KR20120041230A - Underfloor air-conditioning duct structure - Google Patents

Abstract

With respect to the duct structure used for air conditioning under the floor, it is aimed at reducing the cost of the duct and simplifying the structure, and providing an air conditioning duct structure under the floor that is simple in construction and excellent in workability. In the air-conditioning structure which distributes the air-conditioning air from the inside into the duct 3 arrange | positioned at the bottom space part, the duct 3 is a heat insulating material 22 which is installed in the upper part of the bottom slab 1, and a flat board | substrate part. (25), the upper flange portion 24 and the lower flange portion 26, both ends of which are bent in the same direction to form the substrate portion, and the lower flange portion 26 is placed on the upper portion of the heat insulating material 22. Between the pair of side covers (6,6) (7,7) and the lower flange portions (26,26), which are arranged to face each other, and are fixed to the bottom slab (1) with an anchor bracket (50). Positioning members 10 and 11 and upper flange portions of both side covers ( It is a structure which has the top plates 8 and 9 arrange | positioned between 24 and 24, and are fixedly attached by the fixed attachment hole.

Description

Air conditioning duct structure under the floor {UNDERFLOOR AIR-CONDITIONING DUCT STRUCTURE}

The present invention relates to a duct structure used for air conditioning under the floor.

Conventionally, the duct for bottom air conditioning shown in FIG. 5 is known, This arrange | positions the cylindrical duct 81 on the upper part of the floor slab 80 using the space below the floor. The duct 81 is provided with a branching mechanism 82 by opening a hole at a predetermined position, and attaching a branching pipe 84 to the branching box 86 to connect it with the branching box 86. have. The air-conditioning air which distribute | circulates the duct 81 blows out to the back surface of the bottom board 88 by the flow dividing box 86, and air-conditions below the floor. Regarding this subfloor air conditioning system, in most cases, ductwork is involved, and in this case, adjustment of the construction period between the air conditioner and the floor contractor is necessary.

In addition, the following ducts are disclosed in relation to the duct structure.

The joint structure of the duct described in patent document 1 inserts the edge part of a panel into each slit of the both sides of the corner part for joining, respectively, and then joins the both side part of a corner part and the edge part of a panel by spot welding, By manufacturing the duct, it is possible to manufacture the duct without heat deformation in a short working time and at low cost.

The duct described in Patent Literature 2 is connected to each of the four duct plates through a connecting portion which can be rotated 90 degrees, and the duct plate is foldable, so that the duct transport efficiency is good, and the construction in the field This is said to be easy.

Moreover, the duct described in patent document 3 is comprised from the ceiling plate which comprises a ceiling, and the trough shape body which the lower end of an opening side fits in the rail arrange | positioned in pairs on the upper surface of this ceiling plate, and comprises a ceiling plate and a water reservoir The tubular space is formed by the shaped body to form a duct, whereby construction is easy and construction can be performed simultaneously with the ceiling.

Japanese Patent Laid-Open No. 2002-31397 Japanese Patent Laid-Open No. 2003-114044 Japanese Patent Laid-Open No. 5-1843

However, with respect to the duct for air conditioning under the floor, the duct work in the narrow space under the floor has little space, and the parts become special, and at the time of installing the sorting box, the duct to install the branch pipe Since a perforation work and a complicated connection work are required, a professional air conditioner needs to carry out construction, and there is a problem that the volume of the duct parts increases during transportation, resulting in an increase in cost.

Moreover, the joint structure of the duct of patent document 1 is spot welding a corner part and a panel, and joins and manufactures a duct, and since the connection work and parts between ducts are special also in the field construction, it is a specialized air-conditioner It is expected that the cost will be increased by relying on the company.

The duct of patent document 2 is a structure which connects the corner part of four duct plates in a special shape, and it is anticipated that the construction work, such as connection of ducts in the field, is complicated, and also there is a problem that the degree of freedom is low.

In the duct of Patent Literature 3, since the duct is formed by a trough of a U-shaped cross section disposed on the top of the ceiling plate, it is necessary to change the capacity of the duct and process the upper part of the duct (eg, attachment of a classification nozzle). There is a problem that it is difficult and the degree of freedom is low.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and aims to provide a bottom air-conditioning duct structure that is simple in construction and excellent in workability while reducing the cost and simplifying the structure of the duct.

In order to solve the above technical problem, the bottom air conditioning duct structure which concerns on this invention distribute | circulates the air conditioning air from the air conditioning equipment of air-conditioning and heating into the duct 3 arrange | positioned at the space below the floor, as shown in FIG. In the air-conditioning structure in which the air-conditioning air is blown out on the back surface of the bottom plate or the air is blown out through the air outlet, the duct 3 includes a heat insulating material 22 placed on the top of the floor slab 1 and a flat substrate portion. (25), the upper flange portion 24 and the lower flange portion 26, both ends of which are bent in the same direction to form the substrate portion, and the lower flange portion 26 is placed on the upper portion of the heat insulating material 22. It is placed between a pair of side covers 6 and 6 (7 and 7) which are disposed to face down and the lower flange portions 26 and 26, and the bottom slab 1 is formed by an anchor bracket 50. Positioning members 10 and 11 fixedly attached to the A block having a top plate (天 板) (8,9) is fixed to be disposed between the flange portion (24,24), fixing the mounting opening (fixing tool).

In the bottom air conditioning duct structure according to the present invention, the bottom plates 110 and 111 are disposed between the upper portions of the lower flange portions 26 and 26 of the two side covers 6 and 6 and 7 and 7, respectively. The positioning members 10 and 11 are arranged on the top of the plate.

Further, the bottom air conditioning duct structure according to the present invention has a configuration in which holes are formed in the top plates 8 and 9, and a jet nozzle 18 for blowing air-conditioning air to the rear surface of the bottom plate is attached to the holes.

In addition, the bottom air-conditioning duct structure according to the present invention attaches one end of the introduction duct 120 to the hole formed in the substrate portion of the side cover (6, 6) (7, 7), and the other end of the introduction duct. The upper end of the jet nozzle 118 attached to the bottom is fixed to the rear surface of the bottom plate, and the jet nozzle 118 emits air-conditioning air to the rear surface of the bottom plate.

According to the bottom air-conditioning duct structure according to the present invention, between the pair of side covers, the lower flange portion formed in a shape having a heat insulating material, the substrate portion and the upper and lower flange portions disposed to face the lower flange portion on the upper side of the heat insulating material. The configuration of the duct is simple and easy to assemble because the configuration includes a positioning member mounted on the top and fixedly attached to the bottom slab by an anchor bracket, and a top plate disposed between the upper flange portions of both side covers. Therefore, no special skills are required, and thus, both floors and ducts can be assembled at the site by the floor contractor, thereby facilitating unification of the construction process and smoothly adjusting the construction period. In addition, it is possible to adjust and change the layout and blowing capacity of the ducts on site. And it can offer, but also has the effect that it is possible to achieve a significant cost reduction can be cut only part.

According to the bottom air conditioning duct structure according to the present invention, since the bottom plate is disposed between the upper portions of the lower flange portions of both side covers, and the positioning member is disposed on the upper portion of the bottom plate, There is an effect that the surface is covered, so that durability and airtightness are better.

According to the bottom air-conditioning duct structure according to the present invention, since the hole is formed in the top plate and the jet nozzle is attached, the jet nozzle to the duct is easy to attach and excellent in workability, and the jet nozzle has a vertical movement. There is an effect that it is possible to cope with low-floor floors with low space below the floor.

In addition, according to the bottom air conditioning duct structure according to the present invention, since the airflow air is fixed to the back surface of the bottom plate by a jet nozzle fixed to the back surface of the bottom plate through the introduction duct from the substrate portion of the side cover, There is an effect that the attachment position of the jet nozzle can be selected relatively freely and the degree of freedom in design can be increased.

1 is a partial perspective explanatory view of a duct structure according to the first embodiment of the present invention.
2 is a partial perspective view of the duct structure according to the embodiment.
3 is a three-dimensional view of the duct structure according to the embodiment.
4 is a plan view of the duct structure according to the embodiment.
It is a figure which shows the duct structure by a conventional example.
6 is a partial perspective explanatory view of the duct structure according to the second embodiment.
7 is a partial side view of the duct structure according to the second embodiment.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of the bottom air-conditioning duct structure which concerns on this invention is described based on drawing.

First, the bottom air conditioning duct structure which concerns on 1st Embodiment is demonstrated.

1 and 2 show partial perspective views of the bottom air-conditioning duct structure disposed on the floor slab 1. The duct 3 which forms the air-conditioning duct structure below this floor is the main duct 2 and the some branch duct 4 branched at predetermined intervals from this main duct 2 here. )

The main duct 2 has a pair of side covers 6, 6, a top plate 8, a positioning member 10, an adjusting member 12, a reinforcing bracket 14, and the like, which are disposed to face each other. The branch duct 4 also has a pair of side covers 7 and 7, a top plate 9, a positioning member 11 and an adjustment member 13 which are arranged to face each other, and the nozzle fixing plate 16 is provided. Have more.

The nozzle fixing plate 16 forms a part of the top plate 9, and the nozzle fixing plate 16 is attached to the nozzle nozzle 18. Moreover, the connection bracket 20 of an L-shaped cross section is attached to the corner part of the connection part of the main duct 2 and the branch duct 4.

In this way, the side surface 6 and the wall surface of the upper part of the ventilation path in a duct are formed by the side covers 6 and 7 and the top plates 8 and 9 in this way. In addition, in order to arrange | position the said duct 3 on the upper part of the sheet-shaped heat insulating material 22 attached to the upper part of the bottom slab 1, the lower surface of the duct 3 is formed by the heat insulating material 22. As shown in FIG.

The side covers 6 and 7 are formed by bending a rectangular steel sheet into a U-shaped cross section. These side covers 6 and 7 consist of the upper flange part 24 and the lower flange part 26 by which both ends of the board | substrate part 25 were bent at a right angle. In addition, the side cover 6 of the main duct 2 and the side cover 7 of the branch duct 4 use the thing of the same shape (same cross section) here.

The top plates 8 and 9 are rectangular steel plates. Here, the top plate 8 of the main duct 2 is formed to have a wider width than the top plate 9 of the branch duct 4. In this duct structure, the widths of the top plates 8 and 9 are adjusted in accordance with the amount of airflow of the air-conditioning air flowing through the cavity in the duct 3 to enlarge and reduce the cavity, and the other side covers and the like. The use of common parts ensures the required air flow rate.

The positioning members 10 and 11 are thin elongated steel materials having a U-shaped cross section including side portions and bottom surfaces 30. The reinforcing bracket 14 is also an elongated steel material having a U-shaped cross section including a side part and a bottom face part 32. The positioning members 10 and 11 press-fix the side covers 6 and 7 and determine the size of the width of the duct 3.

The adjustment members 12 and 13 are steel materials formed with pinching pieces 34 and 34 bent upwards at both ends of the elongated plate. These adjustment members 12 and 13 adjust the width of both side covers arranged oppositely.

The nozzle fixing plate 16 is formed by bending both sides of the rectangular steel sheet downward, and includes the top plate portion 36 and the flange portions 38 and 38. In the center of the top plate portion 36, a circular hole portion 40 to which the jet nozzle 18 is attached is formed.

In the jet nozzle 18, a radiating portion 44 whose diameter is gradually enlarged is formed on an upper portion of a cylindrical base 42 through which air passes. The distal end portion of the radiation portion 44 is provided with a spinneret 46 cut out at a predetermined interval. As the said heat insulating material 22, what formed the sheet | seat of the independent foaming system from the viewpoint of hermetic sealing is used.

In addition, each member which comprises the duct 3 can use a stainless steel material or an aluminum material according to the environment of a site | part etc. other than steel materials.

The said duct 3 is mainly comprised by the side covers 6 and 7 and the top plates 8 and 9, and after these are conveyed as it is, they are assembled by the duct 3 in the field. Since these side covers 6 and 7 and the top plates 8 and 9 are not bulky, conveyance is easy, and since the duct 3 is simple in structure, it is easy to carry out construction work.

Thus, the said duct structure does not require the exclusive parts for connection part construction, and each member which forms the duct 3 can be easily processed on-site, and can be connected by on-site processing. . And since each member can be easily assembled and connected by vis fixing, and does not require professional skills, it is important that the floor contractor construct the air conditioning duct construction under the floor in place of the duct builder. It is possible.

Here, the construction procedure in the field of the duct 3 by the said bottom air-conditioning duct structure is demonstrated.

First, the heat insulating material 22 is attached to the floor slab 1 (here concrete slab) of the room which air-conditions under the floor of a building.

Next, for assembling the main duct 2, two side covers 6, 6 of predetermined length are arranged at regular intervals. At this time, the lower flange portions 26 of the side covers 6 and 6 face each other, and the lower flange portions 26 are placed on the upper portion of the heat insulating material 22, so that the substrate portion 25 is placed upright. To place. As a result, the upper flange portions 24 and 24 of the side covers 6 and 6 also face each other.

In addition, at the time of arrangement | positioning of the main duct 2, the space | interval of side cover 6 is extended by the magnitude | size of the cross-sectional shape of the branch duct 4 in the connection site which connects the branch duct 4. This space | interval makes it the extent that the edge part of the branch duct 4 can intrude in this location a little, and both can be connected without a gap. Moreover, as another form of this connection site | part, the board | substrate part 25 of the side cover 6 of the main duct 2 is cut out in rectangular shape, and it forms so that opening part of the magnitude | size of the cross-sectional shape of the branch duct 4 may be formed. You may also

And the said adjustment member 12 is arrange | positioned between the lower parts of both side covers 6 and 6. This adjusting member 12 arrange | positions both clamping pieces 34 and 34 so that the board | substrate part 25 of the side covers 6 and 6 may abut, respectively, and adjusts the space | interval of side cover 6 and 6 comrades. . This adjustment member 12 is arrange | positioned at predetermined intervals.

Moreover, the said positioning member 10 is arrange | positioned between the side cover parts 6 and 6 with its side part up, and each edge part of the bottom face part 30 of this positioning member 10 is respectively right and left. It mounts on the upper part of each lower flange part 26 and 26. This positioning member 10 is disposed in a state overlapping with the upper portion of the adjusting member 12. In addition, the bottom part 30 of the positioning member 10, and the adjustment member 12 are previously provided with the hole part for fixed attachment.

And the positioning member 10 fixes the bottom part 30 to the bottom slab 1 with the adjustment member 12 using fixing attachment tools, such as anchor bracket 50 (anchor plug). Thereby, it stands up on the top of the heat insulating material 22, and is fixed by installation in the state which the side covers 6 and 6 which comprise the main duct 2 oppose. This positioning member 10 fixes the positions of the side covers 6 and 6 and determines the distance between them from the inside. This positioning member 10 is arranged at predetermined intervals and fixes the side cover.

Next, the top plate 8 is arrange | positioned between the upper flange parts 24 and 24 of the opposing side cover 6 and 6, and the top plate 8 is imaged using the fixing attachment tool, such as the screw 52 and the like. It is fixed to the flange part 24. In addition, at this time, in order to maintain sealing property, you may interpose a gasket material between the upper flange part 24 of the side cover 6, and the top plate 8.

In addition, in order to reinforce the top plate 8, the reinforcing brackets 14 are interposed between the upper flange portions 24, and fixed to both upper flange portions 24 using fixing fittings such as the screws 52 and the like. do. This reinforcing bracket 14 fixes the intermediate part to the top plate 8 with a screw 52 or the like. This reinforcing bracket 14 may be fixed to the top plate 8 in advance using a vis 52 or the like. The joints of the top plates 8 are also overlapped and fixed with the bis 52.

On the other hand, also in the assembly of the branch duct 4, similarly to the assembly of the main duct 2, the two side covers 7 of a predetermined length are opposed to each other at regular intervals, and each lower flange portion 26 is insulated from each other. It is placed in the upper part of 22, and it arrange | positions so that the board | substrate part 25 may be installed upright.

The connection part of the said main duct 2 and this branch duct 4 intrudes the edge part of the branch duct 4 from inside between the board | substrates 25 of the side cover 6 of the main duct 2 inside. Place it in one state.

Then, the adjusting member 13 is disposed, and the gaps are adjusted while the side covers 7 and 7 are sandwiched between the two sandwiching pieces 34 and 34, and the positioning member 11 is disposed between the lower flange portions 26, 26, and the positioning member 11 is fixed to the bottom slab 1 together with the adjusting member 13 using the anchor bracket 50 or the like. Thereby, it mounts on the upper part of the heat insulating material 22, and is fixed by installation in the state which the side covers 7 and 7 which comprise the branch duct 4 opposed. This positioning member 11 is arranged at a predetermined interval to fix the side cover.

Next, the top plate 9 is disposed between the upper flange portions 24 and 24 of the opposing side cover 7 and 7, and the top plate 9 is raised by using a fixing attachment tool such as a screw 52. It is fixed to the flange part 24. In addition, the connection bracket 20 is attached to the corner part of the connection part of the main duct 2 and the branch duct 4 using the screw 52 etc. By this connecting bracket 20, the main duct 2 and the branch duct 4 are connected in the absence of a gap.

In addition, the nozzle fixing plate 16 is arranged in a part of the branch duct 4 at predetermined intervals instead of the top plate 9. The position which arrange | positions this nozzle fixing plate 16 makes the necessary space | interval between top plates 9 spaced apart. The nozzle fixing plate 16 is attached in the state in which the left and right flange portions 38 and 38 sandwich the substrate portions 25 of the side covers 7 and 7, and both ends of the top plate portion 36 are side covers, respectively. The upper flange 24 of (7,7) is fixed with a bis 52 or the like.

At this time, a gasket material may be interposed between the upper flange part 24 of the side cover 7 and the nozzle fixing plate 16. Then, the base 42 of the jet nozzle 18 is inserted into the hole 17 of the nozzle fixing plate 16 so as to be movable upward and downward. At this time, a ring spring or the like is interposed between the base 42 of the jet nozzle 18 to freely adjust the height position of the jet nozzle 18. In addition, you may employ | adopt the form which forms the hole part for nozzle fixing in the said top plate 9, and attaches the dividing nozzle 18 to this hole part.

3 is a view of the duct 3 as seen from the branch duct 4 side.

As shown in this figure, the bottom plate 60 is provided in the bottom part 58 of the upper part of the floor support angle 56 provided in the floor slab 1 at the bottom part of the room, and the floor surface 61 is attached. To form. In this bottom part, the bottom space space 62 is formed between the bottom slab 1 and the bottom plate 60, and the main duct 2 and the branch duct 4 are arrange | positioned here as the duct 3, have. After the construction of the duct 3, the construction of the bottom portion is subsequently performed.

And the discharge nozzle 44 arrange | positioned at the upper part of the branch duct 4 is located in the back part of the bottom plate 60. The jet nozzle 18 emits air conditioning air from the spinneret 46 of the radiator 44 toward the rear surface of the oblique upper bottom plate 60 to perform air conditioning below and below the floor (indoor).

4 is a plan view in which the duct 3 is disposed in the bottom portion 62. Here, the main duct 2 is arrange | positioned in a U-shape, and the branch duct 4 branched from each left and right main duct 2 is arrange | positioned at regular intervals. The air conditioning apparatus 64 is connected to the main duct 2, and it sends out air conditioning air, such as heating and cooling. The said branch duct 4 connects both sides to the main duct 2, respectively, and sends air-conditioning air from both sides, and the air-conditioning air is blown out uniformly from each flow nozzle 18 of the branch duct 4. As shown in FIG.

The air-conditioning duct structure under the floor can be widely applied to a large space such as an athletic facility, an office, a school, a store, or even a house.

Therefore, according to the above embodiment, since a simple structure based on a pair of side covers and a top plate is adopted, the assembling of the duct is easy and no technical skills are required, and in the field, only the floor contractor By assembling both parts, the construction process can be unified, and the adjustment of the construction period can be performed smoothly, contributing to cost reduction. In addition, since the construction process is unified, the freedom of layout of the air-conditioning space and the layout of the ducts can be improved, and it is possible to meet the demands of the site, and no special parts are required. These parts can be reduced, and a significant cost reduction can be achieved.

Moreover, about the duct, by adjusting the size of the width | variety of a top plate, it is possible to adjust and change a blowing capacity in the field, and to increase the freedom of construction, and to provide the duct suitable for a site | part. In addition, it is easy to attach the jet nozzle to the duct, which is excellent in workability. Also, by adjusting the degree of freedom of the duct type and the height of the jet nozzle, it is possible to cope with low-floor floors with low floor space and excellent freedom.

Next, the bottom air-conditioning duct structure which concerns on 2nd Embodiment is demonstrated.

Fig. 6 shows a partial perspective view of the air conditioning duct according to this embodiment. This bottom air-conditioning duct structure differs from the point in which the bottom plate was added to the duct and the attachment structure of a jet nozzle in 1st Embodiment.

About this embodiment, the same code | symbol is attached | subjected about the same member as 1st Embodiment, and the detailed description here is abbreviate | omitted.

The duct 103 which forms the air-conditioning duct structure below this floor consists of the main duct 102 and the some branch duct 104 which branches at predetermined intervals from this main duct 102.

The main duct 102 is a pair of side covers (6,6), top plate (8), positioning member (10), bottom plate (110), adjustment member (12) and reinforcing brackets (14) arranged oppositely. ) And the like. The branch duct 104 also has a pair of side covers 7 and 7, a top plate 9, a positioning member 11, a bottom plate 111, and an adjustment member 13 that are disposed to face each other. It has an introduction duct attachment plate 116.

The bottom plates 110 and 111 are rectangular steel sheets. Here, the bottom plate 110 of the main duct 102 is formed to have a wider width than the bottom plate 111 of the branch duct 104. In this duct structure, the cavity is enlarged and reduced by adjusting the size of the widths of the top plates 8, 9 and the bottom plates 110, 111 in accordance with the airflow amount of the air conditioning air flowing through the cavities in the duct 103. The use of common parts ensures the required airflow.

Thus, the said duct 103 is formed with the side cover 6, 7, the top plates 8, 9, and the bottom plates 110, 111, and the wall surface of the four sides, the upper part, and the lower part of the ventilation path in a duct is formed. In addition, the duct 103 is disposed on an upper portion of the sheet-shaped heat insulating material 22 attached to the upper portion of the bottom slab 1.

In addition, each member constituting the duct 103 may be made of a metal source such as stainless steel or aluminum, or a heat resistant synthetic resin in addition to steel.

The jet nozzle 118 has a hollow disk-shaped substrate portion 142 having an air inlet in the center, and a cylindrical radiating portion 144 formed thereon, and an upper end portion of the radiating portion 144. In the vicinity, a spinneret 146 opened at a predetermined interval is formed. In addition, an upper plate portion 148 having a fixing portion 147 on the left and right sides is attached to the upper end portion of the radiating portion 144 in a substantially disk shape.

The introduction duct 120 is a flexible duct which can be bent freely by covering a coil spring with an incombustible sheet material, and is a duct that introduces air conditioning air from a branch duct (main duct) or the like.

The duct 103 is mainly composed of side covers 6, 7, top plates 8, 9, bottom plates 110, 111, and the like, and after they are conveyed to the site as they are, they are assembled into the duct 103 on site.

In this way, the duct structure does not require a dedicated part for connection part construction, and each member forming the duct 103 can be easily processed in the field and can be connected by on-site processing. . In addition, the floor contractor can construct the air-conditioning duct construction under the floor in place of a duct builder.

Here, the construction order in the field | floor of the said bottom air-conditioning duct structure is substantially the same as the procedure by said 1st Embodiment, and a mainly different point is demonstrated here.

First, the heat insulating material 22 is laid in the indoor floor slab 1, and the two side covers 6 and 6 of predetermined lengths are spaced at regular intervals for the assembly of the main duct 2, and the upper and lower sides are also provided. Arrange the flanges facing each other.

And the said adjustment member 12 is arrange | positioned at predetermined intervals between the lower parts of both side covers 6 and 6. Moreover, the bottom plate 110 is arrange | positioned between both side covers 6 and 6, and the both ends are mounted on the upper part of each lower flange part 26 and 26 on either side.

In addition, the positioning member 10 is disposed on the bottom plate 110. The positioning member 10 is disposed between the side covers 6 and 6 and in an overlapping state with the bottom plate 110 interposed above the adjusting member 12. Then, the bottom portion 30 of the positioning member 10 is fixed to the bottom slab 1 together with the bottom plate 110 and the adjustment member 12 by using a fixing attachment tool such as the anchor bracket 50.

Next, the top plate 8 is arrange | positioned between the upper flange parts 24 and 24 of the opposing side cover 6 and 6, and the top plate 8 is imaged using the fixing attachment tool, such as the screw 52 and the like. It is fixed to the flange part 24. In addition, the reinforcing bracket 14 is fixed to the upper portion of the top plate 8.

On the other hand, as for the assembly of the branch duct 104, similarly to the assembly of the main duct 102, two side covers 7 and 7 of predetermined length are arranged to face each other at regular intervals. And the adjustment member 13 is arrange | positioned at these lower parts, and the space | interval between the side covers 7, and 7 is adjusted.

Moreover, the bottom plate 111 is arrange | positioned between both side covers 6 and 6, and the both ends are mounted on the upper part of each lower flange part 26 and 26 on either side.

In addition, the positioning member 11 is disposed on the bottom plate 111, and the bottom portion 30 of the positioning member 11 is formed using the anchor bracket 50 to form the bottom plate 111 and the adjustment member. Secure to floor slab (1) with (13). And the top plate 9 is arrange | positioned and fixed between the upper flange parts 24 and 24 of the opposing both side covers 7, and 7. As shown in FIG.

In addition, the inlet duct attachment plate 116 is fixed to the side cover 7 of the branch duct 104 at a predetermined position (preliminary hole portion is provided) of the substrate portion 25 by a screw or the like. And the inlet duct 120 is connected to the inlet port 117 of the air formed in the center part of this inlet duct attachment plate 116. The jet nozzle 118 is attached to the tip end of the introduction duct 120.

7 is a view of the duct 103 viewed from the branch duct 104 side.

As shown in this figure, the jet nozzle 118 is attached to the back surface 63 of the bottom plate 60 attached to the bottom of the room.

The jet nozzle 118 is fixed to the rear surface 63 of the bottom plate 60 by using a fixing attachment 119 such as a vis to the fixing portion 147 provided on the upper plate portion 148. The jet nozzle 118 blows air-conditioning air from the plurality of spinnerets 146 of the radiator 144 toward the back surface 63 of the oblique upper bottom plate 60 to be used under the floor and on the floor (indoor). Air conditioning (copying) is performed.

Therefore, according to this embodiment, as in the first embodiment, the assembly of the duct is easy and no technical skills are required, and in the field, the floor and the duct are assembled only by the floor contractor, thereby unifying the construction process. It is planned, and construction period adjustment can be performed smoothly, and it also contributes to cost reduction. In addition, the unification of the construction process can increase the freedom of layout of the air conditioning space and the layout of the ducts under the floor, thereby responding to the demands of the site, and requiring no special dedicated parts. We can reduce. In addition, there is an effect that the attachment position of the jet nozzle can be selected relatively freely and the degree of freedom in design can be increased.

In addition, in the said 1st and 2nd embodiment, although the cross section of the duct (main duct, branch duct) was made into the rectangular shape, the cross section was trapezoid shape or rhombus by using a thin metal plate, a synthetic resin board, etc. which are easy to shape | mold in addition. Shapes, such as shape, can be employ | adopted.

1: floor slab
3: duct
6, 7: side cover
8, 9: top plate
10, 11: positioning member
18: classification nozzle
22: heat insulation
25: substrate
24: upper flange
26: lower flange part
50: anchor bracket

Claims (4)

In the air-conditioning structure which distributes air-conditioning air from the air-conditioning equipment of air-conditioning and heating into the duct arrange | positioned to the space part below the floor, and this air-conditioning air is blown out on the back surface of a soleplate, or it blows out indoors through a blower outlet,
The duct,
Insulation material laid in the upper part of the floor slab,
A pair of side covers formed of a flat substrate portion, an upper flange portion and a lower flange portion whose both ends are bent in the same direction, and are disposed to face the lower flange portion downward on an upper portion of the heat insulating material. Wow,
A positioning member mounted between the lower flange portions and fixedly attached to the bottom slab with an anchor bracket;
An air-conditioning duct structure under the floor, which is disposed between the upper flange portions of both side covers, and has a top plate fixedly attached by a fixing attachment hole. The bottom air conditioning duct structure according to claim 1, wherein a bottom plate is disposed between upper portions of the lower flange portions of both side covers, and the positioning member is disposed on an upper portion of the bottom plate. The air-conditioning duct structure under the floor according to claim 1 or 2, wherein a hole is formed in the top plate, and a discharge nozzle for blowing air-conditioning air to the rear surface of the bottom plate is attached to the hole. 3. The classification according to claim 1 or 2, wherein one end of the introduction duct is attached to the hole formed in the substrate portion of the side cover and attached to the other end of the introduction duct. An air conditioning duct structure under the floor, characterized in that the upper end of the nozzle is fixed to the back surface of the bottom plate, and the airflow air is blown out on the back surface of the bottom plate by the jet nozzle.

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