JP3699699B2 - All air floor heating and cooling system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an all-air type floor cooling / heating device that combines a floor radiant cooling / heating system using cold / hot air conditioned air generated by an air conditioner and a replacement air conditioning cooling / heating system.
[0002]
[Prior art]
Conventionally, an all-air type floor air-conditioning system combining a floor radiant air-conditioning system using cold / hot air by air conditioning and a replacement air-conditioning air-conditioning system has not been put to practical use. And conventionally, as disclosed in Japanese Patent No. 2602194, cold water or hot water from a cold / hot water generator for generating cold water and hot water is applied to the lower surface of the floor panel, and a coating material having high thermal conductivity such as mortar Cooling or warm air from a floor air conditioner that cools or heats the room and an air conditioner that generates cold air or warm air is sent to the cold and hot water pipes that are covered and disposed on the lower surface of the floor panel. Floor cooling and heating in combination with a floor blowing air conditioning air conditioner that sends air to the air passage, blows air into the room from a blowout opening opened in the floor panel at the edge of the room, and cools and heats the room with cold air and hot air Devices are known.
[0003]
[Problems to be solved by the invention]
However, in the floor air-conditioning / heating device disclosed in the above-mentioned publicly known patent No. 2602194, a cold / hot water generator that generates cold water and hot water is used, so that the installation cost becomes expensive, and therefore the cost of the air conditioning / heating costs becomes high. was there.
[0004]
The present invention has been made to solve the above-mentioned problems, and without using a cold / hot water generator as in the prior art, by cooling / heating with cold / hot air conditioned air generated by an air conditioner, An object of the present invention is to provide an all-air type floor heating / cooling apparatus capable of reducing the cost.
[0005]
[Means for Solving the Problems]
According to the present invention, the peripheral portion of the bottom plate having a concave cross section is joined and fixed integrally to the peripheral portion of the top plate, and a flange is protruded from the peripheral portion. A pressure-bonding part that presses a part of the face plate to the upper face plate, a radial frame-shaped pumping passage formed so that the width and direction obstruct the air flow to some extent is projected downward, and further on the entire upper face plate A plurality of ventilation holes are drilled, and a rectangular panel board is formed by drilling ventilation holes that communicate with the ventilation holes of the upper surface plate in the crimping portion of the lower surface plate. A plurality of sheets are fixed on support legs that are erected over a plurality of rows at predetermined intervals on the slab to form a flat floor panel, and each panel board is further formed on the floor panel. Lay the floor material with the ventilation holes and the ventilation holes that penetrated it. On the other hand, an air supply space is provided between the slab and the floor panel for pumping cold / hot air conditioned air generated by an air conditioner, and the cold / hot air conditioned air pumped to the air supply space. Then, the floor panel is cooled or heated from the lower surface, and a floor radiant cooling and heating system that radiates cool air or warm air from the floor panel to the room, and cold / hot air conditioned air that is pumped to the air supply space, By blowing pressure of the air conditioner, the panel board is blown out from the vent small hole of the crimping portion of each panel board to the room through the vent small hole of the flooring material, and the panel board is connected through the pressure feeding means connected to the panel board. Is pumped into a pressure-feed passage located in the center of the panel board, blown out from the small vent hole on the pressure-feed passage to the room through the small vent hole in the flooring material, and drilled in the pressure-feed passage located at the corner of each panel board Blowing from the vented vent to the room The remaining air-conditioning air that has not been discharged is exhausted to the air-feeding space, the air-conditioning air blown into the room from each vent hole is replaced with the air in the room, and the room is cooled or heated. The above-mentioned problem has been solved by adopting a means of combining with a replacement air-conditioning air-conditioning system that sucks and reuses air after cooling and heating the air-conditioner from the reflux port.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
The embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic longitudinal sectional view showing a first embodiment of the all-air type floor cooling and heating apparatus of the present invention. In other words, the all-air type floor cooling and heating apparatus of the present invention has an air supply space 3 for pumping cold / hot air conditioned air from an air conditioner 2 on a concrete slab 1 provided on the lower surface of a room R. A plurality of panel boards 4 are joined and fixed on the air supply space 3 to form the floor panel P, and the air supply space 3 between the slab 1 and the floor panel P is cooled and heated from the air conditioner 2. A floor radiant cooling and heating system that radiates cool air or warm air from the floor panel P to the room R by cooling and heating the floor panel P by pumping wind air-conditioned air, and each panel board constituting the floor panel P Air conditioning air of cold and hot air from the air conditioner 2 fed into the air feeding space 3 by the ventilation pressure of the air conditioner 2 and the pressure feeding means 6 from a large number of ventilation holes 5 formed in a large number of holes 4 Ventilation drilled in the floor material 7 laid on the floor panel P Blown through the holes 8 in the room R, and replaced with room air, it is constructed by combining the substituted conditioning air conditioning system of the room R to cool or warm.
[0007]
As shown in FIG. 4, the support leg 9 erected on the slab 1 and fixing the panel board 4 upward has a wide bottom plate 11 installed and fixed on the slab 1 at the lower end of the column 10. And a fixing plate 12 for fixing the corner corners of the four panel boards 4 together and fixing the corners of the panel boards 4 together is fixed to the upper end of the column 10. Further, in order to reinforce the strength of the fixing plate 12, a hook-shaped reinforcing plate 13 is connected and fixed between the upper peripheral surface of the support column 10 and the bottom surface of the fixing plate 12.
[0008]
The panel board 4 has a metal plate having a good thermal conductivity, preferably an upper plate 14 made of an aluminum plate, and a lower plate 15 made of a metal plate having a concave cross section, preferably an aluminum plate, having a concave cross section. The peripheral edge portion is integrally bonded and fixed, and the flange 16 protrudes from the peripheral edge. On the inner surface of the lower surface plate 15 surrounded by the flange 16, the radial passage and the frame-like passage communicate with each other and protrude downward. In addition, a pressure-feed passage 17 having a radial frame shape for feeding cold / hot air conditioned air from the pressure-feeding means 6 is provided, and the lower surface plate 15 other than the portion of the pressure-feed passage 17 is pressure-bonded to the upper surface plate 14, so The crimping part 18 whose width and direction are obstructing air flow to some extent is formed in a square shape.
[0009]
The radial frame-shaped pumping passage 17 need not be particularly limited, but it is preferably formed as shown in FIGS. 3, 5, and 6. That is, the lower surface plate 15 is provided with a cross-shaped pressure feeding passage 17a in the center, and the lower surface plate 15 of each side surface portion of the cross-shaped pressure feeding passage 17a is pressure-bonded to the upper surface plate 14 to form an elliptical pressure-bonding portion 18a. The cross-shaped pressure-feeding passage 17a has a narrow right-side pressure-feeding passage 17b at each front portion, and the lower surface plate 15 is pressure-bonded to the upper surface plate 14 to form a large triangular pressure-bonding portion 18b. In addition, a large radial pressure-feed passage 17c is provided between the triangular pressure-bonding portions 18b so as to communicate with the pressure-feed passage 17b, and a lower surface plate 15 is provided at the end of the large radial pressure-feed passage 17c. A small triangular crimping portion 18c is formed by crimping to the upper surface plate 14, respectively, while a frame-like pressure feeding passage 17d is provided on the outer edge of the large and small triangular crimping portions 18b and 18c, respectively. Radial pumping passage 1 It is formed in communication to c.
[0010]
In addition, the upper surface plate 14 constituting the panel board 4 is provided with a large number of small ventilation holes 5 at equal intervals, and the upper and lower pressure bonding portions 18 a to 18 c of the lower surface plate 15 are also provided with the upper plate 14. A ventilation hole 5 communicating with the ventilation hole 5 of the face plate 14 is formed. The area of each ventilation hole 5 in the upper surface plate 14 is preferably about 5% of the entire upper surface plate 14. In addition, since each ventilation hole 5 of the upper surface board 14 and the lower surface board 15 in the said crimping | compression-bonding part 18 is connected, respectively, the reference | standard that the area of the ventilation hole 5 of the lower surface board 15 shall be about 5%. Is not included.
[0011]
In the center of the cross-shaped pressure-feeding passage 17a, the connecting hole 19 connected to the pressure-feeding means 6 and the corners of the frame-like pressure-feeding passage 17d are fed into the pressure-feeding passage 17 and circulated. -Exhaust holes 20 for exhausting warm air are respectively formed.
[0012]
Since each of the pressure-feeding passages 17a to 17d having the above-described configuration is in communication, cold / hot air conditioned air fed by pressure-feeding means 6 from the connecting hole 19 into the cross-shaped pressure-feeding passage 17a. Circulates through the pressure-feeding passages 17a to 17d and blows out from the vent holes 5 of the upper surface plate 14 on the upper surfaces of the respective pressure-feeding passages 17a to 17d, and the remaining cold / temperature not blown out from the vent holes 5 Wind is exhausted from each exhaust hole 20 to the air supply space 3.
[0013]
The fixing means for fixing the support leg 9 of the panel board 4 having the above-described structure to the fixing plate 12 is not particularly limited, but it is recommended to fix it as shown in FIG.
[0014]
That is, as shown in FIGS. 2, 3, and 7, each flange 16 at each corner portion of the panel board 4 is provided with a ¼-circular drop step portion 21, and each step portion 21. Each of the corners is cut into a quarter circle, and a notch 22 is provided.
[0015]
Further, the peripheral edges of the panel board 4 having the above-described structure are slidably contacted with each other, and the frame-shaped pressure-feeding passages 17 d at which the four panel boards 4 are slidably contacted with each other are provided on the fixing plate 12 of the support leg 9. And the shape of the stepped portion 21 of the butted portion at each corner of each of the four panel boards 4 forms a circular recess 23 as a whole, and the notches 22 The circular hole 24 is formed as a guide hole of the tightening bolt 25 so as to form a circular hole 24 as a whole.
[0016]
The circular recess 23 is provided with an immersion recess 26 into which the head of the tightening bolt 25 is inserted in the center, and the circular recess that penetrates the insertion hole 27 of the tightening bolt 25 in the center of the immersion recess 26. A circular seat plate 28 having the same thickness as the depth 23 is fitted, a tightening bolt 25 is inserted into the insertion hole 27 of the seat plate 28, and the tip of the screw passes through the center of the fixing plate 12. The corners of the four panel boards 4 are integrally fixed to the fixing plate 12 of the support leg 9 by being screwed into the insertion holes 29.
[0017]
Similarly, the frame-shaped pressure-feed passage 17d at the corners of each of the other four panel boards 4 is fixed to the fixing plate 12 of the support leg 9, and the air-feeding space 3 is placed on the slab 1 in the room R. A flat floor panel P is formed.
[0018]
As shown in FIG. 1, the air supply space 3 formed between the floor panel P and the slab 1 has an open end communicated with the air supply space 3 from the air conditioner 2 installed outdoors. The air conditioner 2 is formed so as to pump cold / hot air conditioned air through the duct 30, but the air conditioner 2 is formed in an air conditioner chamber 33 formed by providing an outer wall 32 outside the one wall 31. In addition, an air compressor 35 constituting the pressure feeding means 6 is installed outside the other wall 34. Although not shown, the air conditioner 2 and the air supply space 3 may be directly connected without installing the duct 30.
[0019]
The air conditioner 2 sucks the air after cooling and heating the room R into the upper part of the one wall 31 on the room R side constituting the air conditioner chamber 33, and reuses the air. A reflux port 36 is provided.
[0020]
In the present invention, cold / hot air conditioned air generated by the air conditioner 2 is pumped to the air feeding space 3, and each panel board 4 is moved by the cold / hot air fed to the air feeding space 3. A floor that cools or heats from the lower surface, cools or heats the floor panel P and the floor material 7 laid directly on the floor panel P, and radiates cool air or warm air from the floor panel P and the floor material 7 While constituting the radiant cooling and heating system, the cooling / warming air in the air-feeding space 3 is blown out on each panel board 4 by the blowing pressure of the air conditioner 2 through the ventilation small holes 17 of the respective crimping portions 18. The cold / hot air in the air-feeding space 3 is pumped to the center of the pressure-feeding passage 17 of the panel board 4 via the pumping means 6, and the cold / hot air is circulated through the pressure-feeding passage 17. From the ventilation hole 6 on the passage 17, it blows out on each panel board 4, and further, Cold and hot air blown out on each panel board 4 is blown into the room R through the ventilation holes 8 formed in the material 7 so as to penetrate the ventilation holes 5 of the panel board 4. A replacement air conditioning system that cools and heats the air by substituting the air is configured, and the room R can be cooled and heated by the both systems.
[0021]
The replacement air-conditioning cooling system in the case of cooling the room R uses a natural phenomenon in which an updraft occurs due to a temperature difference of the air, and from the room temperature through the ventilation holes 5 of the floor panel P through the ventilation holes 8 of the flooring 7. When the air-conditioning air from the low air conditioner 2 is blown into the room R, the air-conditioning air is heated by an indoor load such as a living human body, lighting, and intrusion hot air from the outside, and becomes an upward air flow. Due to this updraft, the air-conditioned air lifts the air that has been in the room R until now from the floor surface to the ceiling S, and the air that has been in the room R until now from the reflux port 36 provided on one wall 31. In this system, the air conditioner 2 is recirculated to the air conditioner chamber 33 and is sucked and reused.
[0022]
The replacement air conditioning heating system in the case of heating the room R uses a natural phenomenon in which an updraft occurs due to the temperature difference of the air, and from the room temperature through the ventilation hole 5 of the floor panel P through the ventilation hole 8 of the flooring 7. When the air-conditioning air from the high air conditioner 2 is blown into the room R, the air-conditioning air is cooled by an indoor load such as a living human body, lighting, and intruding cold air from outside the room, and becomes an upward air flow. Due to this updraft, the air-conditioned air lifts the air that has been in the room R until now from the floor surface to the ceiling S, and the air that has been in the room R until now from the reflux port 36 provided on one wall 31. In this system, the air conditioner 2 is recirculated to the air conditioner chamber 33 and is sucked and reused.
[0023]
Then, the cold / hot air in the air supply space 3 is passed through the connecting hole 19 at the center of the cross-shaped pressure-feed passage 17a constituting the pressure-feed passage 17 of each panel board 4 to the cross-shaped pressure-feed passage 17a. The pumping means 6 for pumping is not particularly limited, but it is preferable to use an air injector 37 capable of sucking and feeding cold / hot air by compressed air from the air compressor 35.
[0024]
The air injector 37 need not be particularly limited, but preferably it is formed as shown in FIG. That is, a plurality of support rods 40 project from the outer peripheral surface of the primary air inflow pipe 39 formed with a venturi 38 by narrowing the passage on the downstream side with a ventilation interval. A secondary air inflow pipe 42 having a diameter larger than that of the primary air inflow pipe 39 and having an opened secondary air inflow inlet 41 is connected and fixed to the tip.
[0025]
The downstream side of the secondary air inflow pipe 42 of the air injector 37 having the above configuration is connected and fixed to the connection hole 19 of each panel board 4 via the connection pipe 43, and the upstream side of the primary air inflow pipe 39 is These are connected to the downstream side of the branching air supply rubber pipe 44 for supplying the compressed air from the air compressor 35.
[0026]
That is, as shown in FIG. 10, a main air feed header 45 is connected to the downstream side of the air compressor 35, and a base end portion of a plurality of main air feed rubber pipes 46 is connected to the main air feed header 45. In addition, a branch air supply header 47 is connected to the downstream side of each main air supply rubber pipe 46, and further, the upstream side portion of the plurality of branch air supply rubber pipes 44 is connected to the branch air supply header 47, Further, the downstream side of the branched air supply rubber pipe 44 is connected to the upstream side of the primary air inflow pipe 39 of the venturi 38.
[0027]
On the floor panel P provided in the room R, a floor material 7 such as a tile carpet or a cloth carpet having a ventilation hole 5 penetrating the ventilation hole 5 of each panel board 4 is laid. Further, a heat insulating material 48 is placed on the slab 1 so as to achieve a heat insulating effect of the air supply space 3. The floor material 7 may be formed in the same size as each panel board 4 constituting the floor panel P, or may be formed in a larger size, and the size is arbitrary.
[0028]
The operation of the all air system floor cooling and heating apparatus according to the first embodiment of the present invention will be described. When the room R is cooled, when the cold air generated by the air conditioner 2 is pumped into the air feeding space 3 via the duct 30, the cold wind fed into the air feeding space 3 constitutes the floor panel P. Each panel board 4 is cooled from the lower surface, the floor panel P and the flooring 7 are cooled, and the room R is cooled by radiating cold air through the flooring 7.
[0029]
Further, the cool air in the air-feeding space 3 is passed through the ventilation small holes 8 of the flooring 7 from the ventilation small holes 5 of the floor boards 7 by the air pressure of the air conditioner 2 to the room R. The cold air blown into the air-feeding space 3 and sucked into the air-feeding space 3 is sucked by the air injector 37 and sent to the pressure-feeding passage 17 by pumping compressed air from the air compressor 35 to the air injector 37.
[0030]
That is, when the cool air sent to the primary air inflow pipe 39 of the air injector 37 is exhausted from the primary air inflow pipe 39 when the wind speed is increased by about six times by the venturi 38, the exhaust of the venturi 38 is exhausted. The vicinity of the outer periphery of the mouth becomes negative pressure, the cold air in the air supply space 3 around the venturi 38 is sucked into a mixed air flow, and flows into the secondary air inflow pipe 42 from the secondary air inlet 41 at a high pressure. Furthermore, it flows into the cross-shaped pressure-feed passage 17a at the center of each panel board 4 via the connecting pipe 43 on the downstream side at a high pressure.
[0031]
Crimping portions 18a to 18c are provided at the front portions of the pressure feeding passages 17a to 17d, respectively, and the width and direction of the pressure feeding passages 17a to 17d are formed so as to obstruct a certain amount of air flow. Therefore, the inflowing air circulates by repeating turbulent mixing and further cools the panel boards 4. Then, the cold air that has flowed into the pressure feeding passages 17 of the panel boards 4 at a high pressure is blown out from the ventilation small holes 5 on the pressure feeding passages 17 to the room R through the ventilation small holes 8 of the flooring 7 and warms the room. And the room R is cooled. The remaining cold air that has not been blown into the room R is exhausted into the air supply space 3 through the exhaust holes 20 formed in the corners of the panel boards 4.
[0032]
In addition, a radial frame-shaped pressure feed passage 17 is formed to protrude downward on the bottom plate 15 constituting each panel board 4 facing the air feeding space 3, and the surface area of the bottom plate 15 of the panel board 4 is formed by the pressure feed passage 17. Therefore, the contact area with the cold air pumped into the air feeding space 3 becomes large, and the cold wind pumped into the space portion 4 turbulently flows, and the panel boards 4 are averaged. Each panel board 4 can be cooled in contact with the lower surface of the panel.
[0033]
That is, each panel board 4 constituting the floor panel P is cooled from the lower surface by cold air from the air conditioner 2 pressure-fed into the air feeding space 3, and the floor panel P and the floor material 7 are cooled. The panel P and the floor material 7 are radiated into the room R, and the room R is cooled, and the cold air is blown out into the room R through the ventilation holes 6 and 8. The room R is cooled in combination with a replacement air conditioning cooling system that cools the room R by replacing it with the warm air of R. The air after the inside of the room R is cooled is sucked by the air conditioner 2 from the reflux port 36 and reused.
[0034]
In the all-air type floor cooling and heating apparatus according to the first embodiment of the present invention, when heating the room R, the hot air generated by the air conditioner 2 is introduced into the air supply space 3 through the duct 30. When the pressure is fed, the warm air fed into the air feeding space 3 warms the floor panel P and the flooring 7 from the lower surface of each panel board 4 constituting the floor panel P, and the warm air is passed through the flooring 7. The room R is heated by radiating the floor.
[0035]
Furthermore, the warm air in the air-feeding space 3 is passed through the ventilation holes 8 of the flooring 7 from the ventilation holes 5 of the flooring 7 by the air pressure of the air conditioner 2 to the room. The hot air blown out into the R and pumped into the air feeding space 3 is sucked by the air injector 37 and pumped to the pumping passage 17 by pumping compressed air from the air compressor 35 to the air injector 37. The
[0036]
That is, when the warm air sent to the primary air inflow pipe 39 of the air injector 37 is exhausted from the primary air inflow pipe 39 when the wind speed is increased by about six times by the venturi 38, The vicinity of the outer periphery of the exhaust port becomes negative pressure, the hot air in the air supply space 3 around the venturi 38 is sucked into a mixed air flow, and the high pressure is passed from the secondary air inlet 41 to the secondary air inflow pipe 42. Then, it flows into the cross-shaped pressure-feed passage 17a at the center of each panel board 4 via the connecting pipe 43 on the downstream side at a high pressure.
[0037]
Crimping portions 18a to 18c are provided at the front portions of the pressure feeding passages 17a to 17d, respectively, and the width and direction of the pressure feeding passages 17a to 17d are formed to obstruct air flow to some extent. Therefore, the inflowing air circulates by repeating turbulent mixing and further warms each panel board 4. The hot air flowing into the pressure feeding passages 17 of the panel boards 4 at a high pressure is blown out from the ventilation small holes 5 on the pressure feeding passage 17 to the room R through the ventilation small holes 8 of the flooring 7, The room R is heated by replacing with cold air. The warm air that has not been blown into the room R is exhausted into the air supply space 3 through the exhaust holes 20 formed in the corners of the panel boards 4.
[0038]
In addition, a radial frame-shaped pressure feed passage 17 is formed to protrude downward on the bottom plate 15 constituting each panel board 4 facing the air feeding space 3, and the surface area of the bottom plate 15 of the panel board 4 is formed by the pressure feed passage 17. Therefore, the contact area with the hot air pumped into the air feeding space 3 becomes large, and the hot air pumped into the space portion 4 turbulently flows, and each panel is averaged. Each panel board 4 can be heated in contact with the lower surface of the board 4.
[0039]
That is, each panel board 4 constituting the floor panel P is heated from the lower surface by warm air from the air conditioner 2 pressure-fed into the air supply space 3, and the floor panel P and the floor material 7 are heated. The floor panel P and the floor material 7 are radiated into the room R to radiate warm air into the room R, and the room R is heated to radiate the warm air into the room R through the small ventilation holes 6 and 8. The room R is heated by a combination with a replacement air conditioning heating system that blows out and replaces the cold air in the room R to heat the room R. The air after heating the inside of the room R is sucked by the air conditioner 2 from the reflux port 36 and reused.
[0040]
Further, FIG. 11 is a schematic longitudinal sectional view showing a second embodiment of the all-air type floor cooling and heating apparatus of the present invention. In the first embodiment, the pressure feeding means 6 is composed of an air compressor 35 and an air injector 37, but in the second embodiment, instead of the air compressor 35 installed outdoors, An air pump 50 installed in the air supply space 3 is used. When using the air compressor 35, since the compression efficiency is high, it is used in a place with a large area to be air-conditioned, such as a large building, and when using the air pump 50, the compression efficiency is not as high as the air compressor. It is used in places where the area to be air-conditioned is small, such as small buildings and ordinary houses.
[0041]
The second embodiment of the present invention will be described. In the air supply space 3, an air pump 50 that pumps at high pressure is disposed, and on the downstream side of the air pump 50, the cold pump sucked by the air pump 50 is provided. The upstream side of the air supply guide pipe 51 for feeding hot air to the primary air inflow pipe 39 of each air injector 37 at a high pressure is connected, and the downstream side is connected to the primary air inflow pipe 39. The operation and effect of the pumping means 6 composed of the combination of the air pump 50 and the air injector 37 are almost the same as those of the first embodiment, and detailed description thereof is omitted.
[0042]
【The invention's effect】
Since the present invention is as described above, the conditioned air of the cool and warm air of the air conditioner is pumped into the air-feeding space and cooled or heated from the lower surface of each panel board constituting the floor panel, and the floor A floor radiant cooling and heating system that radiates cool air or warm air from the panel to the room, and cold / warm air conditioned air from the air conditioner that is pressure-fed into the air-feeding space, each vent hole on the crimping portion, and each of the above-mentioned Pumped into the pressure feed passage of the panel board, and blown into the room through each vent small hole drilled in the floor material laid on the floor panel from each vent small hole on the pressure feed passage, Since it is combined with a replacement air conditioning cooling / heating system that replaces and cools or heats the room, the cooling / heating efficiency is good.
Furthermore, the used air after being cooled or heated using the cold / hot air blown into the room is returned to the air conditioner from the return port for reuse, so wasteful use of power. Can be suppressed.
[Brief description of the drawings]
FIG. 1 is a schematic longitudinal sectional view showing a first embodiment of an all-air type floor cooling and heating apparatus of the present invention.
FIG. 2 is a perspective view of a panel board in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 3 is a bottom view of the panel board in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 4 is a longitudinal sectional view showing a state in which a support leg and a panel board are joined and fixed in the all-air type floor cooling and heating apparatus of the present invention.
5 is a longitudinal sectional view showing a state in which the pressure feeding means is attached by cutting along line AA in FIG. 3. FIG.
6 is a longitudinal sectional view showing a state in which the pressure feeding means is attached by cutting along the line BB in FIG. 3. FIG.
FIG. 7 is a perspective view showing a panel board joined state by removing the floor material in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 8 is a partially cut-out plan view showing a joining state of a floor material and a panel board in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 9 is a cross-sectional view of an air injector constituting the pressure feeding means in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 10 is a schematic longitudinal sectional view showing a connected state of an air compressor and an air injector constituting a pressure feeding means in the all-air type floor cooling and heating apparatus of the present invention.
FIG. 11 is a schematic longitudinal sectional view showing a second embodiment of the all-air type floor cooling and heating apparatus of the present invention.
[Explanation of symbols]
P floor panel, R room, 1 slab, 2 air conditioner, 3 air supply space, 4 panel board, 5 vent hole, 6 pumping means, 7 flooring, 8 vent hole, 9 support leg, 14 top plate, 15 bottom plate, 16 flange, 17 pressure passage, 18 crimping part, 20 exhaust hole, 35 air compressor, 37 air injector, 50 air pump.

Claims (3)

A part of the lower surface plate is formed on the inner side surface of the lower surface plate surrounded by the flange by integrally bonding and fixing the peripheral surface portion of the lower surface plate having a concave cross section to the peripheral surface portion of the upper surface plate and projecting a flange on the peripheral edge. A pressure-fitting part that is crimped to the upper surface plate is provided with a radial frame-shaped pressure-feeding passage that is formed so that the width and direction impede the air flow to some extent. A ventilating small hole is formed in the crimping portion of the lower surface plate and a small vented hole communicating with the vented small hole of the upper surface plate is formed in the crimping portion of the lower surface plate, and a plurality of the panel boards are formed. A flat floor panel is formed by fixing on a plurality of support legs that are erected over a plurality of rows with a predetermined interval on the slab, and each panel board is further drilled on the floor panel. While laying the floor material with the vent hole and the vent hole penetrating therethrough, An air supply space for pumping cold / hot air conditioned air generated by an air conditioner is provided between the slab and the floor panel, and the cold / hot air conditioned air pumped to the air supply space is The floor panel is cooled or heated from the lower surface, and the floor radiant air conditioning system that radiates cool air or warm air from the floor panel to the room, and the cold / hot air conditioned air that is pumped to the air supply space, the air conditioning By blowing pressure of the machine, it blows out from the vent small hole of the crimping part of each panel board to the room through the vent small hole of the flooring, and at the center of each panel board through the pressure feeding means connected to each panel board. Exhaust pumped into the pressure-feeding passages located in the corners of the panel boards, and pumped into the pressure-feeding passages, blown out from the vent holes on the pressure-feeding passages through the vent holes in the flooring, and into the room. Do not blow into the room from the hole The remaining air-conditioning air is exhausted into the air-feeding space, and the air-conditioning air blown into the room from each vent hole is replaced with the air in the room to cool or heat the room, thereby cooling the room. An all-air floor heating / cooling apparatus comprising a combination with a replacement air-conditioning heating / cooling system that sucks and reuses heated air from the reflux port to the air conditioner. When the compressed air is sent from the air compressor installed outside the room, the air injector that communicates with the air compressor sucks the cold / hot air in the air supply space and sends it to the pressure feed passages of each panel board. The all-air type floor cooling and heating apparatus according to claim 1. When the air feeding means is supplied with air from an air pump installed in the air supply space, the air injector connected to the air pump sucks the cold / hot air in the air supply space and sends it to the pressure supply passages of each panel board. The all-air type floor cooling and heating apparatus according to claim 1.

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