air. Therefore, although the air is suitably supplied to the seated person, the legs of the seated person are prevented from coming into contact with the conduit, which causes discomfort to the seated person. Moreover, since the step has a predetermined slope, the blown air that has passed through the gap between the flow tubes forming the coil naturally advances along the slope toward the seating side of the seated person. Therefore, pressure loss when the blown air passes through the stepped portion is suppressed.

Further, the cross-sectional size of the second duct is smaller than the cross-sectional size of the first duct in the direction from the place where the fan is installed to the seating side of the seated person. Therefore, the flow velocity of the air blown out from the fan increases when it enters the second duct. Therefore, when an air supply port is provided at the end of the second duct on the seating side of the seated person, air is supplied with suitable force toward the seated person from the air supply port.

Further, the present invention may be a desk including a top plate and any one of the fan coil units described above that is retrofitted to the back surface of the top plate.

According to the present invention, it is possible to provide a technology related to an air conditioner that is a desk-mounted air conditioner and is easy to handle.

FIG. 1 shows an example of an outline of the configuration of an air conditioner according to an embodiment. (A) shows an example of an outline of a top view of an air conditioner. (B) shows an example of an outline of a cross-sectional view of an air conditioner. FIG. 2 shows an example of a flowchart of the operation of the air conditioner. FIG. 3 shows an example of an overview when the air conditioner is operating. FIG. 4 shows an example of an outline of an air conditioner. (A) shows an example of an outline of a cross-sectional view of an air conditioner. (B) shows an example of a perspective view of an air conditioner. FIG. 5 shows an example of a schematic cross-sectional view of an air conditioner.

Embodiments of the present invention will be described below. The embodiment shown below is an example of the embodiment of the present invention, and the technical scope of the present invention is not limited to the following aspects.

FIG. 1 shows an example of an outline of the configuration of an air conditioner 1 according to the present embodiment. FIG. 1(A) shows an example of an outline of a top view of the air conditioner 1. FIG. 1(B) shows an example of an outline of a cross-sectional view of the air conditioner 1. Here, the air conditioner 1 is an example of the "fan coil unit" of the present invention.

As shown in FIG. 1, the air conditioner 1 is retrofitted to the back surface of the top plate 101 of the desk 100. The air conditioner 1 includes a duct 2. The duct 2 is provided with a hole through which a screw passes, and the duct 2 is fixed by being engaged with a hole provided at a predetermined position on the back surface of the top plate 101 of the desk 100.

The air conditioner 1 also includes two fans 3. As shown in FIG. 1, the duct 2 includes a housing section 4 that houses the fan 3. Here, the housing section 4 is an example of the "first duct" of the present invention. The fan 3 blows air toward the back surface of the top plate 101.
00 are placed side by side in the horizontal direction. Further, the fan 3 may be a so-called DC fan in which blades provided in the fan 3 are rotated by applying a direct current to a motor provided inside the fan 3, for example.

Furthermore, the air conditioner 1 includes a suction port 41 in the housing portion 4 that sucks air from the outside when the fan 3 operates. The suction port 41 is provided in the housing section 4 at the bottom of the fan 3. Further, when the air conditioner 1 is retrofitted to the back surface of the top plate 101 of the desk 100, the suction port 41 will be located on the side of the curtain plate 102 of the desk 100. By providing the suction port 41 and the fan 3 in this manner, the housing portion 4 can be made thinner while having a simple structure. Moreover, by arranging the fans 3 in the horizontal direction, the thickness of the accommodating part 4 can be reduced, but the amount of air blown out can be increased.

The air conditioner 1 also includes a coil 7. The coil 7 has a plate shape and is formed from a flow tube member 71 that meanders in a planar manner. A predetermined heat medium passes through the flow tube member 71 . That is, the predetermined heat medium and the air blown from the fan 3 exchange heat via the flow tube member 71. Here, the predetermined heat medium may be, for example, cold water or hot water supplied from an external device. Further, the coil 7 is placed on its back so that the outer surface 72 of the planar meandering flow tube member 71 faces the direction in which the fan 3 is installed. In other words, the coil 7 is not installed vertically with respect to a horizontal surface in order to exchange heat with the air blown out from the fan 3. Therefore, the housing portion 4 is made thinner.

The duct 2 of the air conditioner 1 also has a rectangular pipe 5 through which the air blown out from the fan 3 and passed through the gap between the flow pipe members 71 of the coils 7 is directed toward the seated person. Be prepared. Here, the accommodating portion 4 and the conduit 5 are in communication. Further, the bottom of the conduit 5 is provided in a stepped manner in the direction of the back surface of the top plate 101 of the desk 100 with respect to the bottom surface of the accommodating portion 4 . Further, the duct 2 includes an inclined surface 6 at the stepped portion. Here, the conduit 5 is an example of the "second duct" of the present invention.

The air conditioner 1 also includes a blowout face 19 at the lower part of the tip of the desk 100 on the side of the conduit 5 where the seated person is seated. The blowing face 19 includes an air supply port 20 in which a plurality of small holes are arranged horizontally. The blown air that has passed through the pipe 5 is supplied to the seated person via the air supply port 20. Here, the blowing face 19 is installed in an inclined state with respect to a horizontal plane, and the air blown out from the air supply port 20 travels obliquely upward toward the upper body of the seated person.

Furthermore, the air conditioner 1 includes a substrate 10 . A control chip 11 that is electrically connected to the fan 3 and controls the operation of the fan 3 is mounted on the mounting surface of the board 10 . Further, the mounting surface of the board 10 is provided with a wireless module 12 that can perform wireless communication with an external terminal.

Further, regarding the dimensions of each part of the duct 2, the length of the conduit 5 in the depth direction as seen from the seated person is, for example, about 380 mm. Further, the thickness of the conduit 5 is, for example, about 20 mm. Further, the total length in the depth direction of the accommodating portion 4 and the stepped portion where the accommodating portion 4 and the conduit 5 communicate with each other is, for example, about 270 mm as viewed from the seated person. Further, the thickness of the accommodating portion 4 is, for example, about 80 mm. Further, the length in the vertical direction of the air supply port 20 provided on the blowing face 19 is, for example, about 5 mm.

FIG. 2 shows an example of a flowchart of the operation of the air conditioner 1. Moreover, FIG. 3 shows an example of an outline when the air conditioner 1 is operating. In addition, in the following example, the predetermined heat medium is cold water, the air blown out from the fan 3 is cooled when it passes through the coil 7, and the cooled cold air is supplied to the seated person. shall be.

In step S101, the wireless module 12 receives an operation request signal requesting operation of the air conditioner 1 from a terminal such as a smartphone owned by the seated person (S101). Then, in step S102, the wireless module 12 transfers the operation request signal to the control chip 11 (S102).

Then, in step S103, the control chip 11 generates a control signal to rotate the blades of the fan 3 according to the operation request signal. Therefore, the blades of the fan 3 will rotate. As the blades of the fan 3 rotate, air is sucked into the fan 3 from the leg space of the seated person through the suction port 41. Then, air is blown out from the air outlet 9 of the fan 3 in the direction in which the seated person is seated (S103). Here, it is assumed that cold water that absorbs heat from the flow tube member 71 is passing through the flow tube member 71 of the coil 7 . Here, the cold water flows into the flow tube member 71 from an inlet provided in the flow tube member 71 that forms the lower part of the coil 7 (the portion located near the bottom surface of the accommodating portion 4 in FIG. 1(B)). Then, while exchanging heat with the air blown out from the fan 3, it flows into the flow tube member 71 that forms the upper part of the coil 7 (the part located near the top surface of the housing section 4 in FIG. 1(B)). . The cold water then flows out from the outlet provided in the flow tube member 71 forming the upper part of the coil 7. That is, the temperature of the cold water flowing inside the flow tube member 71 forming the lower part of the coil 7 is low, and the temperature of the cold water increases as it goes upwards of the coil 7.

Here, at least a portion of the air blown from the fan 3 hits the back surface of the top plate 101 and then travels along the outer surface 72 of the coil 7. Therefore, the blown air uniformly exchanges heat with the coil 7 and is cooled. Moreover, since the space in the direction of movement of the blown air is gradually blocked by the outer surface 72, the flow of the blown air becomes smooth. Therefore, the pressure loss of the blown air is suppressed. Moreover, the cooled blown air passes through the gaps between the flow tube members 71.

Then, the blown air that has passed through the gap between the flow tube members 71 reaches the stepped portion where the storage portion 4 and the pipe line 5 communicate with each other. Here, an inclined surface 6 is provided at the stepped portion. Therefore, the blown air that has reached the stepped portion naturally advances into the pipe line 5 along the inclined surface 6 without waste. Thereafter, the blown air passes through the pipe 5 and is supplied to the seated person via the air supply port 20. Here, the air conditioner 1 may include a rectifying member such as a louver in the air supply port 20 so that the air supplied from the air supply port 20 is adjusted to concentrate on a specific region such as the neck of the seated person.

<Effect>

According to the air conditioner 1 as described above, the air blown out from the fan 3 exchanges heat with the coil 7. Therefore, similarly to the case where an air conditioner is formed integrally with the desk 100, temperature-controlled cold air is supplied to the seated person.

Further, according to the air conditioner 1 described above, even if the specifications of the air conditioner 1 or the desk 100 are changed after the air conditioner 1 is retrofitted to the desk 100, the air conditioner 1 and the desk 100 can be fixed. The air conditioner 1 can be removed from the desk 100 by removing the screws. Then, the air conditioner 1 whose specifications have been changed can be easily fixed to the desk 100 again. In other words, the air conditioner 1 as described above can easily accommodate changes in specifications.

Moreover, since the air conditioner 1 as described above is formed from the fan 3 and the coil 7, it has a simple structure. Therefore, the weight of the air conditioner 1 is reduced, and the layout of the air conditioner 1 can be easily changed. Moreover, according to the air conditioner 1 as described above, it can be removed from the desk 100 and maintenance can be easily performed. In other words, the air conditioner 1 as described above is easy to handle.

Further, according to the air conditioner 1 described above, since it is retrofitted to the back surface of the top plate 101 of the desk 100, there is no need for the desk 100 to have a space for accommodating the air conditioner 1, and the selection of the desk 100 is made easier. Freedom increases. Further, according to the air conditioner 1 as described above, since it is retrofitted to the back surface of the top plate 101 of the desk 100, there is no need to customize the parts forming the air conditioner 1 to match the desk 100. Therefore, initial costs are suppressed.

Moreover, according to the air conditioner 1 as described above, the fan 3 is installed on the back side when viewed from the seated person. Therefore, the degree to which the seated person feels the operating noise of the fan 3 is reduced. Further, a location on the back side when viewed from the seated person is a location where the legs of the seated person are less likely to come into contact with each other when the seated person is seated, compared to a location on the near side of the seated person. Therefore, even if the size of the fan 3 provided at the location is increased, when the seated person is seated, the legs of the seated person are prevented from hitting the lower surface of the accommodating portion 4 that accommodates the fan 3. . In other words, by installing a large-sized fan 3, the output of the fan 3 is suppressed, and the operating noise of the fan 3 is reduced.

Further, according to the air conditioner 1 as described above, the space in which the air blown from the fan 3 advances toward the seating side of the seated person is narrowed in the direction of travel by the outer surface 72 of the coil 7. Therefore, the blown air flows smoothly through the space and uniformly exchanges heat with the coil 7. Therefore, a decrease in the efficiency of heat exchange between the blown air and the coil 7 is suppressed, and furthermore, pressure loss of the blown air is suppressed.

Further, according to the air conditioner 1 as described above, since the outer surface 72 of the coil 7 is placed on the back so as to face the direction in which the fan 3 is installed, the dimension of the coil 7 in the height direction is suppressed. . Therefore, the housing portion 4 of the air conditioner 1 can be made thinner.

Moreover, according to the air conditioner 1 as described above, since the pipe line 5 has a rectangular shape, the pipe line 5 can be made thinner while ensuring a passage area for the blown air. Therefore, while the cool air is suitably supplied to the seated person, the legs of the seated person are prevented from coming into contact with the pipe 5, which causes discomfort to the seated person. In addition, since an inclined surface 6 is attached to the level difference in the communication portion between the storage section 4 and the pipe line 5, the blown air that has passed through the gap between the flow tube members 71 of the coil 7 is directed to the inclined surface 6. The seat will naturally advance along the seat to the seated side of the seated person without waste. Therefore, when the blown air enters the pipe line 5 from the storage section 4, pressure loss due to hitting the step is suppressed.

Further, the cross-sectional size of the conduit 5 is smaller than the cross-sectional size of the accommodating portion 4 in the direction from the place where the fan 3 is installed to the seating side of the seated person. Therefore, the flow velocity of the air blown out from the outlet 9 of the fan 3 increases when it enters the pipe 5. Therefore, air is supplied with suitable force toward the seated person from the air supply port 20 at the end of the conduit 5 on the side where the seated person is seated.

Moreover, according to the air conditioner 1 as described above, air is sucked into the fan 3 from the leg space of the seated person (space below the top plate), and temperature-controlled air is blown out to the seated person. Therefore, when warm air has accumulated in the leg space of the seated person, the warm air can be removed and cool air can be supplied to the seated person. In other words, the air conditioner 1 as described above can provide comfort to the seated person.

<Modification 1>
FIG. 4 shows an example of an outline of the air conditioner 1A. FIG. 4(A) shows an example of a schematic cross-sectional view of the air conditioner 1A. FIG. 4(B) shows an example of a perspective view of the air conditioner 1A. As shown in FIG. 4, the air conditioner 1A is retrofitted to a desk 100A having a reinforcing material 103 on the back surface of the top plate 101. In other words, the reinforcing material 103 is located in the middle of the pipe line 5A of the air conditioner 1A. In the conduit 5A of the air conditioner 1A retrofitted to such a desk 100A, a portion covering the reinforcing material 103 is formed by a flexible joint 8 made of cloth.

<Effect>
According to the air conditioner 1A as described above, while the thinness of the pipe line 5A is maintained, the noise generated when the blades of the fan 3 rotate is absorbed by the flexible joint. Therefore, leakage of the noise to the outside is reduced. Therefore, when the seated person is seated, the degree to which the seated person feels the noise of the fan 3 is reduced. Therefore, the seated person is prevented from feeling uncomfortable due to the noise. Further, since the flexible joint has cushioning properties, even if a part of the seated person's body comes into contact with it, the seated person is less likely to feel uncomfortable. That is, according to the air conditioner 1A as described above, comfort can be provided to the seated person.

<Modification 2>
FIG. 5 shows an example of a schematic cross-sectional view of the air conditioner 1B. As shown in FIG. 5, the air conditioner 1B is a device that does not include the pipe line 5 and has a reduced depth dimension of, for example, about 300 mm (the thickness is, like the air conditioner 1, about 80 mm, for example). According to such an air conditioner 1B, when the air conditioner 1B is retrofitted to the desk 100A having the reinforcing material 103 on the back surface of the top plate 101, the air conditioner 1B can avoid the reinforcing material 103.

Further, the air conditioner 1B includes an air supply port 20A in which a plurality of small holes are arranged horizontally, in the same way as the air supply port 20, at the upper part of the side surface of the seating portion 4 on the seating side. That is, the air that has passed through the gap between the flow tube members 71 of the coil 7 is supplied to the seated person via the air supply port 20A. Moreover, the air blown out from the air supply port 20A travels diagonally upward toward the upper body of the seated person.

Furthermore, the air conditioner 1B includes a guide 21 inside the housing section 4 and near the air supply port 20A. The guide 21 guides the air that has passed through the gap between the flow tube members 71 of the coil 7 to the air supply port 20A. Further, although not shown, the guide 21 is provided with a rotating portion at a connecting portion with the storage portion 4, and is installed so as to be rotatable about the horizontal direction of the desk 100A as a rotation axis. That is, in the air conditioner 1B, by changing the direction of the guide 21, the direction and amount of air that has passed through the gap between the flow pipe members 71 of the coil 7 flowing into the air supply port 20A is adjusted. Therefore, the direction and amount of air blown out from the air supply port 20A are also adjusted. Furthermore, the air conditioner 1B includes an inclined surface 6A on the side surface of the seating portion 4 on the seating side.

<Effect>
Such an air conditioner 1B can provide the same effects as the air conditioner 1. In addition, even when the desk 100A includes the reinforcing material 103, it can be easily installed on the desk 100A without changing the dimensions of the conduit 5 so as to avoid the reinforcing material 103. In addition, in such an air conditioner 1B, since the inclined surface 6A is provided on the side surface of the seating portion 4 on the seating side, when the seated person is seated, a part of the seated person's body may be exposed. Contact with the accommodating portion 4 of the air conditioner 1B is suppressed. In other words, such an air conditioner 1B can provide comfort to the seated person.

Moreover, according to such an air conditioner 1B, by rotating the guide 21, the direction and amount of air blown out from the air supply port 20A can be adjusted. In other words, such an air conditioner 1B is a device that can flexibly respond to the needs of the seated person, such as the direction of air supply, the amount of air supply, and the part of the body that is hit by the supplied air.

<Other variations>
In the above embodiment, the fan 3 is installed so that the air blown out faces the back surface of the top plate 101. The flow tube member 71 is placed on its back so that the outer surface 72 faces the direction in which the fan 3 is installed. However, the air outlet 9 of the fan 3 does not need to face the back surface of the top plate 101. Moreover, the outer surface 72 does not have to be provided on the back so as to face the direction in which the fan 3 is installed. For example, the air outlet 9 of the fan 3 is provided to face the side of the desk top 101, and the outer surface 72 of the coil 7 defines a space in the traveling direction of the air blown out from the fan 3 when viewed from the fan 3. They may be provided at a predetermined angle so as to narrow.

Further, in the above embodiment, the bottom of the conduit 5 is provided in a step shape in the direction of the back surface of the top plate 101 of the desk 100 with respect to the bottom surface of the storage section 4, but the step portion is not provided. Tomoyoshi. Furthermore, when the stepped portion is provided, the inclined surface 6 may not be provided in the stepped portion.

Further, in the above embodiment, an example was shown in which the air blown out from the fan 3 is cooled by exchanging heat with the coil 7. However, hot water may flow through the flow pipe member 71 of the coil 7, the air blown out from the fan 3 may be heated by exchanging heat with the coil 7, and the heated warm air may be supplied to the seated person. Moreover, the pipe line 5 does not have to be rectangular.

Furthermore, in the above embodiment, the air conditioner 1 is retrofitted to the desk 100 that is used by a seated person while sitting, but the air conditioner 1 is retrofitted to a desk that is used by a user while standing. may be done.

Although an example of a preferred embodiment of the present invention has been described above, the present invention is not limited to the illustrated embodiment. It is clear that those skilled in the art can come up with various changes or modifications within the scope of the idea described in the claims, and these naturally fall within the technical scope of the present invention. It is understood that Furthermore, the embodiments and modifications disclosed above can be combined.

1, 1A, 1B: Air conditioner 2: Duct 3: Fan 4: Housing section 5, 5A: Pipe line 6, 6A: Inclined surface 7: Coil 8: Flexible joint 9: Air outlet 10: Board 11: Control chip 12: Wireless module 19: Face 20, 20A: Air supply port 21: Guide 41: Suction port 71: Flow tube member 72: Outer surface 100, 100A: Desk 101: Top plate 102: Curtain plate 103: Reinforcement material

Claims (3)

A fan coil unit that is retrofitted to the back side of a desk top plate so that the air outlet opens toward the front of the desk,
A fan that sucks in air and blows out air,
a duct that guides air blown from the fan to the outlet;
The space is provided at a predetermined angle with respect to the direction of travel so that the space in the duct through which air blown from the fan advances to the outlet is narrowed in the direction of travel. A plate-shaped coil that exchanges heat with the existing air,
Prepare,
The bottom surface of the duct is further away from the top plate of the desk than the air outlet in the housing area where the fan and the plate-shaped coil are arranged, and the housing area and the air outlet are located on the side surface of the seating side. It has an inclined surface that matches the height of the bottom of the mouth,
The plate-shaped coil is adjacent to the fan at an end on the back side when viewed from the seating side, and the end on the seating side is seated further than the end on the back side when viewed from the seating side of the inclined surface. It is arranged so that it is on the side,
fan coil unit. A fan coil unit that is retrofitted to the back side of a desk top plate so that the air outlet opens toward the front of the desk,
A fan that sucks in air and blows out air,
a duct that guides air blown from the fan to the outlet;
a plate-shaped coil that narrows a space in the duct through which air blown from the fan advances to the outlet in the direction of travel and exchanges heat with air existing in the space;
Prepare,
At least a part of the duct closer to the outlet than the part accommodating the coil,
The thickness between the back surface of the desk top plate is thinner than the part that accommodates the coil,
A bottom portion is provided in a step shape toward the back surface of the desk top plate relative to the bottom surface of the portion accommodating the coil,
A flexible joint is arranged to cover the reinforcing material on the back side of the desk top plate ,
fan coil unit. The top plate and
and the fan coil unit according to claim 1 or 2 , which is retrofitted to the back surface of the top plate.
desk.

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