JP6495419B1 - Inductive radiation unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an attractive radiation unit which can be installed easily, efficiently and labor-saving. SOLUTION: A first divided portion (1) having a duct connection portion (5) of supply air and installed in a non-air conditioned space (C) and through which the supply air passes, and a through hole formed in a partition member (7) (8) A second divided portion (2) attached to the first divided portion (1) through which mixed air passes through, and the second divided portion (2) is connected to the first divided portion (1) It comprises a frame (11) for induction air induction mounted and a radiating part (12) for the emission and emission of mixed air. [Selected figure] Figure 2

Description

  The present invention relates to an inductive radiation unit.

  The induction radiation unit shown in JP2011-21808A releases the mixed air of the air for air conditioning supplied from the duct and the air induced from the air conditioned space to the air conditioned space such as a room and the heat of the mixed air. It radiates to the air conditioned space. Thereby, comfortable air conditioning without temperature unevenness can be performed on the air conditioned space. The induction radiation unit is an integral structure and is installed in a non-air-conditioned space such as a ceiling of a building, and the portion of the induction radiation unit that emits and radiates mixed air is exposed to the air-conditioned space through a through hole of a partition member such as a ceiling plate. I am doing it.

Unexamined-Japanese-Patent No. 2011-21808

  The conventional induction radiation unit forms a penetration opening after construction of a ceiling board, and inserted and installed the whole induction radiation unit into a ceiling pocket from the penetration opening. Then I had to connect the supply air duct with a narrow ceiling. Therefore, there is a problem that it takes time and labor to install the system.

  In order to solve the above-mentioned subject, the present invention attracts the drawn air from the above-mentioned air-conditioned space of the building which divided the inside into the air-conditioned space and the non-air-conditioned space by the partition member, Supply air for air-conditioning supplied. An induction radiating unit of a two-part assembly structure for discharging mixed air of the air conditioning space to the air conditioned space and radiating the heat of the mixed air to the air conditioned space, the non-induction unit having the duct connection portion of the supply air And a second divided portion attached to the first divided portion through the through-hole formed in the partition member, the second divided portion may include The main feature is the provision of a frame and a radiation part attached to one divided part.

According to the invention of claim 1, before forming a non-air-conditioned space such as a ceiling pocket (prior to construction of a partition member such as a ceiling plate), the first division is installed in an open space without an obstacle; It can connect the duct of supply air. After that, since the frame of the second divided portion can be attached to the first divided portion through the through hole, the installation work can be facilitated and the efficiency and labor saving can be achieved.
The second divided portion can be easily positioned at the mounting position with respect to the first divided portion simply by fitting the shaft portion and the groove portion. Since the second divided portion can be temporarily fixed to the first divided portion using the holder, it is not necessary to manually maintain the fitting state of the shaft portion and the groove portion, and labor saving can be achieved. The holder can prevent the second divided portion from being detached from the first divided portion and falling or falling down, which is excellent in safety.
The attachment portion can be easily attached to and removed from the frame using the fastening portion, which facilitates the assembly operation. The shaft portion can be used both for positioning and temporary fixing of the frame body and attachment of the radiation portion, and the simple structure of only the shaft portion, the recess portion and the relief portion can reduce the manufacturing cost.

According to the invention of claim 2, since the fixing tool is a push rivet or a push turn rivet, no tool such as a driver is required, and the fixing operation of the first divided portion and the second divided portion can be performed quickly.

It is a perspective view of the ceiling installation state of the induction radiation unit of this invention. It is a perspective view in the state where an induction radiation unit was divided. It is sectional drawing of the state which attached the frame to the 1st division part. It is sectional drawing of the state which attached the radiation | emission part to a 1st division part and a frame. It is a top view of an induction radiation unit. It is XX sectional drawing of FIG.

  1 to 6 show the induction radiation unit of the present invention which is a two-part assembly structure, and a mixed air of the supplied air for air conditioning and the induction air induced from the air conditioned space S is an air conditioned space The heat is released to S and the heat of the mixed air is radiated to the conditioned space S. The induction radiation unit comprises a first division 1 through which the induction air and the supply air pass through, and a second division 2 through which the induction air and the mixture air pass through.

  The first divided portion 1 includes a casing 3, an air supply portion 4 and a duct connection portion 5. The duct connection portion 5 is connected to the air outlet of the air conditioner (not shown) via the duct 6. The casing 3 has an open end 9 facing the through hole 8 of the partition member 7 in a state where the casing 3 is installed in the non-air conditioned space C. The second divided portion 2 is attached to the first divided portion 1 through the through hole 8. In the illustrated example, the interior of the building is partitioned into a room to be air-conditioned S and a ceiling non-air-conditioned space C by a partition member 7 of the ceiling plate. The through hole 8 is formed in the partition member 7 of the ceiling plate.

  The second divided portion 2 includes a flanged frame 11 attached to the opening end 9 of the first divided portion 1 and a radiation portion 12 disposed inside the frame 11. The first divided portion 1 is provided with a shaft portion 17 for positioning the frame 11 at the mounting position. The frame 11 of the second divided portion 2 is provided with a groove portion 14 fitted with the shaft portion 17 and a holder 15 for holding the fitted state of the shaft portion 17 and the groove portion 14.

  The radiating portion 12 includes a fastening portion 16 for attaching and detaching the radiating portion 12 to the shaft portion 17. The fastening portion 16 is provided with a recess portion 18 which is fitted to the shaft portion 17 to prevent movement, and a relief portion 19 for removing the recess portion 18 from the shaft portion 17.

  In the illustrated example, a pair of shaft portions 17 are respectively protruded inward from one and the other of the opposing inner walls of the casing 3. The shaft 17 uses a bolt or the like. The fixing tool 20 for fixing the frame 11 of the second divided portion 2 to the first divided portion 1 uses a push rivet or a push turn rivet. The casing 3 of the first divided portion 1 and the frame body 11 of the second divided portion 2 have holes 24 through which the fixing tool 20 is passed.

  Hereinafter, an example of the installation method of an induction radiation unit is demonstrated. Before the construction of the partition member 7 of the ceiling plate, the casing 3 of the first divided portion 1 is suspended by a ceiling slab or the like in a state where the opening end 9 of the first divided portion 1 is directed to the indoor conditioned space S The duct 6 is fixed at 10, and the duct 6 is connected to the duct connection portion 5 of the first divided portion 1. Then, the partition member 7 of a ceiling board is constructed and according to the opening edge part 9 of the 1st division part 1, the penetration 8 is formed.

  Next, as shown in FIG. 3 (the air supply unit 4 and the like are not shown), the frame 11 of the second division 2 is inserted from the through hole 8, and the frame 11 is inserted into the shaft 17 of the first division 1. The groove portion 14 is inserted and temporarily held by the holder 15 so that the frame body 11 does not fall. The frame 11 of the second divided portion 2 is fixed to the casing 3 of the first divided portion 1 in a state where the flange portion of the frame 11 of the second divided portion 2 is in contact with the partition member 7 and the through hole 8 is hidden. Fix with the tool 20.

  In the illustrated example, a pair of groove portions 14 is provided on the opposing wall 21 of the frame 11 so as to face the shaft portion 17. The holder 15 is configured to be able to hold the shaft portion 17 in the groove portion 14 in a closed state by swinging. In the illustrated example, the holder 15 is formed of a lockable peristaltic piece, but it is also possible to use other openable / closable and lockable fittings.

  Next, as shown in FIG. 4 (the air supply unit 4 and the like are not shown), the radiation unit 12 is inserted into the inside of the frame 11, and the recess 18 is formed in the shaft 17 via the relief 19 of the retaining unit 16. And keep the radiating part 12 stationary. Thereby, the induction radiation unit is in an assembled state.

  The radiation portion 12 can be removed by pulling out the hollow portion 18 from the shaft portion 17 and removing it from the relief portion 19. The fastening portion 16 is configured by forming a semicircular recessed portion 18 and a relief portion 19 which is open in a row with the recessed portion 18 in the facing pieces 23 protruding from both ends of the radiation portion 12. In the illustrated example, a pair of fastening portions 16 is provided on the facing piece 23 of the radiation portion 12 so as to face the shaft portion 17 and face each other.

  As shown in FIGS. 5 and 6, the induction radiation unit in the assembled state includes an air supply unit 4, an air induction unit 25, a radiation unit 12 and an air purification unit 26. The thick dotted arrows in each figure indicate the air flow direction. The supply air jets from the air supply unit 4 to the radiation unit 12 and attracts the air of the conditioned space S via the air induction unit 25 by the attraction of the jetted supply air. While the supply air and the induction air are mixed and exit from the radiation unit 12 to the conditioned space S, the heat of the mixed air of the supply air and the induction air is radiated from the radiation unit 12 to the conditioned space S.

  The air supply unit 4 includes a line-like nozzle 27, and supply air fed from the outside is jetted from the nozzle 27 toward the radiation unit 12. The air induction unit 25 has a pair of line-shaped induction openings 28, and draws the air in the air-conditioned space S from the induction opening 28 into the radiation unit 12 by the induction action of the jet air coming out of the air supply unit 4.

  The radiation unit 12 includes a linear suction port 29, a large number of discharge holes 30, and a group of plates 32, and the mixed air of jet air of the air supply unit 4 and induction air of the air induction unit 25 is conditioned by the conditioned space S And discharge the heat of the mixed air to the conditioned space S. The group of plates 32 is configured by arranging a plate material such as aluminum having high heat transfer and heat emissivity spaced apart. The mixed air passes through the group of the plates 32 in a straight-flowing manner while diverging and diffusing, and exits from the discharge hole 30 to the conditioned space S. The heat of the mixed air transfers to the group of plates 32 and radiates from the discharge holes 30 to the conditioned space S.

  The air purification unit 26 produces at least one purification substance of positively charged and negatively charged ions, hydroxy radicals, superoxides, superoxide anions, active species such as ozone, which purifies substances to be cleaned by chemical reaction. . The purification substances are smokes, odors, fungi, viruses, allergens, and other substances that are suspended in the air-conditioned space S, which are smoked, deodorized, disinfected, inactivated, deactivated, and cleaned by chemical reactions such as oxidation. Do. The purification substance may be a substance other than the above.

  The air purification unit 26 includes a generation unit 33 and a blowout unit 31. The generation unit 33 discharges air into a plasma state to generate the above-described purification substance such as ions for charging the substance to be purified. The oxygen and water in the air are decomposed by the electrons in the plasma to generate active species such as ozone and ions. Various discharge methods such as corona discharge, barrier discharge, creeping discharge, arc discharge, microwave discharge, and pulse discharge may be appropriately used as a discharge method for obtaining a plasma state. The generation unit 33 is configured by a plasma generator using these methods.

  The blowout unit 31 is provided adjacent to the radiation unit 12 so as to blow out the purified substance to the conditioned space S by using a part of the mixed air of the radiation unit 12. The radiation portion 12 has a blowout hole portion 34 provided so as to pass from the inside of the radiation portion 12 to the inside of the blowout unit 31. The blowout hole portion 34 has a ventilation cross-sectional area such that the wind speed increases when part of the mixed air of the radiation portion 12 passes through the blowout hole portion 34. The generation unit 33 is provided inside the blowout unit 31. The mixed air which has been accelerated by passing through the blowout hole portion 34 flows into the inside of the blowout unit 31 and is blown out to the air conditioned space S along with the purification substance.

  The present invention is not limited to the above-described embodiment. In the illustrated example, the induction radiation unit is installed in the ceiling non-air-conditioned space C by partitioning the ceiling inside the building, but the ceiling in the building and the corner of the side wall are partitioned to create the non-air-conditioned space C The present invention is also applicable to the case where the induction radiation unit is installed in the case, or the induction radiation unit is installed in the non-air-conditioned space C of the vertically elongated corner cavity by partitioning the side wall inside the building and the corner portion of the side wall. The fitting structure of the shaft portion 17 and the groove portion 14 and the fitting structure of the shaft portion 17 and the recess portion 18 can be freely changed, and the number of the shaft portion 17, the groove portion 14, the recess portion 18 and the relief portion 19 can be increased or decreased.

DESCRIPTION OF SYMBOLS 1 1st division part 2 2nd division part 5 Duct connection part 7 Partition member 8 Through-opening 11 Frame 12 Radiation part 14 Groove part 15 Retaining part 16 Retaining part 18 Recess part 19 Recession part 20 Fixing part C Non-air-conditioned space S Air conditioned space

Claims (2)

Induction air which is induced from the air conditioned space (S) of the building, the inside of which is partitioned by the partition member (7) into the air conditioned space (S) and the non-air conditioned space (C), and supplied air for air conditioning supplied. And an induction radiation unit having a two-part assembly structure, which discharges mixed air to the conditioned space (S) and radiates heat of the mixed air to the conditioned space (S),
Via the first divided part (1) having the duct connection part (5) of the supply air and installed in the non-air conditioned space (C), and the through hole (8) formed in the partition member (7) A second divided portion (2) attached to the first divided portion (1);
The second divided portion (2) includes a frame (11) attached to the first divided portion (1) and a radiating portion (12) .
The first divided portion (1) includes a shaft portion (17) for positioning the frame (11) of the second divided portion (2) at a mounting position,
The frame (11) of the second divided portion (2) has a groove (14) fitted with the shaft (17), and a fitted state of the shaft (17) and the groove (14). And a holder (15) for holding the
The radiation portion (12) comprises a fastening portion (16) for attaching and detaching the radiation portion (12) to the shaft portion (17),
The fastening portion (16) is fitted in the shaft portion (17) to prevent movement, and a relief portion (19) for removing the recess portion (18) from the shaft portion (17) , An attractive radiation unit characterized in that. The attraction radiation according to claim 1 , further comprising a push rivet or a push turn rivet fixing tool (20) for fixing the frame (11) of the second divided portion (2) to the first divided portion (1). unit.

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