JP5274079B2 - Air conditioner and heat exchange unit used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently assemble a unit and to secure toughness of the unit, in a heat exchange unit for ceiling radiation type heating/cooling having a pipe in which the fluid passes and a panel supporting the pipe. <P>SOLUTION: The pipe 3 is bent zigzag in a plane view, and straight sections 3a of the pipe 3 are supported by individual panels 4. The panels 4 have the same cross-sectional shape, and the panels 4 adjacent to each other are suitable for each other. Each panel 4 is connected to a frame material 5 by forcibly fitting a first claw piece 16 formed on the panel 4 to a mushroom-shaped second claw piece 16 formed on the frame material 5 as connecting means. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a radiant air-conditioning apparatus that performs heating or cooling by passing a fluid (liquid or gas) through a pipe and discharging warm or cold heat of the fluid into a room, and a heat exchange unit used therefor.

Radiant air-conditioning systems are mainly installed on the ceiling, and are more harmful than direct blown air-conditioning systems that blow warm air or cold air into the room (especially during cooling). poor circulation) and there is no discomfort as possible out to be less likely to occur unevenness in temperature due to the location because it simple to widen the heat dissipation area, a fan is not out noise so required, is not winding the indoor dust Therefore, it has various advantages such as being suitable for hospital rooms and having excellent durability because there is no exercise part, and it is becoming popular in homes and hospitals. In general offices, the need for exhaust and air purification has been reduced due to the maintenance of indoor cleanliness due to the progress of smoking cessation. Therefore, it can be said that radiant air-conditioning systems are becoming widespread.

  A radiant air-conditioning system generally consists of a large number of heat exchange units formed in a square shape (generally rectangular) in plan view. A large number of heat exchange units can be arranged in a row in the vertical or horizontal direction, Units are arranged vertically and horizontally, or rows of heat exchange units are juxtaposed at appropriate intervals.

  Each heat exchange unit generally has a configuration in which a pipe meandering in a zigzag shape in a plan view is mounted on a panel, and the panel is supported by the edge of the building. The panel is exposed indoors and has a decorative role as a ceiling board. In addition, the panel needs to be devised in terms of cross-sectional shape in order to improve the efficiency of heat dissipation and heat absorption. Since the area of the exchange unit is quite large, if one heat exchange unit is composed of one panel, the panel alone has a considerable area and weight, which makes it difficult to process and handle.

  Therefore, it is considered that one heat exchange unit is composed of a plurality of panels. As an example, in Japanese Patent Application Laid-Open No. 2007-1113810 (Patent Document 1), in the case of having a zigzag pipe, the panel is divided into the number of straight portions of the pipe extending in a zigzag, and the pipe is held in each panel. Each panel and pipe are integrated by forming a pair of ridges, and the ridges are formed into cross-section ridges, while the ridges of the panels are placed on the cross members (field edges) arranged on the back of the ceiling A configuration in which a U-shaped suspension member to be held is fastened with a screw is disclosed.

In this patent document 1, the lower end portion of the suspension member has a hook shape (claw shape) that meshes with the projections of the panel, and during construction, when the projections of the panel are strongly pressed against the suspension member from below, It bends and deforms against its elasticity, whereby the projections of the panel and the suspension members on the edge are engaged, and the heat exchange unit is held so as not to drop.
JP 2007-1113810 A

  In Patent Document 1, it can be said that a plurality of panels and one pipe are combined into one heat exchange unit by using a zigzag pipe meandering as a panel connecting member. If an external force that twists the heat exchange unit is applied during installation or construction, the external force will concentrate on the bent part of the pipe, which may cause accidents that may deform or damage the pipe during transportation or construction. Is concerned.

In addition, there is a concern that pipe processing accuracy and bending deformation after processing will affect the posture of the panel, causing problems such as horizontal gaps and vertical steps between adjacent panels. There are still concerns about the appearance. Further, in Patent Document 1, a pipe is fitted between a pair of ridges in a panel, and then the ridges are bent inward, and the pipe is fixed to the panel by such bending processing. Processing is awkward. On the other hand, it is conceivable that each panel is fastened to the frame material (stay) with screws to form a heat exchange unit, but this also has a problem that it takes a lot of work to fix the screws.

  This invention makes it a subject to improve such a present condition.

The present invention includes a radiation type air conditioner and a heat exchange unit used therefor, and specific configurations are described in the claims.
The invention according to claim 1 relates to a heat exchanging unit, and the heat exchanging unit includes a group of elongated panels arranged in parallel to the ceiling, a pipe placed on the upper surface of each panel, and an upper part of each panel. The pipe is arranged between the panel and the frame material, and a group of pipes is constituted by the pipe of each panel, and the inside of the group of pipes said by pass fluid have a configuration in which chamber through each panel is cooling or heating, the frame member is Ri plurality Hon'a corresponding to said set of panels, each of these frame members, each of said panels together are arranged in parallel extend transversely, and protrudes to the outside of the group of the pipe, said each frame member and each panel, a phase and the respective frame member and the panel in a direction to overlap each other A group of panels is integrated only by the group of frame materials by connecting by means of fitting that elastically deforms and fits when moved, and each frame material is arranged on the ceiling of the building, etc. hanging the support member Ru attached to the the group of the panel and the pipe is adapted to be held in a stable state only by the frame member.

The invention of claim 2 relates to an air conditioner, and this air conditioner is composed of a large number of the heat exchange units described in claim 1, and each frame material is used as a field edge or other hanging support member of a building. It is attached.

The heat exchange unit and the air conditioner have various aspects as exemplified in claims 3 to 5. Of these, the invention according to claim 3 is the invention according to claim 1 or 2, wherein each of the panels is an extruded product, and adjacent panels are fitted portions that fit in the width direction or overlap in the thickness direction. Each of the panels is formed with a plate-like first claw piece that protrudes toward the frame material and extends long in the longitudinal direction of the panel as the connecting means. The frame material is provided with a second claw piece that meshes with the first claw piece of the panel as the connecting means, and each panel is provided with a support portion that contacts the lower surface of the frame material. Yes.

A fourth aspect of the present invention, in claim 3, wherein each panel is formed as one or more pairs first claw piece extending parallel protrudes toward the frame member, these first pawl A second claw piece projecting in a direction opposite to each other is formed at the leading edge of the pair of pieces, and the first claw piece and the second claw piece constitute a panel connecting means. The second claw piece is formed in a substantially bowl shape that is held by the pair of first claw pieces in the panel.

A fifth aspect of the present invention, in any one of claims 1 to 4, wherein each panel, the pipe has a pipe receiving portion of about half fits substantially semicircular section are formed, each pipe is held pressed by the pipe receiving portion by a semicircular cross section of the pressing member, and, in said pressing member and the pipe receiving portion, flat portion overlap each other at the site of both sides of the pipe is formed .
A sixth aspect of the present invention provides the method according to any one of the first to fourth aspects, wherein the frame member has two side plates and is opened downward, and a claw piece as the connecting means is provided on the side plate. It is integrally formed.

  Although the term “cooling or heating” is used in the claims of the present application, this includes three modes: a case where both cooling and heating are performed, a case where only cooling is performed, and a case where only heating is performed. Therefore, the air conditioning apparatus includes both the case where only cooling is performed and the case where only heating is performed.

  In the present invention, the plurality of panels and the frame material are connected to each other and unitized into one unit, so that high rigidity can be secured as a whole unit. Further, even if an external force that twists the heat exchange unit is applied, the external force does not reach the pipe, and the pipe is not deformed or damaged unless the external force is applied to itself.

  Further, since the connection between the panel and the frame material is performed by forcible fitting of the connection means, the connection between the panel and the frame material can be performed with one touch, so that the heat exchange unit can be assembled efficiently. .

  As described above, in the present invention, a heat exchange unit having a plurality of panels can be assembled quickly and with a sturdy structure, and as a result, not only can the assembly efficiency of the heat exchange unit be improved, but also heat exchange. The construction efficiency can be improved because there is no need to pay extra attention to the handling of the unit. In addition, since the panel can be accurately positioned by the frame material, the accuracy after assembly as a heat exchange unit can be increased, and as a result, it is possible to contribute to prevention of deterioration of aesthetic appearance.

In claim 1 or 2, it is possible to use, for example, a sheet metal processed product as a panel. However, if an extruded product is used as in claim 3, a significant cost reduction can be achieved by making each panel have the same cross-sectional shape. As well as improving the dimensional accuracy. Further, when the adjacent panels are fitted in the width direction, the overall rigidity can be increased, and the problem that a gap is generated between the adjacent panels and the aesthetics are deteriorated can be accurately prevented.

On the other hand, in claim 3, when the end portions of adjacent panels are stacked in the thickness direction, a gap between adjacent panels is generated, and the problem that the aesthetics are deteriorated can be accurately prevented. When the panels are connected to the frame material in order from the end, the subsequent panel is merely pressed against the frame material even if the posture is not inclined, so that the labor of assembling can be further reduced.
Further, when the support portion hits the lower surface of each frame material, each panel is held in a stable state, and rattling is prevented.

Although various modes can be adopted as the connecting means, if a mode in which the pair of first claw pieces in the panel holds the bowl-shaped second claw portion in the frame material as in claim 4 is adopted, the first claw pieces There by extending long in the longitudinal direction of the panel, is better because can be arbitrarily set the position of the frame member, a heat exchange unit to the freedom, flexibility when being assembled. Further, since the first claw piece extends long in the longitudinal direction of the panel and has a high bending strength, the first claw piece is not plastically deformed when mated with the second claw portion, and thus the strength is excellent. Yes.

  Since there is no forced air blowing in a radiant type air conditioner, the heat of the fluid must be released into the room as much as possible. In this respect, if the pipe is configured as in claim 5, the entire pipe is held by the pipe receiving portion of the panel and the pressing member, and the flat portion of the pressing member and the panel is overlapped. The heat transferred to the panel is also efficiently transferred to the panel, and as a result, the thermal efficiency can be improved (in Patent Document 1, since a part of the pipe remains exposed in the ceiling space, heat loss occurs. large.).

The panel is preferably made of a material having high thermal conductivity from the viewpoint of thermal efficiency, and is required to be lightweight and strong. These conditions are satisfied material is Aluminum also preferable to employ a light alloy such as aluminum alloy.

  Next, an embodiment of the present invention will be described with reference to the drawings. The present embodiment is applied to a ceiling-mounted air conditioning apparatus. FIGS. 1 to 5 show the first embodiment, and FIG. 6 and the following show the second to seventh embodiments. Hereinafter, description will be made sequentially.

(1). Among the structural diagram 1 of the first embodiment (A) is a schematic perspective view of the ceiling portion which is installed air conditioning apparatus from below according to the first embodiment, the ceiling of the chamber a number a plurality of heating and cooling unit comprising side by side of the heat exchange unit 1 in a row are arranged, Ru is arranged illumination unit (illumination heat exchange unit) 2 is provided between the cooling and heating portions adjacent Tei. That is, the air conditioning unit and the illumination unit (illumination heat exchange unit) 2 are alternately arranged.

  In this embodiment, there is not much profit to distinguish the heat exchange unit 1 from the air conditioning unit, and it can be considered that one heat exchange unit 1 constitutes one air conditioning unit, or a plurality of heat exchange units. Although it can be considered that one air conditioning apparatus is configured by the unit 1, in the following description, it is assumed that one air conditioning apparatus is configured by a large number of heat exchange units 1.

Each heat exchange unit 1 is the same structure, exhibits the appearance of elongated rectangular in plan view (bottom view), the group of heat exchange unit 1 are arranged in a straight line in the longitudinal direction (A direction).

1A is drawn with the main purpose of showing the layout of the heat exchange unit 1 and the illumination unit 2, but FIG. 1B shows the heat exchange unit 1 closer to actuality. It is the drawn bottom view, and as shown to this FIG. 1 (B), the heat exchange unit 1 is exhibiting the external appearance in which many stripes extended in the arrangement direction (A direction) appeared. Details of the heat exchange unit 1 will be described below with reference to FIG. In the following description, the words “front”, “side”, and “left / right” are used. This is based on the state of facing the longitudinal direction (A direction) of the heat exchange unit 1 as viewed from the front.

2 is a plan view of the heat exchange unit 1, FIG. 3 is a sectional view taken along the line III-III in FIG. 2, FIG. 4A is a separated front sectional view of the main part, and FIG. FIG. 5 is a view showing an example of a hanging support portion of a building .

  As can be understood from FIGS. 2 and 3, the heat exchange unit 1 is formed by connecting a pipe 3 meandering in a zigzag shape in a plan view, a plurality of panels 4 supporting the pipe 3, and a group of the panels 4. The main frame member 5 is a frame member 5 for forming the pipe 3 and the pressing member 6 for holding the pipe 3 to the panel 4. The pipe 3 is composed of six straight portions 3a extending in parallel and five U-turn portions 3b connecting the adjacent straight portions 3a. Therefore, the straight portions 3a located at both ends open in the same direction. ing.

Needless to say, one of the ends of the pipe 3 is an inlet and the other is an outlet, and a pipe 8 is connected to each other via a joint 7. Moreover, the pipe 3 can also make an inflow port and an outflow port located in the opposite side by making the straight part 3a into an odd number.

The pipe 3 is composed of one piece bent in a zigzag shape. However, in the present invention, the straight portion 3a is considered as one pipe. Therefore, in the present embodiment, one heat exchange unit 1 has six pieces. ("Pipe 3" is synonymous with "Pipe Group 3").
One panel 4 is arranged corresponding to one straight portion 3 a in the pipe 3, and thus one heat exchange unit 1 has six panels 4. Each panel 4 has the same shape and the same size, and an extruded product of aluminum is cut into the same size and used. Each panel 4 has an elongated flat plate shape as a whole. As shown in FIG. 3, in the present embodiment, the horizontal direction is the width direction and the vertical direction is the thickness direction.

As shown in FIGS. 3 and 4, the panel 4 is integrally provided with a plurality (five) of downward ribs 9, 9 ′ on the lower surface thereof at equal intervals. The lower ends of the respective downward ribs 9, 9 'are slightly wider, and therefore each downward rib 9, 9' has an inverted T shape. The presence of the group of the downward ribs 9 and 9 'increases the heat radiation area to the room and contributes to the improvement of the thermal efficiency, and the group of the downward ribs 9 and 9' has a stripe shape as shown in FIG. As a result, the heat exchanging unit 1 is given high decorativeness.

One of the group of the downward ribs 9 and 9 'is an end rib 9' located at one end of the panel 4, and two flat portions are arranged in the vicinity of the end rib 9 'in the flat plate portion of the panel 4. A two-stage stepped end support portion 10 having two horizontal portions is formed to extend upward and outward, and an outward opening groove 11 is vacant between the end support portion 10 and the flat plate portion. ing. The end support part 10 is an example of the support part described in the claims.

On the other hand, the other end of the panel 4 opposite to the end rib 9 ′ is formed with a substantially L-shaped stepped portion 12 whose height is increased by the plate thickness of the flat plate portion of the panel 4. The part 12 fits into the outward opening groove 11 of the adjacent panel 4 (a slight clearance is provided between the raised part 12 and the outward opening groove 11 in the vertical and horizontal directions. ). In the present embodiment, the outward opening groove 11 and the stepped-up portion 12 correspond to the fitting portion described in the claims.

The substantially lateral middle portion out of the upper surface of the panel 4, upwardly opening semi-circular pipe receiving portion 13 is formed so as to extend over the entire length. The left and right ends of the pipe receiving portion 13, a horizontal-like flange 13a is formed integrally. On the other hand, the pressing member 6 is a downwardly recessed semicircular shape that overlaps the upper half of the straight portion 3 a of the panel 4, and flanges 6 a are formed at both left and right ends. The flange 6 a of the pressing member 6 and the pipe receiving portion 13 The flange 13a is in close contact with the flange 13a. The flange 6a of the flange 13a and the pressing member 6 of the pipe receiving portion 13, which is an example of a flat portion of claim.

As an example of the support portion described in the claims, a stopper piece 14 for maintaining a posture is projected from a portion of the upper surface of the panel 4 which is close to the raised portion 12. A pair of left and right plate-shaped first claw pieces 15 project from a portion between the receiving portion 13. At the upper ends (tips) of the left and right first claw pieces 15, inward flange portions 15 a that protrude in opposite directions are formed. The first claw piece 15, the stopper piece 14, and the end support portion 10 have the same height, and the stopper piece 14, the end support portion 10, and the pressing member 6 come into contact with the lower surface of the frame material 5. While being held in a stable state, displacement and backlash of the pressing member 6 and the pipe 3 are prevented.

The frame material 5 uses groove-shaped steel (or a sheet metal processed product) having a U-shaped cross-section opening downward, and extends above each panel 4 in a direction orthogonal to the panel 4 in plan view. In the present embodiment, three frame members 5 are arranged in parallel in one heat exchange unit 1 and used. Then, six second claw pieces 16 that protrude between the left and right first claw pieces 15 of each panel 4 are provided on the front and rear side plates 5a of each frame member 5 so as to protrude downward.

  The second claw piece 16 has a pair of outward flange portions 16 a that protrude in opposite directions, and the outward flange portion 16 a of the second claw piece 16 and the outward flange portion of the first claw piece 15 in the panel 4. 15a is configured to mesh with each other by a forced fitting that elastically deforms the second claw piece 16 and the first claw piece 15 (mainly the first claw piece 15 is predicted to be elastically deformed). In the frame material 5, a base portion of the second claw piece 16 is formed with a stealing portion 17 for ensuring the fitting with the first claw piece 15.

As clearly shown in FIG. 4 (B), in this embodiment, the portion located below the upper surface of the inner outward hook 16a of the second pawl piece 16, the reinforcing piece 16b entering the interior direction of the frame member 5 Is formed by bending. For this reason, the rigidity of the second claw piece 16 is increased, and the catching area (supporting area) of the inward flange 15a in the first claw piece 15 is increased, which contributes to the improvement of the stability of the panel 4. . Further, in the present embodiment, the frame material 4 is in contact with the stopper piece 14, the end support portion 10 and the pressing member 6 in a state where the claws 15 and 16 are engaged with each other, so that no special pressing means is provided. As a whole, it is maintained in a state without rattling.

(2) Summary of First Embodiment As can be understood from the above description, the first claw pieces 15 and the second claw pieces 16 are forcibly moved by relatively moving the panels 4 and the frame members 5 in the overlapping direction. By fitting, the frame material 5 and each panel 4 are connected, and one heat exchange unit 1 is assembled.

As a procedure for assembling the heat exchange unit 1, a method in which the six panels 4 are fitted together and then connected to the frame material 5 may be adopted, or the panel connected to the frame material 5 in advance. It is also possible to adopt a method in which the adjacent panel 4 is fitted to 4 and connected to the frame material 5 in order. When connecting sequentially from the end, they may be mounted sequentially from the left in the state of FIG. 4 or may be mounted sequentially from the right. In any case, the succeeding panel 4 is inclined in front view, and the outward opening 11 and the raised part 12 are first fitted, that is, the preceding panel 4 and the succeeding panel 4 are fitted to the end portions thereof. The first claw piece 15 and the second claw piece 16 may be forcibly fitted together by fitting in the width direction and forcibly pushing up the whole upward.

The method of holding the heat exchange unit 1 on the ceiling of the building is selected according to the suspension structure of the back of the ceiling, but in any case, generally, the frame material as shown in FIGS. 5 is often fixed to the field edge 18 by appropriate means such as screwing or welding. It shows an example of the support means of Figure 5 in ceiling joists 18, in the example of these (A), and placing the ends of the ceiling joist 18 to the horizontal piece 19a of the cross beam 19 made of H-type steel. Although not shown in the figure, generally, the field edge 18 is supported by the beam material 19 via a metal fitting so as not to move.

  In the example shown in FIG. 5 (B), the field edge 18 is suspended and supported by a suspension bolt 20 hanging from a ceiling slab (not shown). Reference numeral 21 denotes a hanging metal fitting. Although not shown, it is also possible to connect the frame material 5 to a hanging support member such as a field edge with a metal fitting.

In the present embodiment, only one pair of first claw pieces 15 is provided on one panel 4, but the adjacent panels 4 in the assembled state as the heat exchange unit 1 have an outward opening 11, a raised part 12, Are fitted and integrated with each other, so that each panel 4 is held in a stable state. This is one of the great advantages of this embodiment. Moreover, since the pressing member 6 has the same cross-sectional shape and is an extruded product such as aluminum similar to the panel 4, the manufacturing cost can be significantly reduced.

(3). Second embodiment (FIG. 6)
FIG. 6 shows a second embodiment. The second embodiment is basically similar to the first embodiment. As a difference from the first embodiment, the first stopper piece 14a is formed in the vicinity of the end rib 9 'on the upper surface of the panel 4. On the other hand, the second stopper piece 14b is formed at the end of the raised portion 12 as an example of the support portion described in the claims . Therefore, the step-like end support portion 10 of the first embodiment is not provided. Further, the stealing portion 17 is not formed on the frame material 5, and the reinforcing piece 16 b of the second claw piece 16 is not provided.

In the second embodiment, the adjacent panels 4 are such that the end portion of one panel 4 and the raised portion 12 of the other panel 4 are only overlapped in the vertical direction. In assembling, when the panel 4 is connected to the frame material 4 sequentially from the right in the state of FIG. 6, the panel 4 is pressed against the frame material 5 to fit the first claw piece 15 to the second claw piece 16. Therefore, there is no need to fit the end of the panel 4 in a slanted posture, so that both the claws 15 and 16 can be easily fitted and the labor required for assembly can be reduced.

Assembly of the heat exchanger unit 1 is arranged frame member 5 to the work surface such as a table, can you performed the procedure as Ru fitted both claw portions 15 and 16 by pressing the panel 4 from above It can be said. Moreover, the heat exchange unit 1 may be assembled at a factory and carried to the site, or may be assembled at a construction site.

(4) Third embodiment (FIG. 7)
FIG. 7 shows a third embodiment. In this embodiment, the pipe receiving portion 13 has a semicircular cross section and is formed to protrude downward from the reference surface of the panel 4, and the semicircular downward protrusions 22, 22 having the same cross sectional shape as the pipe receiving portion 13. 'Is formed on both the left and right sides of the pipe receiving portion 13. In this embodiment, both sides of the panel 4 sandwiching the pipe receiving portion 13 are flat portions described in the claims.

The downward projections 22, 22 ′ are a kind of dummy formed for cosmetic purposes. Of the downward projections 22, 22 ′, the one located on the right side of the pipe receiving portion 13 in FIG. 7 is the end downward facing the end of the panel 4. An inward portion 23 is integrally provided at an outer end portion of the end downward projection 22 ′, and a first stopper piece 14 a is formed at the tip of the inward portion 23. On the other hand, a first stopper piece 14b is formed at the end of the panel 4 opposite to the end downward projection 22 '.

In this embodiment as well, as in the second embodiment, the adjacent panels 4 have only their end portions overlapped vertically, so that the mounting work to the frame material 5 can be performed easily as in the second embodiment. Yes. In the third embodiment , the straight portion 3 a of the pipe 3 protrudes halfway (outside) from the flat portion of the panel 4, so that the distance between the flat portion of the panel 4 and the frame material 5 is small. . Therefore, in this embodiment, there is an advantage that the heat exchange unit 1 can be thinned. Further, the lower surface of the panel 4 is given decorativeness by the lines of the pipe receiving portion 13 and the downward convex portions 22 and 22 'appearing as a striped pattern.

(5). Fourth embodiment (FIG. 8)
FIG. 8 shows a fourth embodiment. (A) is a front view, (B) is a BB view sectional view of (A). In this embodiment, a square steel pipe is used as the frame material 5, a U-shaped member 24 made of a metal plate such as a steel plate is fixed to the frame material 5 by spot welding or the like, and the second claw piece is attached to the U-shaped member 24. 16 is formed. The second pawl piece 16 can also be formed by cutting and raising a side plate of the frame member 5.

(6). Fifth embodiment (FIG. 9)
FIG. 9 shows a fifth embodiment. (A) is a partial front sectional view, and (B) is a sectional view taken along line BB of (A). In this embodiment, the panel 4 is basically similar to the third embodiment, and a pair of first claw pieces 15 having an inwardly facing flange portion 15a are formed on the panel 4. On the other hand, the frame material 5 uses a C-shaped channel material that opens upward, and a pair of second claw pieces 16 having outward flange portions 16a are formed by cutting and raising the bottom plate 5b.

The holding member 6 of the pipe 3 is held so as not to be detached by being fitted into locking claws 25 provided at both ends of the arcuate pipe receiving portion 13, but is held by the frame material 5 as in the third embodiment. It is also possible to fix. Further, in the present embodiment, the first claw piece 15 also serves as a stopper for the frame material 5, but it is also possible to provide a plate-like stopper piece as a separate element as in the above-described embodiment. .

(7). Sixth embodiment (FIG. 10)
FIG. 9 shows a sixth embodiment. (A) is a partial front sectional view, and (B) is a sectional view taken along line BB of (A). In this embodiment, the panel 4 has a pair of first claw pieces 15, an arcuate pipe receiving portion 13, a downward projection 22, and a stopper piece 14, as in the third embodiment.

  The frame member 5 has a U-shaped cross-section with a downward-facing cross-section, and an engagement groove 26 is formed on the front and rear side plates 5a as an example of a connecting means to fit and engage the pair of first claw pieces 15. Yes. The engaging groove 26 has an inwardly stepped portion 26 a on which the outward flange 15 b of the first claw piece 15 is placed.

Further, the portion of the side plate 5a of the frame member 5 that contacts the stopper 28 and the portion that contacts the pressing member 6 are tongue pieces 27 formed by making two cuts opened downward. Is curved in advance so that the stopper 14 and the pressing member 6 are always elastically pressed.

(8). Seventh embodiment (FIG. 11)
FIG. 11 shows a seventh embodiment. In this embodiment, the panel 4 is similar to the third embodiment, and includes an arcuate pipe receiving portion 13 and downward projections 22 and 22 '. In addition, an inward portion 23 is integrally formed on the end downward projection 22 ′ of the panel 4, and a holding portion 28 having a substantially L-shaped cross section is formed on the inward portion 23. 4 is formed with an outward opening 29 at one end thereof, and an upright piece 30 fitted into the adjacent holding portion 28 is formed at the end of the panel 4 opposite to the end downward projection 22 '. Has been.

  The standing piece 30 and the holding portion 14 are set so as to be fitted with a slight clearance in the vertical direction and the horizontal direction. In this embodiment, the frame member 5 is screwed with a screw 31 for holding the pipe presser 6. Of course, as shown by a two-dot chain line, it is possible to eliminate rattling by placing the lower surface of the frame material 5 against the pipe retainer 6 or the holding portion 28.

(9). Others While several embodiments of the present invention have been described above, the present invention can be embodied in various ways. For example pipes is because not necessarily meanders in a zigzag shape as embodiment, also, the cross-sectional shape need not be circular (perfect circle). Moreover, the specific shape of the panel or frame member may be variously embodied.

  In each embodiment, as the panel connecting means, it is also possible to form a plurality of pairs of first claw pieces, or to form a pair of outward flanges at the leading edge of one first claw piece. is there. Various methods can also be adopted for the force-fitting type coupling means using elastic deformation.

(A) is the schematic perspective view which looked at the ceiling part which installed the air conditioning apparatus which concerns on 1st Embodiment from the downward direction, (B) is a bottom view of a heat exchange unit. It is a top view of a heat exchange unit. FIG. 3 is a sectional view taken along line III-III in FIG. 2. (A) is the isolation | separation front sectional view of the principal part, (B) is the isolation | separation perspective view of the principal part. It is a figure which shows the example of the hanging support part of a building. It is a figure which shows 2nd Embodiment. It is a figure which shows 3rd Embodiment. It is a figure which shows 4th Embodiment. It is a figure which shows 5th Embodiment. It is a figure which shows 6th Embodiment. It is a figure which shows 7th Embodiment.

1 Heat exchange unit
3 pipes (group of pipes)
3a Straight portion of pipe 4 Panel 5 Frame material 6 Holding member 6a Flange as an example of flat portion of holding member
DESCRIPTION OF SYMBOLS 10 End support part 13 which comprises support part Pipe receiving part 13a Flange 14 as an example of the flat part in a panel 14, 14a, 14b Stopper piece which comprises support part 15 1st nail | claw piece 15a which forms a part of connection means Part 16 Second claw piece forming part of connecting means 18 Field edge as an example of suspension member

Claims (6)

A group of elongated panels arranged in parallel to the ceiling, a pipe placed on the upper surface of each panel, and a frame material arranged above each panel, the pipe comprising a panel and a frame material And a group of pipes is constituted by the pipes of each panel, and a room is cooled or heated through each panel by allowing fluid to pass through the inside of the group of pipes. There,
The frame material Ri plurality Hon'a corresponding to said group of panels, each of these frame members, said with are arranged in parallel extend in the direction transverse to the panel, which protrudes to the outside of the group of the pipe ,
Said each frame member and each panel, said by linking with each frame member and each panel when the a is relatively moving in a direction to overlap each other elastically deformed to fits fit connecting means, the panel only in groups of the frame member It is integral to the group of the the respective frame member is Ru attached to ceiling joists other hanging support member disposed in the ceiling portion of a building, in a state where the group of the panel and the pipe is stabilized only by the frame member Retained,
Heat exchange unit for air conditioning units. It is composed of a large number of heat exchange units according to claim 1, and each frame material is attached to a field edge or other suspension member of a building,
Air conditioning unit. Each panel is an extruded product, and adjacent panels are formed with a fitting part that fits in the width direction or a superposition part that overlaps in the thickness direction, and each panel has the above-mentioned As the connecting means, a plate-like first claw piece that protrudes toward the frame material and extends in the longitudinal direction of the panel is formed. On the other hand, the frame material has a first nail piece as the connecting means. A second claw piece that meshes with one claw piece is provided, and a support portion that contacts the lower surface of each frame material is provided on each panel.
The heat exchange unit according to claim 1 or the air conditioning apparatus according to claim 2. The direction in each panel are formed as one or more pairs first claw piece extending parallel protrudes toward the frame member, the leading edge of the pair of first claw piece, which is opposite and the second pawl piece formed to protrude, while the connecting means of the panel between the first claw and the second claw piece is formed, the second pawl piece of the frame member is a pair of said panels It is formed in a substantially bowl shape that is held by the first nail piece ,
The heat exchange unit or air-conditioning apparatus as described in any one of Claims 1-3. Each panel is formed with a pipe receiving portion having a substantially semicircular cross section in which the pipe fits about half way, and each pipe is held and held by the pipe receiving portion by a holding member having a semicircular cross section, and, on said pressing member and the pipe receiving portion, flat portion overlap each other at the site of both sides of the pipe is formed,
The heat exchange unit or air-conditioning apparatus as described in any one of Claims 1-4. The frame material has two side plates and opens downward, and claw pieces as the connecting means are integrally formed on the side plates.
The heat exchange unit or the air conditioning apparatus described in any one of Claims 1-5.

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