JP7134456B2 - Construction method and support device for air conditioner - Google Patents

Description

TECHNICAL FIELD The present invention relates to a ceiling hanging type air conditioner installation method and support device.

Conventionally, one of the methods for installing a ceiling-suspended air conditioner is to use a three-dimensional frame capable of accommodating the air conditioner inside (for example, Patent Document 1). In this conventional method, the steps of assembling a plurality of frame members to form a stand and the step of attaching an air conditioner and various pipes to the stand to form a unit are performed at a factory other than the construction site. A plurality of frames unitized at a factory are transported from the factory to the construction site while being loaded on pallets. At the construction site, work is performed to fix the unitized frame to suspension bolts suspended from the ceiling slab.

According to this construction method, since various pipes connected to the air conditioner are supported by the suspension bands attached to the frame, there is no need to install suspension bands on the ceiling slab during high-place work at the construction site. , work efficiency is excellent.

JP 2010-249401 A

However, in the conventional construction method, the air conditioner and various pipes to be installed at the construction site are transported to the factory once because the work of assembling the air conditioner and various pipes to the mounting frame to form a unit is done at the factory. Therefore, the transportation efficiency is poor and the transportation cost is increased. In addition, the unitized stand has a three-dimensional frame structure to prevent damage to the air conditioner inside. This is a factor that significantly lowers the efficiency.

Further, in the conventional construction method, a plurality of unitized pedestals are loaded on a pallet and transported to a building to be a construction site. Therefore, pallets must be placed outside the building when there is not enough space to carry the pallets into the building, or when there is not enough space to store the pallets inside the building. In this case, the worker has to take the unitized racks one by one from the construction site floor to the pallet placed outside the building, which may increase the burden on the worker. have a nature.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and provides a construction method and a support device for an air conditioner, which are superior in transportation efficiency to conventional ones and can reduce the burden on workers at the construction site. intended to provide

In order to achieve the above objects, firstly, the present invention provides a method for installing a ceiling-suspended air conditioner, comprising a ceiling-suspended frame formed by assembling a plurality of frame members in a rectangular shape in a horizontal plane. a suspension frame preparation step of preparing a body; a support member mounting step of attaching a support member to the frame member forming the ceiling suspension frame in a state in which it is suspended; an air conditioner mounting step in which the air conditioner is mounted on the ceiling suspension frame by connecting the lower end of the support member to the air conditioner; The ceiling suspension frame to which the air conditioner is connected is conveyed from the ceiling slab to a predetermined height position, and the frame material is fixed to suspension bolts hanging down from the ceiling slab to lift the ceiling suspension frame. and a step of installing the suspension frame at the predetermined height position.

According to this construction method, the transportation efficiency is superior to that of the conventional method, and the burden on workers at the construction site can be reduced.

Secondly, the present invention provides, in the first construction method, a suspension member attaching step of attaching a suspension member to the frame member forming the ceiling suspension frame in a state in which the suspension member is suspended, and and a pipe mounting step of mounting a pipe that has been processed into a predetermined shape in advance.

Thirdly, according to the present invention, in the second construction method, the ceiling suspension frame installing step is performed after the air conditioner and the pipes are attached to the ceiling suspension frame. It is something to do.

Fourthly , according to the present invention, in the second or third construction method, the plurality of frame members are provided with a first mark in advance at a position where the support member is to be attached. be.

Fifthly , according to the present invention, in any one of the second to fourth construction methods, the plurality of frame members are provided with second marks in advance at positions where the hanging members are to be attached. It is something to do.

Sixthly , in the construction method according to any one of the second to fifth aspects, the pipe includes a refrigerant pipe that is formed in a predetermined shape in advance outside the construction site, and the refrigerant pipe is installed in at least one place. It is characterized by having a branched portion.

Seventhly , in the construction method according to any one of the first to sixth aspects, the deck plate before placing the ceiling slab according to the arrangement of the plurality of frame members forming the ceiling suspension frame. Alternatively, the method further comprises a step of installing the insert in advance in the formwork.

Eighth , according to the present invention, in any one of the first to seventh construction methods, the suspension frame includes a lower frame and an upper frame attached to the lower frame, and The suspension frame preparing step includes a step of separately preparing the lower frame and the upper frame.

Ninthly , according to the present invention, in the eighth construction method, the suspension frame preparing step includes a step of previously fixing the upper frame to the upper part of the lower frame. .

According to a tenth aspect of the present invention, in the eighth construction method, the ceiling suspension frame preparation step includes a step of previously fixing the upper frame to the ceiling slab, and the ceiling suspension frame installation step includes and a step of conveying the lower frame from the ceiling slab to the predetermined height position and fixing the lower frame to the upper frame.

Advantageous Effects of Invention According to the present invention, transportation efficiency is superior to that of the conventional art, and the burden on workers at construction sites can be reduced.

It is a figure which shows one structural example of the support apparatus which supports an air conditioner. FIG. 4 is a diagram showing a configuration example of a frame member that constitutes a ceiling suspension frame; It is a figure which shows the structural example of a suspension frame. It is a figure which shows an example of the attachment aspect of a support bolt and a suspension band. FIG. 4 is a diagram showing a state in which support bolts and suspension bands are attached to the suspension frame. It is a figure which shows an example of the deck plate before a ceiling slab is cast. It is a figure which shows each process at the time of constructing a ceiling hanging type air conditioner. It is a figure which shows one structural example of the suspension frame in 2nd Embodiment. FIG. 4 is an enlarged view of an upper frame configured as a gate-shaped frame structure; It is a figure which shows the support apparatus in 2nd Embodiment. It is a figure which shows each process of the 1st construction method in 2nd Embodiment. It is a figure which shows each process of the 2nd construction method in 2nd Embodiment.

Preferred embodiments of the present invention will now be described in detail with reference to the drawings. In each drawing referred to below, the same reference numerals are given to the members common to each other, and overlapping descriptions thereof will be omitted.

(First embodiment)
First, a first embodiment of the present invention will be described. FIG. 1 is a diagram showing a configuration example of a support device 1 that supports a ceiling-suspended type air conditioner 10 in the first embodiment of the present invention. FIG. 1 shows a three-axis coordinate system of XYZ orthogonal to each other, which is a coordinate system common to the three-axis coordinate systems shown in other drawings. This support device 1 includes a rectangular ceiling suspension frame body 2 constructed by assembling a plurality of frame members 3a to 3f having slits 33 in the longitudinal direction in one plane (in the XY plane), and a ceiling suspension frame. Support members 4a to 4d that are attached to the slits 33 of the plurality of frame members 3b and 3c that constitute the body 2 so as to hang down from four predetermined positions and that support the four corners of the air conditioner 10. , pipes 21 and 25 attached to the slits 33 of the plurality of frame members 3a, 3e, and 3f constituting the ceiling suspension frame 2 so as to hang down from predetermined positions and connected to the air conditioner 10. Suspension members 5a to 5f, 6a, and 6b for supporting the . In the following description, the support members 4a to 4d are support bolts, the suspension members 5a to 5f, 6a, and 6b are suspension bands, the pipe 21 is a refrigerant pipe, and the pipe 25 is a drain pipe. An example will be described.

The support device 1 supports the air conditioner 10 in a suspended state from the ceiling suspension frame 2 with four support bolts 4a to 4d, and is connected to the air conditioner 10 with a plurality of suspension bands 5a to 5f. The refrigerant pipe 21 is suspended from the ceiling suspension frame 2, and the drain pipe 25 connected to the air conditioner 10 is suspended from the ceiling suspension frame 2 by a plurality of suspension bands 6a and 6b. To support. The support device 1 is fixed to hanging bolts, which are bar-shaped members hanging down from the ceiling slab, thereby supporting the air conditioner 10 at a predetermined height below the ceiling slab.

FIG. 2 is a diagram showing a structural example of the frame members 3a to 3f that constitute the suspension frame 2. As shown in FIG. As shown in FIG. 2(a), the frame members 3a to 3f are connected in such a manner that flat plate portions of a pair of shape steels 31 and 32 such as lip channel steel or light channel steel are opposed to each other at a predetermined interval. Configuration. Specifically, as shown in FIG. 2(b), holes 31a, 31b, 32a, 32b through which bolts 35 are inserted are provided at both ends of a pair of shaped steels 31, 32 having the same length. , and bolts 35 are inserted through the holes 31a, 31b, 32a, 32b, and nuts 36 are fastened to the ends of the bolts 35, thereby connecting the pair of shaped steels 31, 32 together. At this time, a slit 33 with a predetermined interval is formed between the shaped steels 31 and 32 by inserting a cylindrical spacer 34 into the shaft portion of the bolt 35 between the shaped steels 31 and 32 . The interval between the slits 33 is such that the suspension bolts, the support bolts 4a to 4d, etc. can be inserted. Therefore, each of the frame members 3a-3f can be fitted with suspension bolts, support bolts 4a-4d, etc. at arbitrary positions of the slits 33 extending from one end to the other end.

FIG. 3 is a diagram showing a configuration example of the suspension frame 2. As shown in FIG. The suspension frame 2 has a rectangular outer frame body in which, for example, both ends of long frame members 3a and 3b and both ends of short frame members 3d and 3e are arranged perpendicular to each other and connected. there is That is, the outer frame is a rectangular frame made up of four frame members 3a, 3b, 3d and 3e. At the corners of the outer frame, L-shaped spacers 37 are used in place of the spacers 34 described above. Each end is connected. A long frame member 3c and a short frame member 3f are further arranged inside the outer frame, and both ends of each of the frame members 3c and 3f are connected to the outer frame by connecting fittings 38. ing. In this embodiment, the case where the two frame members 3c and 3f are cross-arranged inside the outer frame is exemplified, but it is not limited to this. As described above, in this embodiment, the rectangular suspension frame 2 is composed of the outer frame and at least one frame member arranged inside the outer frame.

Such a ceiling suspension frame 2 is prepared in advance at a factory according to the installation environment of each air conditioner 10 at a construction site. For example, if the construction target is a new building, it is possible to grasp in advance the installation environment of each air conditioner 10 with respect to the ceiling slab based on the design drawing of each floor. Therefore, the ceiling suspension frame 2 is designed according to the suspension direction of each air conditioner 10 installed on each floor, the piping direction of the refrigerant pipe 21 and the drain pipe 25, etc., and the ceiling suspension frame is designed according to each installation environment. The suspension frame body 2 is produced individually.

The suspension frame 2 supports not only the air conditioner 10 but also the refrigerant pipe 21 and the drain pipe 25 arranged around the air conditioner 10 in a suspended state. Therefore, the outer frame body of the ceiling suspension frame body 2 is formed in a rectangular shape having a size larger than the planar size of the air conditioner 10 . Further, inside the outer frame, at least one frame member 3c is arranged to cross the inner side of the outer frame according to the length of the air conditioner 10 in the X direction or the Y direction. At least one frame member 3f is arranged across the inside of the outer frame according to the laying position of the pipe 25. As shown in FIG.

A plurality of frame members 3a to 3f constituting the suspension frame 2 are provided with first marks 7a in advance at four positions where the support bolts 4a to 4d are attached. The first mark 7a is, for example, a mark represented by symbols, characters, colors, etc., and is used to indicate the mounting positions of the support bolts 4a to 4d. In this embodiment, the work of attaching the support bolts 4a to 4d to the ceiling suspension frame 2 is performed at the construction site. Therefore, when the worker installs the support bolts 4a to 4d at the construction site, the support bolts 4a to 4d can be installed in the correct positions with respect to the ceiling suspension frame 2 if they are installed in line with the first mark 7a. can improve work efficiency.

In addition, at positions where suspension bands 5a to 5f, 6a, and 6b that support the refrigerant pipe 21 or the drain pipe 25 are attached to the plurality of frame members 3a to 3f that constitute the ceiling suspension frame 2, the first mark 7a is Different second labels 7b, 7c are provided in advance. The second marks 7b and 7c are for indicating the mounting positions of the suspension bands 5a to 5f, 6a and 6b that support the refrigerant pipe 21 or the drain pipe 25. FIG. In this embodiment, the work of attaching the suspension bands 5a to 5f, 6a, and 6b to the ceiling suspension frame 2 is performed at the construction site. Therefore, when the worker attaches the suspension bands 5a to 5f, 6a, 6b at the construction site, the suspension bands 5a to 5f, 6a, 6b can be attached to the ceiling suspension frame if they are attached in line with the second signs 7b, 7c. 2 can be installed in the correct position, and work efficiency is improved.

If the suspension bands 5a to 5f that support the refrigerant pipe 21 and the suspension bands 6a and 6b that support the drain pipe 25 are of different types, the mounting positions of the suspension bands 5a to 5f that support the refrigerant pipe 21 The label 7b attached to the drain pipe 25 and the label 7c attached to the mounting positions of the suspension bands 6a and 6b that support the drain pipe 25 may be different. By using different marks for the mark 7b and the mark 7b, it is possible to prevent erroneous attachment of the suspension bands 5a to 5f supporting the refrigerant pipe 21 and the suspension bands 6a and 6b supporting the drain pipe 25. become able to.

FIG. 4 shows an example of how the support bolts 4a-4d and suspension bands 5a-5f, 6a and 6b are attached. FIG. 4(a) shows how the support bolts 4a to 4d are attached. For example, a first mark 7a is attached to the mounting position of the support bolt 4a on the frame member 3c. Therefore, a support bolt 4a having a predetermined length in the axial direction is inserted into the slit 33 of the frame member 3c in alignment with the first mark 7a, and the lower side of the frame member 3c is fixed with a disk-shaped plate member 41 and a nut 42. At the same time, the upper side of the frame member 3c is fixed with a disk-shaped plate member 43 and a nut 44. As shown in FIG. That is, since the diameters of the plate members 41 and 43 are larger than the width of the slit 33 of the frame member 3c, the support bolt 4a can be fixed to the frame member 3c by sandwiching the upper and lower sides of the frame member 3c. Further, since the slit 33 extends along the longitudinal direction of the frame member 3c, it is possible to easily adjust the position along the longitudinal direction of the frame member 3c when attaching the support bolt 4a. The support bolt 4a can be attached according to the position of the mark 7a. The same applies to the other support bolts 4b-4d.

FIG. 4(b) shows how the suspension bands 5a to 5f are attached. The suspension band 5a has a bolt 45 connected to the upper portion of the annular portion for supporting the refrigerant pipe 22, and the bolt 45 is fixed to the frame member 3a. For example, a second mark 7b is attached to the mounting position of the suspension band 5a on the frame member 3a. Therefore, a bolt 45 having a predetermined length in the axial direction is inserted into the slit 33 of the frame member 3a in alignment with the second mark 7b, and similarly to the above, the lower side of the frame member 3a is attached to the disk-shaped plate member 41 and the nut. 42 , and the upper side of the frame member 3 a is fixed with a disk-shaped plate member 43 and a nut 44 . At this time, since the slit 33 extends along the longitudinal direction of the frame member 3a, it is possible to easily adjust the position along the longitudinal direction of the frame member 3a when attaching the bolt 45. 2, the suspension band 5a can be attached according to the position of the mark 7b. The same applies to the other hanging bands 5b to 5f.

FIG. 4(c) shows how the suspension bands 6a and 6b are attached. The suspension band 6a has a bolt 46 connected to the upper portion of the annular portion for supporting the drain pipe 25, and the bolt 46 is fixed to the frame member 3e. For example, a second mark 7c is attached to the mounting position of the suspension band 6a on the frame member 3e. Therefore, a bolt 46 having a predetermined length in the axial direction is inserted into the slit 33 of the frame member 3e so as to match the second mark 7c. 42 , and the upper side of the frame member 3 e is fixed with a disk-shaped plate member 43 and a nut 44 . At this time, since the slit 33 extends along the longitudinal direction of the frame member 3e, it is possible to easily adjust the position along the longitudinal direction of the frame member 3e when attaching the bolt 46. 2, the suspension band 6a can be attached to the position of the mark 7c. The same applies to other suspension bands 6b.

Furthermore, in the present embodiment, a third marker different from the first and second markers 7a, 7b, and 7c is also attached to the positions of the plurality of frame members 3a to 3f that constitute the ceiling suspension frame 2, to which suspension bolts are attached. 7d is given in advance. As a result, when a worker attaches the suspension frame 2 to the suspension bolts that hang down from the ceiling slab at the construction site, the installation positions of the suspension bolts can be easily grasped. It is possible to install the ceiling suspension frame 2 so that the installation position of the air conditioner 10 is determined.

The support bolts 4a to 4d attached to the ceiling suspension frame 2 are formed to have predetermined lengths in advance at the factory. The bolts 45 and 46 of the suspension bands 5a to 5f, 6a and 6b are also preliminarily formed to have predetermined lengths at the factory. However, the bolts 45 of the suspension bands 5a to 5f are not limited to have the same length, and may have different lengths. Moreover, the bolts 46 of the suspension bands 6a and 6b are not limited to the same length, and may have different lengths. The lengths of the support bolts 4a to 4d and the bolts 45, 46 are determined according to the environment in which the air conditioner 10 is installed. However, if the lengths of the support bolts 4a to 4d are different, it is preferable to distinguish the first mark 7a according to the length. In addition, when the bolts 45 and 46 have different lengths, it is preferable to distinguish the second marks 7b and 7c according to their length.

Refrigerant pipes 21 to be attached to the ceiling suspension frame 2 are also produced at the factory. In general, a plurality of indoor units (air conditioners 10) are connected to one outdoor unit. It has a piping structure that branches at. Therefore, the refrigerant pipe 21 arranged in a state of being suspended from the ceiling suspension frame 2 has branch portions 22 and 23 as shown in FIG. Although FIG. 1 illustrates the case where the branch portions 22 and 23 are present at two locations on the refrigerant pipe 21, the number of branch portions present in the vicinity of the air conditioner 10 may be one.

The work of branching the refrigerant pipe 21 includes the work of brazing the branch pipe to the metal pipe exposed by peeling off the exterior heat insulating material and the work of winding the heat insulating material again around the junction of the branch pipe. If such work is performed at the construction site, it takes a long time to prepare the refrigerant pipe 21 for attachment to the ceiling suspension frame 2, and the work efficiency at the construction site is reduced. On the other hand, since the layout of the refrigerant pipes 21 is also included in the design drawing of each floor, the configuration of the refrigerant pipes 21 around each air conditioner 10 is clear from the design drawing. Therefore, the refrigerant pipe 21 to be attached to the ceiling suspension frame 2 is pre-processed at a factory to have a predetermined shape with a branched portion at least one location, which has the advantage of shortening the work time at the construction site. There is

Furthermore, the drain pipe 25 attached to the ceiling suspension frame 2 is also produced at the factory. The drain pipe 25 is a pipe made of, for example, a vinyl chloride pipe, and is sometimes provided with a bent portion below the ceiling suspension frame 2 . When providing a bent portion in the drain pipe, work is performed to connect the bent pipe to the straight pipe. If such work is carried out at the construction site, it takes time to prepare the drain pipe 25 for attachment to the ceiling suspension frame 2, and work efficiency at the construction site is reduced. On the other hand, since the design drawing for each floor also includes the layout of the drain pipe 25, the configuration of the drain pipe 25 around each air conditioner 10 is clear from the design drawing. Therefore, by processing the drain pipe 25 to be attached to the ceiling suspension frame 2 in advance in a factory so as to have a predetermined shape, there is an advantage that the work time at the construction site can be shortened.

As described above, in the present embodiment, the suspension frame 2 is prepared in a factory other than the construction site, and the refrigerant pipe 21 and the drain pipe 25 suspended from the suspension frame 2 are prepared. The factory that manufactures the suspension frame 2 and the factory that manufactures the refrigerant pipe 21 and the drain pipe 25 may be different factories. Furthermore, the factory for producing the refrigerant pipe 21 and the factory for producing the drain pipe 25 may be different factories.

The suspension frame 2, refrigerant pipe 21 and drain pipe 25 are loaded on a vehicle and transported from the factory to the construction site. At this time, support bolts 4a to 4d and suspension bands 5a to 5f, 6a and 6b attached to the ceiling suspension frame 2 are also included. Since the support bolts 4a to 4d and the like are not attached to the ceiling suspension frame 2 at the time of shipment from the factory, it has a shape that fits almost within one plane. Therefore, when the ceiling suspension frame 2 is loaded on the vehicle, a plurality of ceiling suspension frames 2 can be stacked and loaded, and more ceiling suspension frames 2 can be transported at the same time than conventional unitized racks. be able to. Also, if the refrigerant pipe 21 and the drain pipe 25 are loaded at the same time, the transportation efficiency will be much better than the conventional one. Then, when the construction site building is reached, the suspension frame 2, the refrigerant pipe 21 and the drain pipe 25 can be carried to each floor using an existing elevator or the like. is reduced.

Then, at the construction site of each floor, the worker attaches the support bolts 4a to 4d to the ceiling hanging frame 2 and also attaches the suspension bands 5a to 5f, 6a and 6b. FIG. 5 shows a state in which the support bolts 4a to 4d and suspension bands 5a to 5f, 6a and 6b are attached to the suspension frame 2. As shown in FIG. When attaching the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, and 6b to the ceiling suspension frame 2 at the construction site, for example, the ceiling suspension frame 2 is placed on a temporary stand or the like, and a plurality of frame members are mounted. Place 3a to 3f at a height of about 120 to 160 cm from the floor. As a result, the worker can check the marks 7a to 7c attached to the frame members 3a to 3f while standing on the floor, and tighten the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, 6b. It can be attached to the frame members 3a to 3f. Therefore, the operator can easily attach the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, 6b to the ceiling suspension frame 2 while maintaining a comfortable posture, thereby improving work efficiency. In particular, when the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, and 6b are attached to the ceiling suspension frame 2, there is no need to work in high places, so the work can be carried out safely. Furthermore, since the support bolts 4a to 4d and the like can be fixed at the positions marked with the marks 7a to 7c in advance, no skill is required for the work, and anyone can easily perform the work. There are advantages. As a result, as shown in FIG. 5, the support device 1 with the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, 6b attached to the ceiling suspension frame 2 is used for floor work at the construction site. easy to complete.

After the support bolts 4a-4d and suspension bands 5a-5f, 6a, 6b are attached to the ceiling suspension frame 2, the air conditioner 10 is attached to the lower ends of the four support bolts 4a-4d. Refrigerant pipes 21 are attached to the suspension bands 5a to 5f. At this time, as shown in FIG. 1, the tip of the branch pipe branched from the branch portion 23 of the refrigerant pipe 21 is arranged in the vicinity of the refrigerant pipe connection port 11 of the air conditioner 10 . Further, a drain pipe 25 is attached to the suspension bands 6a and 6b. Also at this time, as shown in FIG. 1 , the end of the drain pipe 25 is arranged in the vicinity of the drain pipe connection port 12 of the air conditioner 10 . These operations can also be performed while the suspension frame 2 is placed on a temporary placement stand or the like as described above. Therefore, the worker can attach the air conditioner 10, the refrigerant pipe 21, and the drain pipe 25 to the support device 1 without performing high-place work, which also improves work efficiency. As a result, as shown in FIG. 1, the support device 1 supports the air conditioner 10 in a state of being suspended from a ceiling suspension frame 2 installed in a substantially horizontal plane, and also supports the air conditioner 10. , the refrigerant pipe 21 and the drain pipe 25 are further suspended and supported.

After the air conditioner 10, the refrigerant pipe 21, and the drain pipe 25 are attached to the support device 1, the support device 1 is attached to hanging bolts that hang down from the ceiling slab. FIG. 6 is a diagram showing an example of the deck plate 50 before the ceiling slab is placed. As described above, in the case of a new building, the suspension frame 2 can be designed based on the design drawings for each floor. As a result, the dimensions of the suspension frame 2 in the X direction and the Y direction are substantially determined.

On the other hand, before a ceiling slab such as concrete is cast on the upper surface of the deck plate 50, the insert 56 is installed by drilling the deck plate 50, and the screw hole of the insert 56 is exposed to the lower surface of the deck plate 50. can be made The threaded hole of the insert 56 is for mounting the suspension bolt 9 . The deck plate 50 is constructed as a corrugated steel plate as shown in FIG. 6 in order to increase rigidity. Therefore, the deck plate 50 alternately repeats the first surface 51 at a relatively high position and the second surface 52 at a position lower than the first surface 51 along a predetermined direction (X direction). Arranged configuration. When installing the inserts 56 on such a deck plate 50 , it is often obliged to install them on the first surface 51 instead of the second surface 52 in order to ensure the strength of the concrete around the inserts 56 .

Therefore, when designing the ceiling suspension frame 2, the arrangement intervals and lengths of the frame members 3a to 3f in the X direction are determined according to the arrangement intervals of the first surface 51 of the deck plate 50 introduced to the construction site. do it. In the example shown in FIG. 6, the arrangement interval in the X direction of the two frame members 3a and 3b constituting the outer frame is determined according to the arrangement interval of the first surface 51 in the X direction. When the inserts 56 are installed in the deck plate 50, the suspension bolts 9 can be inserted into the slits 33 of the frame members 3a and 3b based on the arrangement interval of the two frame members 3a and 3b of the outer frame. The installation position of the insert 56 is determined as described above, and the insert 56 is installed at the determined position. That is, the inserts 56 are installed on the first surface 51 of the deck plate 50 so as to conform to the layout of the plurality of frame members 3a to 3f forming the ceiling suspension frame 2. As shown in FIG.

In the example of FIG. 6, a plurality of inserts 56 are arranged so that suspension bolts 9 can be installed near both ends of the two frame members 3a and 3b. As a result, when the support device 1 is attached to the hanging bolts 9 that hang down from the ceiling slab, the positions of the hanging bolts 9 and the positions where the third marks 7d are attached near both ends of the two frame members 3a and 3b. The slits 33 are fitted to allow the support device 1 to be fixed to the suspension bolts 9 mounted on the inserts 56 . That is, when the support device 1 is attached to the suspension bolts 9, it is possible to prevent the inconvenience that the suspension bolts 9 do not match in position. Therefore, the work can be performed efficiently without the trouble of changing the installation position of the hanging bolt 9 using post-installed anchors or the like.

In addition, in the suspension frame 2, frame members 3a and 3b fixed to suspension bolts 9 are arranged below frame members 3d and 3e orthogonal to the frame members 3a and 3b. When the frame members 3a and 3b are attached to the suspension bolts 9, as shown in FIG. The upper side is fixed with a disc-shaped plate member 43 and a nut 44 . Therefore, even if the frame members 3d and 3e are attached close to the lower surface of the deck plate 50, the upper and lower surfaces of the frame members 3a and 3b attached to the suspension bolts 9 should have sufficient clearances for tightening the nuts. can be secured. That is, by arranging the frame members 3a and 3b fixed to the suspension bolt 9 below the frame members 3d and 3e perpendicular to the frame members 3a and 3b, the nuts can be tightened smoothly. Work efficiency is improved.

FIG. 7 is a diagram showing each process when constructing the ceiling hanging type air conditioner 10 in this embodiment. Each process included in this construction method is classified into a process performed at a factory and a process performed at a construction site.

First, at the factory, a plurality of frame members 3a to 3f are assembled to form the suspension frame 2 (step S10). At this time, the ceiling suspension frame 2 is designed based on the design drawing of the floor on which the air conditioner 10 is installed and the detailed information of the deck plate 50 introduced at the construction site, and the ceiling suspension frame is designed based on the design. Body 2 is created. Therefore, the ceiling suspension frame 2 manufactured at the factory is individually manufactured according to the site where each air conditioner 10 is installed.

When the ceiling suspension frame 2 is created, first to third marks 7a to 7d are given to the ceiling suspension frame 2 (step S11). Also at this time, the positions for installing the support bolts 4a to 4d and the like are determined based on the design drawing of the floor on which the air conditioner 10 is installed, and the plurality of frame members 3a to 3f constituting the ceiling suspension frame 2 are determined. Labels 7a-7d are provided at appropriate positions.

Subsequently, refrigerant pipes 21 to be installed in the support device 1 are created (step S12). Also at this time, the shape and dimensions of the refrigerant pipe 21 to be installed in the support device 1 are determined based on the design drawing of the floor on which the air conditioner 10 is installed, and a branching portion for branching the refrigerant pipe 21 as necessary. By providing 22 and 23, the refrigerant pipe 21 according to the design drawing or the like is created. Then, the drain pipe 25 installed in the support device 1 is created (step S13). Also at this time, the drain pipe 25 is created in accordance with the design drawing, etc., in the same manner as described above.

Next, in the factory, the support bolts 4a-4d and the suspension bands 5a-5f, 6a, 6b to be installed on the support device 1 are prepared (step S14). That is, work is performed to set the support bolts 4a to 4d to appropriate lengths and to set the bolts 45 and 46 of the suspension bands 5a to 5f, 6a and 6b to appropriate lengths.

When the work of steps S10 to S14 is completed in the factory, the suspension frame 2, refrigerant pipe 21, drain pipe 25, support bolts 4a to 4d, suspension bands 5a to 5f, 6a, 6b and accessories (plate members, nuts, etc. ) is loaded on a vehicle and transported from the factory to the construction site (step S15). At this time, the vehicle can be loaded with a larger number of suspension frames 2 than before, so that the transportation efficiency is high and the transportation cost can be suppressed. Also, the air conditioner 10 installed at the construction site may be transported directly from the manufacturing factory to the construction site. Therefore, the transportation cost of the air conditioner 10 can be kept low. The order in which steps S10, S12, S13, and S14 described above are performed is not limited to that shown in FIG.

On the other hand, at the construction site, a deck plate 50 is installed as a base material for each floor (step S20). After the deck plate 50 is installed and before the ceiling slab is cast, the insert 56 is installed at the mounting position of the support device 1 on the deck plate 50 (step S21). At this time, for example, a sheet-like template that copies the frame structure of the ceiling suspension frame 2 is placed on the upper surface of the deck plate 50 . Holes are formed in this template at positions where inserts 56 are to be installed according to the frame structure of the ceiling suspension frame 2, for example. Therefore, by setting the template on the upper surface of the deck plate 50 based on the design drawing, it is possible to easily mark the position of the insert 56 on the upper surface of the deck plate 50 . Then, the insert 56 is installed at the marked position. After that, a ceiling slab is placed on the upper surface of the deck plate 50 (step S22).

When the ceiling slab hardens sufficiently, the air conditioner 10 can be installed. The suspension frame 2, the refrigerant pipe 21, the drain pipe 25, the support bolts 4a to 4d, the suspension bands 5a to 5f, 6a, 6b and the fittings transported from the factory at that timing are received. Then, it is carried to each floor to be the construction site, and the suspension frame 2, refrigerant pipe 21, drain pipe 25, support bolts 4a to 4d, suspension bands 5a to 5f, 6a, 6b and accessories are prepared. At this time, since the ceiling suspension frame 2, the refrigerant pipe 21, the drain pipe 25, the support bolts 4a to 4d, the suspension bands 5a to 5f, 6a, 6b and the accessories are in separate states, their sizes are small. . Therefore, it can be brought into the building and left there. Therefore, the worker does not have to go out of the building to pick up each member one by one at the time of construction, and the burden on the worker can be reduced.

Then, the work of attaching the support bolts 4a to 4d is carried out while the suspended frame 2 prepared at the construction site is placed on a temporary stand or the like (step S23). At this time, the worker can attach the support bolts 4a to 4d to the positions of the hanging frame 2 where the first mark 7a is provided, so that the work can be performed efficiently.

In addition, the hanging bands 5a to 5f, 6a, and 6b are attached while the suspension frame 2 is placed on a temporary stand (step S24). Also at this time, the operator can attach the suspension bands 5a to 5f, 6a, 6b to the positions where the second marks 7b, 7c of the ceiling suspension frame 2 are provided, so that the work can be performed efficiently. be able to.

After the support bolts 4a to 4d are attached to the ceiling suspension frame 2, the air conditioner 10 is attached to the lower ends of the support bolts 4a to 4d (step S25). Also at this time, the work can be performed while the suspension frame 2 is placed on a temporary stand or the like, so the work efficiency is good. Then, the refrigerant pipe 21 is attached to the suspension bands 5a to 5f (step S26), and the drain pipe 25 is attached to the suspension bands 6a and 6b (step S27). These operations can also be performed while the suspension frame 2 is placed on a temporary stand or the like.

After that, using an elevator or the like, the support device 1 in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is lifted to a predetermined height position near the ceiling slab (step S28), and attached to the insert 56. The suspension frame 2 is fixed to the suspended bolt 9 (step S29). As a result, the support device 1 in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is installed at a predetermined height position by the suspension bolts 9. As shown in FIG.

After that, a worker with specialized knowledge connects the refrigerant pipe 21 and the drain pipe 25 . At this time, since the attachment positions of the support bolts 4a to 4d can be adjusted along the slits 33, the operator can finely adjust the installation position of the air conditioner 10. FIG. Also, since the mounting positions of the suspension bands 5a to 5f, 6a, and 6b can be adjusted along the slits 33, the operator can also adjust the suspension positions of the refrigerant pipe 21 and the drain pipe 25. FIG. Therefore, even when a worker with specialized knowledge performs the work of connecting the refrigerant pipe 21 and the drain pipe 25, the work can be done efficiently.

In the above, the case where the support device 1 is fixed to the suspension bolt 9 in a state where the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are attached to the support device 1 is illustrated. That is, in FIG. 7, the operations of steps S28 and S29 are performed after the operations of steps S25 to S27 are performed. However, the present invention is not limited to this, and the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 may be attached to the support device 1 after the support device 1 is fixed to the suspension bolts 9. In this case, the operations of steps S25 to S27 in FIG. 7 are performed after the operations of steps S28 and S29 are performed.

As described above, the above-described method for installing the air conditioner 10 includes preparing a rectangular ceiling suspension frame 2 in which a plurality of frame members 3a to 3f are assembled in one plane at a construction site. Steps (steps S10 to S15), a support member mounting step (step S23) of mounting the support bolts 4a to 4d in a state in which the support bolts 4a to 4d are suspended with respect to the frame members 3a to 3f constituting the ceiling suspension frame 2, and an air conditioner An air conditioner mounting step (step S25) for mounting the air conditioner 10 on the ceiling suspension frame 2 by connecting the lower ends of the support bolts 4a to 4d to the ceiling suspension frame 2, and the frame member 3a constituting the ceiling suspension frame 2. A suspension member mounting step (step S24) in which the suspension bands 5a to 5f, 6a, and 6b are attached to the suspension bands 5a to 5f, 6a, and 6b in a state in which they are suspended from the suspension bands 5a to 5f, 6a, and 6b. A pipe installation step (steps S26, S27) for installing pipes (refrigerant pipe 21, drain pipe 25, etc.), and a ceiling suspension frame 2 is transported to a predetermined height position near the ceiling slab, and a plurality of frame members 3a to 3f are installed. and a ceiling suspension frame installation step (steps S28 and S29) for installing the ceiling suspension frame 2 by fixing the suspension bolts 9 hanging down from the ceiling slab.

According to such a construction method, compared with the conventional unitized stand, a large number of suspension frames 2 can be loaded on the vehicle during transportation from the factory to the construction site, so transportation efficiency is excellent. there is Moreover, at the construction site, the worker can easily attach the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, 6b to the ceiling suspension frame 2 while standing on the floor. , there is also the advantage that the work load of the worker at the construction site can be reduced.

On the other hand, when the air conditioner 10, the refrigerant pipe 21, etc. are directly attached to hanging bolts hanging from the ceiling slab, it is necessary to install a large number of hanging bolts 9 on the ceiling slab in advance. The work of attaching suspension bands and the like to a large number of suspension bolts 9 hanging down from the ceiling slab is all performed at high places near the ceiling slab, resulting in poor work efficiency. Therefore, the construction method of the present embodiment is a construction method excellent in work efficiency in that it is not necessary to perform such high-place work.

In the construction method described above, the inserts 56 are installed in advance in the deck plate 50 before the ceiling slab is placed according to the layout of the plurality of frame members 3a to 3f constituting the ceiling suspension frame 2 (step S21). contains. By including such a step, it is possible to prevent the problem that the hanging bolts 9 do not fit when the ceiling suspension frame 2 is installed in a state of being suspended from the ceiling slab. , work efficiency can be further improved.

In the above description, the case where the suspension frame 2 is created in a factory other than the construction site is exemplified. However, the present invention is not limited to this, and the suspension frame 2 may be produced at the construction site. That is, at the factory, a plurality of frame members 3a to 3f suitable for the construction site are produced, and the plurality of frame members 3a to 3f are brought to the construction site to produce the ceiling suspension frame 2 at the construction site. Even in this case, since many frame members 3a to 3f can be loaded on the vehicle during transportation from the factory to the construction site, transportation efficiency is excellent.

(Second embodiment)
Next, a second embodiment of the invention will be described. The suspension frame 2 in the first embodiment described above is formed in a rectangular shape by assembling a plurality of frame members 3a to 3f in one plane. In the present embodiment, the suspension frame 2 is not planar but has a three-dimensional shape.

FIG. 8 is a diagram showing a configuration example of the suspension frame 2 in this embodiment. As shown in FIG. 8, the suspension frame 2 of this embodiment includes a lower frame 2a and an upper frame 2b.

Here, the lower frame 2a has the same structure as the suspension frame 2 described in the first embodiment. That is, as described in the first embodiment, the lower frame 2a has a rectangular shape formed by assembling a plurality of frame members 3a to 3f having slits 33 in the longitudinal direction within one plane (in the XY plane). It is a frame.

On the other hand, the upper frame 2b is a frame attached to the upper part of the lower frame 2a. This embodiment illustrates a case where two gate-shaped upper frames 2b are attached to the upper part of the lower frame 2a. The upper frame 2b has two vertical frame members 61 arranged in the vertical direction (Z direction) standing near both ends of a horizontal frame member 62 arranged in the horizontal direction (X direction). By assembling, it is configured as a gate-shaped frame structure.

However, the upper frame 2b is not necessarily limited to the gate-shaped frame structure. For example, the upper frame 2b has a table-shaped frame structure in which four horizontal frame members 62 are assembled in a rectangular shape in one plane (in the XY plane), and vertical frame members 61 are erected from each of the four corners. Also good. Further, by assembling the vertical frame members 61 and the horizontal frame members 62, a frame structure of other shape may be formed.

FIG. 9 is an enlarged view of the upper frame 2b configured as a gate-shaped frame structure. The vertical frame member 61 is composed of, for example, a square steel pipe having a predetermined length, and L-shaped angle members 63 are attached to both upper and lower ends thereof. On the other hand, the horizontal frame 62 is composed of two square steel pipes 62a and 62b thinner than the vertical frame member 61, which are arranged parallel to each other at a predetermined interval and fixed at both ends by fixing means 68 such as bolts and nuts. Structure. Therefore, slits 67 are formed at predetermined intervals in the center of the horizontal frame member 62 . The interval between the slits 67 is substantially equal to the interval between the slits 33 provided in the frame members 3a to 3f. Therefore, a bolt having the same diameter as that of the suspension bolt or the support bolts 4 a to 4 d can be inserted through the slit 67 .

The vertical frame member 61 is erected at a predetermined position in the longitudinal direction of the horizontal frame member 62 by fixing the flat plate portion of the L-shaped angle member 63 provided at the lower end to the horizontal frame member 62 with a bolt 69. can be installed in the In other words, the interval between the two vertical frame members 61 can be appropriately adjusted by changing the mounting position with respect to the horizontal frame members 62 .

The upper frame 2b configured as described above can be attached to the lower frame 2a as shown in FIG. That is, the bolts are inserted through both the slits 67 formed in the horizontal frame members 62 of the upper frame 2a and the slits 33 formed in the frame members 3a and 3b of the lower frame 2a, and the nuts are tightened. By doing so, the upper frame 2b can be fixed to the lower frame 2a. At this time, the position in the Y direction where the upper frame 2b is attached can be appropriately adjusted along the slits 33 formed in the frame members 3a and 3b.

In the ceiling suspension frame 2 configured as described above, the upper frame 2b is fixed to suspension bolts 9 suspended from the ceiling slab. That is, by inserting the hanging bolt 9 into the hole 64 provided in the flat plate portion of the L-shaped angle member 63 provided at the upper end of the upper frame 2b and tightening the nut on the hanging bolt 9, The upper frame 2b is fixed to the ceiling slab. The upper frame 2b supports the lower frame 2a at a height corresponding to the length of the vertical frame member 61. As shown in FIG.

Note that the upper frame 2b is not necessarily fixed to the ceiling slab. For example, the upper frame 2b may be fixed to a highly rigid ceiling structure or the like provided in advance in the vicinity of the ceiling slab.

Since the upper frame 2b supports the lower frame 2a at a position lower than the ceiling slab in this way, the earthquake resistance performance superior to that of the first embodiment is exhibited. That is, the vertical frame members 61 of the upper frame 2b are made of rectangular steel pipes, and are thicker and more rigid than the suspension bolts 9 that hang down from the ceiling slab. We can support it.

For example, in the case of a structure in which the lower frame 2a is directly supported by the suspension bolts 9 without providing the upper frame 2b, the longer the suspension bolts 9, the more the suspension bolts 9 themselves vibrate when an earthquake occurs. The vibration of the body 2a also increases. Therefore, in order to suppress the vibration of the lower frame 2a, it is necessary to attach the lower frame 2a as close to the ceiling slab as possible. However, since the height position at which the air conditioner 10 is installed is fixed, if the lower frame 2a is attached near the ceiling slab, the support bolts 4a to 4d that support the air conditioner 10 become longer. When the support bolts 4a to 4d are lengthened, the support bolts 4a to 4d vibrate when an earthquake occurs, and the vibration of the air conditioner 10 also increases. Therefore, the vibration of the support bolts 4a to 4d is suppressed and the vibration of the air conditioner 10 is suppressed by arranging braces, which serve as oblique reinforcing members, in a cross shape between a pair of mutually adjacent support bolts. However, as the length of the support bolts 4a to 4d increases, the vibration suppressing effect of the brace decreases.

In contrast, as in the present embodiment, the upper frame 2b having high rigidity is fixed to the ceiling slab or ceiling structure, and the lower frame 2a is attached to the lower end of the upper frame 2b. problem is solved, and the vibration of the air conditioner 10 can be effectively suppressed even when an earthquake occurs.

FIG. 10 is a diagram showing the support device 1 in this embodiment. The support device 1 includes a ceiling suspension frame 2 configured by assembling a lower frame 2a and an upper frame 2b to each other, and supports four corners of the air conditioner 10 with support members attached to the lower frame 2a. At the same time, the refrigerant pipe 21 and the drain pipe 25 are supported by hanging members attached to the lower frame value 2a. By fixing the support device 1 shown in FIG. 10 to the ceiling slab or the ceiling structure, the air conditioner 10 or the like is attached in a state of being supported at a predetermined height position from the ceiling slab. Here, there are the following two construction methods for constructing the air conditioner 10 or the like in a state of being suspended from the ceiling slab or ceiling structure using the support device 1 of the present embodiment.

First, the first construction method will be explained. FIG. 11 is a diagram showing each step of the first construction method in this embodiment. First, in a factory, a plurality of frame members 3a to 3f are assembled to form the lower frame 2a, and vertical frame members 61 and horizontal frame members 62 are assembled to form the upper frame 2b (step S30). The lower frame 2a and the upper frame 2b are managed in separate states at least until they are brought into the construction site. The work of steps S31 to S35 performed in the factory is the same as the work of steps S11 to S15 shown in FIG. The work of steps S40 to S42 performed at the construction site is also the same as the work of steps S20 to S22 shown in FIG.

At the construction site, when receiving the lower frame 2a, upper frame 2b, refrigerant pipe 21, drain pipe 25, support bolts 4a to 4d, suspension bands 5a to 5f, 6a, 6b and accessories transported from the factory, After carrying them to each floor, the installation work of the air conditioner 10 is started. At this time, first, the upper frame 2b is attached to the lower frame 2b to construct the suspension frame 2 (step S43). Then, with the suspension frame 2 placed on a temporary stand or the like, the work of attaching the support bolts 4a to 4d and suspension bands 5a to 5f, 6a, 6b to the lower frame 2a is performed (steps S44 and S45). ). Then, the air conditioner 10 is attached to the lower ends of the support bolts 4a-4d (step S46), and the refrigerant pipe 21 and the drain pipe 25 are also attached (steps S47-S48).

Thereafter, using an elevator or the like, as shown in FIG. 10, the support device 1 in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is lifted to a predetermined height position near the ceiling slab ( Step S28), the suspension frame 2 is fixed to the suspension bolt 9 attached to the insert 56 (step S29). As a result, the support device 1 in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is installed at a predetermined height position by the suspension bolts 9. As shown in FIG.

Next, the second construction method will be explained. FIG. 12 is a diagram showing each step of the second construction method in this embodiment. The operations (steps S30 to S35) performed in the factory in FIG. 12 are the same as those shown in FIG. The work of steps S60 to S62 performed at the construction site is also the same as the work of steps S20 to S22 shown in FIG.

In the second construction method, when each member transported from the factory is received at the construction site, first using an elevator or the like, only the upper frame 2b is lifted to a position near the ceiling slab, and the upper frame 2b hangs down from the ceiling slab. It is fixed to the hanging bolt 9 (step S63). The object to which the upper frame 2b is fixed may be a ceiling structure different from the ceiling slab.

On the other hand, while the lower frame 2a is placed on a temporary placement table or the like, the support bolts 4a to 4d and suspension bands 5a to 5f, 6a and 6b are attached (steps S64 and S65). Then, the air conditioner 10 is attached to the lower ends of the support bolts 4a-4d (step S66), and the refrigerant pipe 21 and the drain pipe 25 are also attached (steps S67-S38). The work of steps S64 to S68 may be performed in parallel with the work of step S63.

After that, using the elevator or the like again, the lower frame 2a in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is lifted to a predetermined height position near the ceiling slab (step S69), The lower frame 2a is fixed to the upper frame 2b which is in a state of being fixed to (step S70). As a result, the support device 1 in which the air conditioner 10, the refrigerant pipe 21 and the drain pipe 25 are suspended is placed at a predetermined height.

Thus, in this embodiment, the ceiling suspension frame 2 is composed of the lower frame 2a and the upper frame 2b. By adjusting the dimension of 61 in advance, it is possible to install the air conditioner 10 etc. at an appropriate height position by fixing the upper frame 2b to the ceiling slab or ceiling structure. By constructing the suspension frame 2 with the lower frame 2a and the upper frame 2b, it is possible to construct the support bracket 1 with excellent earthquake resistance performance.

In the above, the case where each of the lower frame 2a and the upper frame 2b is created in a factory other than the construction site is illustrated. However, it is not limited to this, and the lower frame 2a and the upper frame 2b may be created at the construction site. That is, a factory prepares a plurality of frame members suitable for the construction site, carries the plurality of frame members to the construction site, and prepares the lower frame 2a and the upper frame 2b at the construction site. Even in this case, a large number of frame members can be loaded on the vehicle during transportation from the factory to the construction site, so transportation efficiency is excellent.

Note that the present embodiment is the same as that described in the first embodiment except for the points described above.

(Modification)
Although the embodiments of the present invention have been described above, the present invention is not limited to the embodiments described above. That is, various modifications other than those described in the above embodiments are applicable to the present invention.

For example, in the above-described embodiment, the ceiling suspension frame 2 is produced at a factory, and the ceiling suspension frame 2 is transported to the construction site. However, the present invention is not limited to this. For example, a plurality of frame members 3a to 3f may be transported from a factory to a construction site, and the ceiling suspension frame 2 may be created by assembling the plurality of frame members 3a to 3f at the construction site. I don't mind.

In the above embodiment, each of the plurality of frame members 3a to 3f has a slit 33 in the longitudinal direction, and the support bolts 4a to 4d and suspension bands 5a to 5f, 6a, 6b, etc. pass through the slits 33. An example of fixing was explained. However, the frame members 3a to 3f are not necessarily limited to those having the slits 33. FIG. For example, if the frame members 3a to 3f do not have the slits 33, the support bolts 4a to 4d and the suspension bands 5a to 5f, 6a, 6b, etc. may be attached to the frame members 3a to 3f using special metal fittings. should be.

In the above embodiment, the case where the support members 4a to 4d are support bolts and the suspension members 5a to 5f, 6a and 6b are suspension bands has been described as an example. However, the support members 4a-4d are not necessarily limited to bolt-shaped members, and the suspension members 5a-5f, 6a, 6b are not necessarily limited to suspension bands. For example, the support members 4a to 4d may be made of angle members or the like. Similarly, the hanging members 5a to 5f, 6a, and 6b may be made of angle members or the like. That is, if the support members 4a to 4d and the suspension members 5a to 5f, 6a, 6b can be attached to the ceiling suspension frame 2 only by performing work on the floor at the construction site, high place work is performed. Since it is no longer necessary, work efficiency can be improved.

Further, in the above-described embodiment, an example in which the support device 1 is attached to the hanging bolt 9 hanging down from the ceiling slab has been described. However, the member hanging down from the ceiling slab is not necessarily limited to a bolt-shaped member, and may be a simple rod-shaped member.

Moreover, in the above-described embodiment, the case where the refrigerant pipe 21 and the drain pipe 25 are arranged in the lateral direction of the air conditioner 10 is illustrated. However, it is not limited to this, and at least one of the refrigerant pipe 21 and the drain pipe 25 may be piped above the air conditioner 10, that is, in the space between the air conditioner 10 and the ceiling suspension frame 2. It is possible. In this case, hanging members 5a to 5f, 6a, and 6b may be attached above the air conditioner 10 in a suspended state.

Further, in the above-described embodiment, a mode in which the ceiling slab is cast on the upper surface of the deck plate 50 has been described. However, the ceiling slab is not necessarily limited to that formed above the deck plate 50 . For example, a ceiling slab may be formed by pouring concrete over a wooden formwork. In this case, since the formwork is removed after the concrete has hardened, the bottom surface of the ceiling slab is finished in a substantially flat state. If the inserts 56 are installed in the formwork before the ceiling slab is placed on the upper side of the formwork, the suspension bolts 9 can be attached to the inserts 56 after the formwork is removed. be. Even in the case where the ceiling slab is formed using the formwork in this way, the ceiling slab is formed according to the arrangement of the plurality of frame members 3a to 3f that constitute the ceiling suspension frame 2 in step S21 described above. It is possible to install the inserts 56 in advance in the formwork before pouring. Therefore, when the ceiling suspension frame 2 is installed in a state suspended from the ceiling slab, it is possible to prevent problems such as mismatching positions of the suspension bolts 9 from occurring. Similar effects are obtained.

Furthermore, even when the ceiling slab is formed using a formwork, it is possible to set a sheet-like template on which the frame structure of the ceiling suspension frame 2 is copied, for example, on the upper surface of the formwork as described above. Another advantage is that the installation position of the insert 56 can be easily marked on the upper surface of the mold.

In the above-described embodiment, the frames 3a to 3f constituting the ceiling suspension frame 2 are fixed to suspension bolts (rod-shaped members) 9 hanging down from the ceiling slab so that the ceiling suspension frame 2 is positioned at a predetermined height from the ceiling slab. The form of setting in position has been described. However, the hanging bolts (rod-like members) 9 to which the ceiling suspension frame 2 is fixed are not necessarily limited to hanging directly from the ceiling slab. H-shaped steel, etc.) may be provided so as to hang down.

Further, the suspension frame 2 is not necessarily fixed to the suspension bolt (bar-like member) 9 suspended from the ceiling slab or the support structure. For example, in the case of a ceiling structure in which a support structure such as an H-shaped steel supports a shaped steel such as a lip channel steel or a light channel steel at a lower position in a horizontal position, the frame members 3a to which constitute the ceiling suspension frame 2 The suspension frame 2 may be installed at a predetermined height by directly fixing 3f to the shaped steel in a horizontal posture. That is, the ceiling suspension frame 2 can be installed at a predetermined height from the ceiling slab by fixing the frame members 3a to 3f to arbitrary members supported at predetermined heights by the ceiling structure. It is possible.

In addition, in the above-described embodiment, the refrigerant circulation type air conditioner 10 is used as an example, but the present invention is not limited to this. For example, the air conditioner 10 may be a fan coil unit or the like.

Reference Signs List 1 Support device 2 Suspension frame 3a to 3f Frame member 4a to 4d Support bolt (support member) 5a to 5f Suspension band (suspension member) 6a, 6b Suspension band (suspension member ), 7a, 7b, 7c, 7d... Marks, 9... Suspension bolt (bar-shaped member), 21... Refrigerant pipe (pipe), 25... Drain pipe (pipe), 50... Deck plate.

Claims (10)

A method for installing a ceiling hanging type air conditioner, comprising:
a ceiling suspension frame preparation step of preparing a ceiling suspension frame formed by assembling a plurality of frame members in a rectangular shape in a horizontal plane;
a support member mounting step of mounting a support member in a state in which it is suspended from the frame member forming the ceiling suspension frame;
Air conditioner mounting for attaching the air conditioner to the ceiling suspension frame by arranging the ceiling suspension frame on the upper surface side of the air conditioner and connecting the lower end of the support member to the air conditioner process and
The suspension frame with the air conditioner connected to the lower end of the support member is conveyed from the ceiling slab to a predetermined height position, and the frame member is fixed to suspension bolts hanging from the ceiling slab. a ceiling suspension frame installation step of installing the ceiling suspension frame at the predetermined height position;
A method for installing an air conditioner, comprising: a hanging member attaching step of attaching the hanging member in a state in which the hanging member is suspended from the frame member forming the ceiling suspension frame;
A pipe mounting step of mounting a pipe that has been processed into a predetermined shape in advance to the suspension member;
The method for installing an air conditioner according to claim 1, further comprising: 3. The method for installing an air conditioner according to claim 2, wherein the ceiling suspension frame installation step is performed after the air conditioner and the pipes are attached to the ceiling suspension frame. 4. The method for installing an air conditioner according to claim 2, wherein the plurality of frame members are provided with a first mark in advance at a position where the support member is attached. 5. The method for installing an air conditioner according to claim 2 , wherein the plurality of frame members are provided with a second mark in advance at a position where the suspension member is attached. The pipe includes a refrigerant pipe that has been formed in a predetermined shape in advance outside the construction site,
6. The method for installing an air conditioner according to any one of claims 2 to 5 , wherein the refrigerant pipe has a branched portion at at least one location. 2. The ceiling slab structure according to claim 1, further comprising a step of installing an insert in advance in a deck plate or formwork before placing the ceiling slab according to the arrangement of the plurality of frame members forming the ceiling suspension frame. 7. The method for installing an air conditioner according to any one of 1 to 6 . The suspension frame includes a lower frame and an upper frame attached to the lower frame,
The method for installing an air conditioner according to any one of claims 1 to 7 , wherein the step of preparing the suspension frame includes a step of separately preparing the lower frame and the upper frame. 9. The method for installing an air conditioner according to claim 8 , wherein the suspension frame preparing step includes a step of previously fixing the upper frame to an upper portion of the lower frame. The ceiling suspension frame preparation step includes a step of fixing the upper frame to the ceiling slab in advance,
3. The suspension frame installation step includes a step of conveying the lower frame from the ceiling slab to the predetermined height position and fixing the lower frame to the upper frame. 9. The construction method of the air conditioner according to 8 .

Images