JP7146199B1 - Conveying device and conveying method - Google Patents

Abstract

A conveying device that can be suitably used when conveying a ceiling-suspended air conditioner to an installation site is provided. A transport device 1 for transporting a ceiling-suspended air conditioner 100 to an installation site includes support members 2 attached to left and right side surfaces 113, 114 of the air conditioner 100 to support the air conditioner, and a carriage 3 that has a holding portion that engages with the support member 2 to hold the air conditioner 100 and that can move while holding the air conditioner 100 . The holding portion provided on the carriage 3 rotatably holds the support member 2 that supports the left and right side surfaces 113 and 114 of the air conditioner 100, and the air conditioner 100 can be moved between the horizontal posture and the standing posture. It is possible to change the posture. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to a conveying apparatus and a conveying method for conveying a ceiling-suspended air conditioner to an installation site.

In a building, an air conditioner as disclosed in Patent Document 1, for example, is installed in the ceiling space of the lower floor on the lower surface side of the upper floor slab. This air conditioner has a configuration in which a blowout chamber and an intake chamber are assembled in the front-rear direction of an air conditioner main body. Then, the air conditioner in which the blowout chamber and the intake chamber are assembled in the longitudinal direction of the air conditioner main body is installed in a state of being suspended in the ceiling space.

Conventionally, in the work of installing an air conditioner as described above, the work of assembling the blowout chamber and the intake chamber to the main body of the air conditioner has generally been performed at the installation site of the air conditioner. However, the work of assembling the chamber is complicated and requires skill. Therefore, it is a factor that lowers the work efficiency at the installation site. For example, at a new construction site, the construction period for installing air conditioners on each floor is predetermined. It becomes difficult to finish work with Moreover, in recent years, it has become difficult to secure workers at construction sites, so it is desired to reduce the work at installation sites.

Therefore, it has been proposed that the chamber assembly work, which has conventionally been performed at the installation site, is carried out in advance at a factory, and the air conditioner with the chamber installed is transported from the factory to the installation site. For example, in Patent Document 2, in a factory, an air conditioner is manufactured by assembling a blowout chamber and an intake chamber in the longitudinal direction of the air conditioner main body, and further assembling a frame that integrally holds the air conditioner main body and the chamber. It has been proposed to transport the equipment from the factory to the installation site.

Japanese Patent No. 6709485 JP 2021-76367 A

By the way, if the blowout chamber and the intake chamber are assembled in the longitudinal direction of the air conditioner main body, the plane size of the air conditioner becomes large. On the other hand, some temporary elevators installed at construction sites for carrying materials are of a narrow type with a width of only about 1 meter. In addition, there may be a narrow aisle with a width of only about 1 meter among the aisles on each floor. Therefore, once the chamber is assembled to the main body of the air conditioner at the factory, the problem is how to transport the chamber in such a narrow space as described above.

In response to this problem, Patent Document 2 proposes placing an air conditioner in which the chambers are assembled in the front-rear direction on a cart in a vertical position with the left and right sides facing up and down instead of in a horizontal position. By placing the air conditioner in the vertical posture, it is possible to reduce the planar size occupied by the air conditioner. Therefore, the air conditioner can be transported even in a narrow space as described above.

On the other hand, when transporting an air conditioner from a factory to a construction site, if the air conditioner is loaded vertically on the transport vehicle, the internal refrigerant pipes and heat exchangers may be damaged due to vibrations during transportation. have a nature. In order to prevent this, it is desirable to load the air conditioner in a horizontal position on the transportation vehicle when transporting it from the factory to the construction site.

Therefore, if an attempt is made to transport the air conditioner in a narrow space at the construction site using a truck as in Patent Document 2, it is necessary to replace the air conditioner, which is brought in in a horizontal posture, onto the truck at the construction site. In this case, the operation of replacing the air conditioner on the cart requires a work space that is at least as large as the plane size of the air conditioner in the horizontal posture and the plane size of the cart. However, depending on the construction site, it may be difficult to secure sufficient working space in addition to the space for temporarily storing the cargo of the transportation vehicle. In such a case, there is a problem that it is extremely difficult to convert the horizontally positioned air conditioner unloaded from the transport vehicle into a vertically positioned position and transfer it to a trolley at the construction site.

Therefore, the present invention has been made in order to solve the above problems, eliminates the need for the above-described remounting work, and can be suitably used when transporting a ceiling-suspended air conditioner to an installation site. An object is to provide an apparatus and a transportation method.

In order to achieve the above object, firstly, the present invention provides a transport device for transporting a ceiling-suspended air conditioner to an installation site, which is attached to both left and right sides of the air conditioner, a supporting member for supporting an air conditioner; (1) is a configuration characterized in that the support member is rotatably held, and the posture of the air conditioner can be changed between a horizontal posture and a standing posture.

2ndly, this invention is a structure characterized by the said air conditioner in the conveying apparatus which has said 1st structure.

Thirdly, in the conveying apparatus having the above first or second configuration, the support members are arranged on the left and right sides of each of the first air conditioner and the second air conditioner arranged in the vertical direction. The configuration is characterized by being attached to both side surfaces and integrally supporting the first air conditioner and the second air conditioner.

Fourthly, the present invention is a conveying apparatus having any one of the first to third configurations, wherein the carriage includes an elevation driving section for vertically moving the holding section. be.

Fifthly, the present invention provides a transportation method for transporting a ceiling-suspended air conditioner to an installation site, wherein in a factory, support members for supporting the air conditioner are provided on both left and right sides of the air conditioner. a first step of installing the above; a second step of loading the air conditioner onto the transport device; a third step of loading the transport device loaded with the air conditioner onto a transport vehicle and transporting the transport device to the building where the installation site is located; and a fourth step of unloading the conveying device loaded with the air conditioner from the transportation vehicle and moving the conveying device with the air conditioner loaded to the installation site. and, in the fourth step, by rotating the support member with respect to the holding portion, the posture of the air conditioner can be changed between a horizontal posture and a standing posture, and the horizontal posture and the standing posture can be changed. The configuration is characterized in that the conveying device can be moved while maintaining any one of the standing postures.

According to the present invention, the holding portion of the conveying device rotatably holds the support member, and the posture of the air conditioner can be changed between the horizontal posture and the standing posture. Therefore, the conveying apparatus can convey the air conditioner while appropriately changing the attitude of the air conditioner between the horizontal attitude and the standing attitude, and does not require the conventional remounting work. In particular, since the conveying device can convey the air conditioner in a standing posture with the front and rear surfaces of the air conditioner facing up and down, it is possible to convey the air conditioner in a narrow space without damaging the air conditioner. is possible.

It is a perspective view which shows the conveying apparatus which conveys an air conditioner. It is a figure which shows one structural example of an air conditioner. It is a figure which shows one structural example of a conveying apparatus. It is a figure which expands and shows a support member. It is a figure which expands and shows the holding|maintenance part provided in a support|pillar part. It is a figure which shows the state which attached the support member to the right-and-left both sides of an air conditioner. It is a figure which shows the example which loads an air conditioner on a conveying apparatus. It is a figure which illustrates the engagement state of a holding|maintenance part and a support member. FIG. 4 is a diagram showing a state in which the air conditioner is placed horizontally on the conveying device; It is a figure which shows the state which made the air conditioner the standing posture. It is a figure which shows the example of the work process which unloads an air conditioner from a conveying apparatus.

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.

FIG. 1 is a perspective view showing a conveying device 1 in a preferred embodiment of the invention. The XYZ three-dimensional coordinate system shown in FIG. 1 is a coordinate system in which the XY plane is the horizontal plane and the Z direction is the vertical direction, and is a coordinate system common to other drawings. This conveying device 1 is for conveying a ceiling-suspended air conditioner 100 to an installation site. Further, the transport device 1 is configured to be capable of stacking and transporting a plurality of air conditioners 100A and 100B. In this embodiment, the direction parallel to the X-axis shown in FIG. 1 is defined as the left-right direction of the air conditioners 100A and 100B, and the direction parallel to the Y-axis is defined as the front-back direction of the air conditioners 100A and 100B.

FIG. 2 is a diagram showing a configuration example of the air conditioner 100 (100A, 100B) transported by the transport device 1. As shown in FIG. The air conditioner 100 includes an air conditioner body 110 , a blowout chamber 120 and an intake chamber 130 . That is, the air conditioner 100 is configured by assembling a blowout chamber 120 and an intake chamber 130 in the front-rear direction (Y direction) of the air conditioner main body 110 .

A mounting portion 111 for mounting the blowout chamber 120 is provided on the front side of the air conditioner main body 110 . For example, the mounting portion 111 has a form in which the periphery of the outlet formed on the front side of the air conditioner main body 110 protrudes forward in a sleeve shape. On the other hand, a similar mounting portion is provided on the surface (rear surface) of blowout chamber 120 facing air conditioner main body 110 . The mounting portion of the blowout chamber 120 is fitted into the mounting portion 111 of the air conditioner main body 110, and a large number of screws are driven around the mounting portion 111, whereby the blowout chamber 120 is assembled to the front side of the air conditioner main body 110. The blowout chamber 120 is provided with a plurality of duct connections 121 for connecting ducts for introducing temperature-controlled air into the room.

A mounting portion 112 for mounting the air intake chamber 130 is provided on the rear side of the air conditioner main body 110 . For example, similarly to the mounting portion 111, the mounting portion 112 has a form in which the periphery of the intake port formed on the rear side of the air conditioner main body 110 protrudes rearward in a sleeve shape. On the other hand, a similar mounting portion is provided on the surface (front surface) of intake chamber 130 facing air conditioner main body 110 . The intake chamber 130 is assembled to the rear side of the air conditioner main body 110 by fitting the mounting portion of the air intake chamber 130 into the mounting portion 112 of the air conditioner main body 110 and driving a large number of screws around the mounting portion 112 .

The air conditioner main body 110 also has connecting portions 115 for connecting bolt members such as suspension bolts to each of the right side surface 113 and the left side surface 114 . For example, the left side surface 114 is provided with two connecting portions 115, 115 at two positions separated by a predetermined distance in the front-rear direction (Y direction). Although not shown, the right side 113 also has two connecting portions 115 at the same two positions as the left side 114 . The air conditioner main body 110 is provided with a pipe joint portion 116 for connecting a refrigerant pipe, a drain pipe, and the like on a left side surface 114 .

The air conditioner main body 110 is assembled with the blowout chamber 120 and the intake chamber 130 in the longitudinal direction as described above, thereby forming the air conditioner 100 in which the blowout chamber 120 and the intake chamber 130 are integrated. The work of assembling the blowout chamber 120 and the intake chamber 130 to the air conditioner main body 110 is complicated and requires a certain level of skill. Therefore, in the present embodiment, the air conditioner body 110 is assembled with the blowout chamber 120 and the intake chamber 130 to create the air conditioner 100 at the factory. In some cases, the air conditioner 100 does not have the intake chamber 130 attached to the rear side of the air conditioner main body 110 . Then, as shown in FIG. 1, the air conditioner 100 manufactured in the factory is loaded on the transport device 1 and transported to the installation site. The transport device 1 will be described in detail below.

FIG. 3 is a diagram showing a configuration example of the conveying device 1. As shown in FIG. As shown in FIG. 3, the conveying device 1 includes a support member 2 and a carriage 3. As shown in FIG. This conveying device 1 is configured such that left and right side surfaces 113 and 114 of the two air conditioners 100A and 100B are supported by support members 2, and the support members 2 are held by the carriage 3. As shown in FIG.

As shown in FIG. 3, the support member 2 includes two support members 2a and 2b that support a right side 113 and a left side 114 of the air conditioner 100, respectively. That is, the support member 2 a supports the left side surface 114 of the air conditioner 100 and the support member 2 b supports the right side surface 113 of the air conditioner 100 . These two support members 2a and 2b have a bilaterally symmetrical structure with respect to the center line M in the lateral direction (X direction) of the truck 3. As shown in FIG. Further, these support members 2a and 2b are configured to collectively support the left and right side surfaces 113 and 114 of the two air conditioners 100A and 100B.

FIG. 4 is an enlarged view of the support member 2a. The support member 2a is arranged to face the left side surfaces 114 of the two vertically arranged air conditioners 100A and 100B, and collectively supports the left side surfaces 114 of the two air conditioners 100A and 100B. The support member 2a is formed as a substantially H-shaped structure having support portions 11, 11 arranged parallel to each other at predetermined intervals, and a connecting portion 12 connecting the support portions 11, 11 to each other. be.

The support portions 11, 11 are formed of shaped steel or steel pipes, and have attachment portions 13a, 13b at both ends thereof to be attached to the air conditioners 100A, 100B. For example, the mounting portions 13a and 13b are composed of a flat plate portion extending in a direction perpendicular to the longitudinal direction of the support portion 11 and an insertion portion provided on the flat plate portion through which a bolt member can be inserted. Note that FIG. 4 shows an example in which the insertion portions provided in the mounting portions 13a and 13b are provided as U-shaped cutouts. Also, the spacing between the mounting portions 13a, 13a provided on one end side of the two support portions 11, 11 parallel to each other matches the spacing between the connecting portions 115, 115 provided on the left side surface 114 of the air conditioner 100A. . Furthermore, the distance between the mounting portions 13b, 13b provided on the other end side of the two support portions 11, 11 matches the distance between the connection portions 115, 115 provided on the left side surface 114 of the air conditioner 100B. Mounting portions 13a, 13a are arranged in a state of being joined to connecting portions 115, 115 of air conditioner 100A arranged above, and are fixed to connecting portions 115, 115 by fastening bolts and nuts. Mounting portions 13b and 13b are arranged in a state of being joined to connection portions 115 and 115 of air conditioner 100B arranged on the lower side, and are fixed to connection portions 115 and 115 by fastening bolts and nuts. be.

The connecting portion 12 is formed of shaped steel or a steel pipe, is arranged so as to traverse between the two supporting portions 11 and 11, and has both ends connected to the two supporting portions 11 and 11. As shown in FIG. Moreover, the connection part 12 is provided in a state in which the rotating shaft 14 protrudes from the surface opposite to the surface facing the air conditioners 100A and 100B. The rotating shaft 14 has a shaft portion 14a having a predetermined outer diameter and a head portion 14b having a larger diameter than the shaft portion 14a. Further, the connecting portion 12 is provided with a first rotation restricting portion 16 at a position spaced apart from the rotating shaft 14 toward the rear side (+Y direction side) by a predetermined distance. For example, the first rotation restricting portion 16 is configured by a hole 16a that fits into a rod-shaped body 37 of the attitude holding portion 34, which will be described later. Further, the connecting portion 12 is provided with a stopper 18 for restricting the rotation of the support member 2a at a position spaced forward (-Y direction side) from the rotating shaft 14 by a predetermined distance.

A metal plate 15 is attached to the connecting portion 12 , and a second rotation restricting portion 17 is provided at the tip of the metal plate 15 . For example, like the first rotation restricting portion 16, the second rotation restricting portion 17 is configured by a hole 17a that is fitted with a rod-shaped body 37 of the attitude holding portion 34 described later. The first rotation restricting portion 16 and the second rotation restricting portion 17 are provided on concentric circles centering on the rotation shaft 14, and are provided at positions forming an angle of about 90 degrees with each other. Although the support member 2a has been described here, the support member 2b also has the same structure.

Returning to FIG. 3 , the carriage 3 includes a base 20 and a pair of struts 24 a and 24 b erected from the base 20 . The base 20 includes a pair of movable bases 21, 21 having wheels 22 attached to their lower surfaces, and a pair of connecting bases that connect the pair of movable bases 21, 21 in parallel with each other at positions spaced apart by a predetermined distance. pedestals 23, 23 are provided. The base 20 is formed in a substantially rectangular shape in plan view by assembling a pair of movable bases 21, 21 and a pair of connecting bases 23, 23 together. One of the two connecting bases 23 , 23 provided on the base 20 is removable from the base 20 . When one connecting base 23 is removed from the carriage 3, the base 20 assumes a generally U-shaped form in plan view.

The struts 24a and 24b are provided at the longitudinal center positions of the movable bases 21 and 21, respectively. A metal chain 25 supported by pulleys is arranged inside the struts 24a and 24b. The chain 25 supports the elevating member 26 so as to be vertically movable along the supporting columns 24a and 24b. Also, the chain 25 is connected in a locked state to a winding portion (not shown) that rotates by an operation handle 27 that can be rotated. Therefore, for example, by rotating the operating handle 27 in a predetermined direction, the winding section winds the chain 25 in a predetermined direction, and the elevating member 26 can be lifted along the struts 24a and 24b. Further, by rotating the operating handle 27 in the direction opposite to the predetermined direction, the winding section winds the chain 25 in the opposite direction, and the elevating member 26 can be lowered along the struts 24a and 24b. In other words, the operating handle 27 and the chain 25 are provided as a lifting drive unit that vertically moves the lifting member 26 up and down. In this embodiment, the up-and-down drive unit is configured as a manual drive unit, but is not limited to this, and may be configured as an electric drive unit. do not have.

The struts 24a and 24b are arranged on the base 20 so that the elevating members 26 and 26 face each other. The elevating member 26 of the column portion 24a is provided with a holding portion 30a that engages with the support member 2a to hold the air conditioners 100A and 100B. Further, the elevating member 26 of the column portion 24b is provided with a holding portion 30b that engages with the support member 2b to hold the air conditioners 100A and 100B. These two holding portions 30a and 30b have a symmetrical structure with respect to the center line M in the left-right direction (X direction) of the truck 3 as a reference.

FIG. 5 is an enlarged view of the holding portion 30a provided on the post portion 24a. As shown in FIG. 5( a ), the holding portion 30 a is fixed to the upper portion of the lifting member 26 and vertically moves together with the lifting member 26 . The holding portion 30a has a locking plate 32 erected along the longitudinal direction (Y direction) of the carriage 3. As shown in FIG. A bearing portion 31 for holding the rotation shaft 14 of the support member 2a is provided at the center of the locking plate 32 . For example, the bearing portion 31 is formed as a notch portion obtained by notching the locking plate 32 in a U shape. The width of this notch is larger than the outer diameter of the shaft portion 14a of the rotating shaft 14 and smaller than the outer diameter of the head portion 14b. Therefore, the bearing portion 31 can hold the shaft portion 14 a of the rotating shaft 14 .

Further, the locking plate 32 is provided with a posture holding portion 34 at a position spaced apart from the bearing portion 31 toward the rear side (+Y direction side) of the air conditioner 100 by a predetermined distance. The posture holding portion 34 has a lever holding plate 36 parallel to the locking plate 32 . The posture holding portion 34 has a rod-like body 37 inserted through a hole 35 formed in the locking plate 32 and a hole formed in the lever holding plate 36 . A flange portion 38 is provided on the rod-like body 37 , and a coil spring 39 is arranged between the flange portion 38 and the lever holding plate 36 . An operation lever 40 is attached to the base end of the rod-shaped body 37 projecting outward from the lever holding plate 36 . The posture holding portion 34 configured in this manner is arranged in a state in which the tip of the rod-shaped body 37 is protruded from the hole 35 of the locking plate 32 by the biasing force of the coil spring 39 . As shown in FIG. 5(b), when the operating lever 40 is pulled in the direction of arrow F1 against the biasing force of the coil spring 39, the posture holding portion 34 engages the locking plate 32 and the lever. It will be in a retracted state between it and the holding plate 36 . The posture holding portion 34 having such a configuration engages the tip of the rod-shaped body 37 with the first rotation restricting portion 16 or the second rotation restricting portion 17 of the support member 2a so that the support member 2a is Rotation around the rotating shaft 14 is restricted, and the postures of the air conditioners 100A and 100B are maintained.

Next, an example of loading the air conditioners 100A and 100B on the transport device 1 will be described. When the air conditioners 100A and 100B are loaded on the conveying device 1, first, the air conditioners 100A and 100B are vertically arranged, and the support members 2 are attached to the left and right side surfaces 113 and 114 of the air conditioners 100A and 100B. Install. FIG. 6 is a diagram showing a state in which the support members 2 are attached to the left and right side surfaces 113, 114 of the air conditioners 100A, 100B. Air conditioners 100A and 100B, which are manufactured by assembling the blowout chamber 120 and the intake chamber 130 to the air conditioner main body 110 in a factory, are arranged vertically using an elevator such as a forklift. FIG. 6 shows an example in which the air conditioner 100A is lifted by an elevator and arranged above the air conditioner 100B placed on the floor. In this state, support members 2a and 2b are attached to left and right side surfaces 113 and 114 of the two air conditioners 100A and 100B. That is, the attachment portions 13a, 13a provided on one end side of the support portions 11, 11 of the support members 2a, 2b are joined to the connection portions 115, 115 of the air conditioner 100A, and fastened using bolts and nuts, The attachment portions 13b, 13b provided on the other end side are joined to the connection portions 115, 115 of the air conditioner 100B and fastened using bolts and nuts. When the support members 2a and 2b are attached to the left and right side surfaces 113 and 114 of the two air conditioners 100A and 100B, the two air conditioners 100A and 100B are fixed in a vertically arranged state with a predetermined gap therebetween. be done. That is, the two air conditioners 100A and 100B are integrally supported by the support members 2a and 2b. Then, the elevator that lifts the air conditioner 100A can be removed.

Next, the air conditioners 100A and 100B integrally supported by the supporting members 2a and 2b are loaded on the truck 3. As shown in FIG. FIG. 7 is a diagram showing an example of loading the air conditioners 100A and 100B on the truck 3. As shown in FIG. As shown in FIG. 7A, the air conditioners 100A and 100B integrated by the support members 2a and 2b are lifted using an elevator such as a forklift and placed above the carriage 3. As shown in FIG. At this time, the height positions are adjusted in advance by operating the operation handles 27 of the support sections 24a and 24b so that the holding sections 30a and 30b of the support sections 24a and 24b are at the same height position. Then, as indicated by arrows in FIG. 7A, the air conditioners 100A and 100B are lowered between the pair of support columns 24a and 24b, and the holding portions 30a and 30b provided on the support columns 24a and 24b are lowered. are engaged with the support members 2a and 2b. At this time, adjustment is made so that the bearing portions 31 of the holding portions 30a and 30b are positioned directly below the rotating shafts 14 of the support members 2a and 2b, and the air conditioners 100A and 100B are lowered. By inserting the rotating shafts 14 of the supporting members 2a and 2b into the bearing portions 31 of the holding portions 30a and 30b, the holding portions 30a and 30b and the supporting members 2a and 2b are engaged with each other.

FIG. 8 is a diagram illustrating an engagement state between the holding portion 30a and the support member 2a. As shown in FIG. 8, by inserting the rotating shaft 14 of the support member 2a into the U-shaped bearing portion 31 provided in the holding portion 30a, the bearing portion 31 holds the shaft portion 14a of the rotating shaft 14. becomes. At this time, the bearing portion 31 is inserted between the head portion 14 b of the rotating shaft 14 and the connecting portion 12 . Therefore, the rotary shaft 14 is held by the holding portion 30a without being separated from the holding portion 30a.

When inserting the rotating shaft 14 into the bearing portion 31, the operating lever 40 is pulled in the direction of arrow F1 as shown in FIG. As a result, the tip of the rod-shaped body 37 provided in the posture holding portion 34 is pulled in the direction of the arrow F1, so that the rotating shaft 14 is smoothly inserted into the bearing portion 31 without the tip of the rod-shaped body 37 coming into contact with the support member 2a. be able to. When the rotating shaft 14 can be inserted into the bearing portion 31, the operation of pulling the operating lever 40 in the direction of the arrow F1 is stopped. As a result, the rod-shaped body 37 protrudes from the locking plate 32 toward the support member 2 a by the biasing force of the coil spring 39 . When the position of the hole 16a of the first rotation restricting portion 16 provided in the connecting portion 12 of the support member 2a is lowered to the position of the tip of the rod-shaped body 37, the tip of the rod-shaped body 37 is fitted into the hole 16a. . As a result, the supporting member 2a is engaged with the holding portion 30a at two positions, that is, the rotation shaft 14 and the first rotation restricting portion 16, and rotation about the rotation shaft 14 is restricted. be. At this time, the stopper 18 is also joined to the locking plate 32, and the posture of the support member 2a is maintained. Although FIG. 8 shows the relationship between the holding portion 30a and the support member 2a, the relationship between the holding portion 30b and the support member 2b is the same.

FIG. 9 is a diagram showing a state (horizontal posture) in which the support members 2a and 2b are supported by the holding portions 30a and 30b, and the air conditioners 100A and 100B are loaded on the conveying device 1. FIG. When the support members 2a and 2b are supported by the holding portions 30a and 30b as described above, as shown in FIG. position. At this time, since the rod-shaped body 37 of the posture holding portion 34 is engaged with the hole 16a of the first rotation restricting portion 16, the support members 2a and 2b are prevented from rotating around the rotation shaft 14. The horizontal attitude of the air conditioners 100A and 100B is maintained.

When the transfer device 1 is to be moved while the air conditioners 100A and 100B are held in a horizontal posture, the air conditioners 100A and 100B are lowered by rotating the operation handles 27 provided on the struts 24a and 24b. Let That is, as shown in FIG. 1, by lowering the air conditioners 100A and 100B to positions close to the carriage 3, the center of gravity of the conveying device 1 is lowered. As a result, the transport device 1 can stably hold the air conditioners 100A and 100B. Further, by lowering the position of the center of gravity of the conveying device 1, vibration of the air conditioners 100A and 100B can be suppressed when the conveying device 1 is moved by rolling the wheels 22. FIG. The work of loading the air conditioners 100A and 100B onto the conveying device 1 in this way is performed in the factory.

Then, as shown in FIG. 1, the conveying apparatus 1 holding the horizontal air conditioners 100A and 100B is loaded on a transport vehicle and transported from the factory to the building where the installation site is located. At this time, since the transport device 1 holds the air conditioners 100A and 100B in a horizontal posture, even if a relatively large vibration acts during transport, the air conditioners 100A and 100B will not be damaged. In addition, since the center of gravity of the conveying device 1 that holds the air conditioners 100A and 100B is low, the conveying device 1 does not overturn even if it is loaded and conveyed on a transportation vehicle. Therefore, the transport device 1 can simultaneously and safely transport the two air conditioners 100A and 100B from the factory to the building where the grounding site is located.

When the transportation vehicle arrives at the building where the installation site is located, the transportation device 1 holding the air conditioners 100A and 100B in a horizontal posture is unloaded from the transportation vehicle. By grounding the wheels 22 provided on the truck 3 of the conveying device 1 and moving the truck 3, the conveying device 1 is conveyed to the installation site.

At the construction site, when the carrier device 1 holding the air conditioners 100A and 100B is transported to the installation site, the carrier device 1 is placed on a temporary elevator for carrying materials and transported to the installation site floor. Sometimes. Also, the transport device 1 may have to pass through narrow passages. Therefore, when transporting the transporting device 1 unloaded from the transportation vehicle to the installation site, it is necessary to pass through such a narrow space as described above.

In the conveying device 1 of the present embodiment, the holding portions 30a and 30b rotatably support the supporting members 2a and 2b around the rotating shaft 14. As shown in FIG. Therefore, the conveying device 1 can change the posture of the air conditioners 100A and 100B from the horizontal posture to the standing posture by rotating the support members 2a and 2b with respect to the holding portions 30a and 30b. In order to change the posture, first, as shown in FIG. 1, the air conditioners 100A and 100B in the horizontal posture are lowered to a position close to the carriage 3 and then lifted. That is, by rotating the operation handle 27 provided on the support columns 24a and 24b, the air conditioners 100A and 100B are lifted to a predetermined height position as shown in FIG. Then, by performing an operation to pull the operation lever 40 , the state in which the posture holding portion 34 is engaged with the first rotation restricting portion 16 is released. As a result, the state in which the air conditioners 100A and 100B are held in the horizontal posture is released. Then, the air conditioners 100A and 100B supported by the support members 2a and 2b become rotatable about the rotation shaft 14 in the direction of the arrow R, and the posture changes from the horizontal posture to the standing posture.

FIG. 10 is a diagram showing a state in which the air conditioners 100A and 100B are in a standing posture. As shown in FIG. 10, the air conditioners 100A and 100B are rotated about 90 degrees about the rotation shaft 14 from the horizontal posture, thereby taking a standing posture in which the blowout chamber 120 and the intake chamber 130 are vertically arranged. Further, by rotating the support members 2a and 2b by about 90 degrees, the second rotation restricting portion 17 provided on the metal plate 15 rotates to the position of the attitude holding portion . As a result, the tip of the rod-shaped body 37 of the posture holding portion 34 is fitted into the hole 17 a provided in the second rotation restricting portion 17 . As a result, the support members 2a and 2b are engaged with the holding portions 30a and 30b at two positions of the rotating shaft 14 and the second rotation restricting portion 17, and rotate about the rotating shaft 14. is regulated. In other words, the transport device 1 can hold the air conditioners 100A and 100B in the standing posture. The carrier device 1 can move while holding the air conditioners 100A and 100B in the standing posture.

The standing posture shown in FIG. 10 is a vertical posture in which the front and rear surfaces of the air conditioner main body 110 to which the blowout chamber 120 and the like are assembled face up and down. For example, there are models of the air conditioner main body 110 in which internal refrigerant pipes, heat exchangers, and the like are damaged if the left and right sides are turned upside down and placed vertically. In contrast, the conveying apparatus 1 of the present embodiment is in a standing posture with the front and rear surfaces of the air conditioner main body 110 facing up and down instead of the left and right side surfaces of the air conditioner main body 110 facing up and down. Therefore, even if the conveying device 1 is moved in the upright posture shown in FIG. 10, the refrigerant pipes, heat exchangers, etc. provided inside the air conditioner main body 110 will be damaged by the vibration during transportation. never Therefore, by moving the conveying device 1 in the state shown in FIG. 10, the air conditioners 100A and 100B can pass normally through the above-described narrow space without being damaged.

10, the blowout chamber 120 and the intake chamber 130 are kept floating above the floor surface. Therefore, application of an excessive load to each of blowout chamber 120 and intake chamber 130 can be suppressed. Therefore, it is possible to prevent the fragile blowout chamber 120 and intake chamber 130 from being deformed and damaged.

In this way, the conveying device 1 can easily change the posture of the air conditioners 100A and 100B from the horizontal posture to the upright posture while holding the air conditioners 100A and 100B, and allow the air conditioners 100A and 100B to pass through narrow places such as temporary elevators and passageways. is possible. Therefore, there is no need to unload the air conditioners 100A and 100B from the conveying device 1 when passing through a narrow space, and the conveying efficiency is excellent. After passing through the narrow space, the posture for holding the air conditioners 100A and 100B is returned from the upright posture to the horizontal posture, and as shown in FIG. Also good.

Further, when the transportation vehicle 1 arrives at the building where the installation site is located, and the transportation device 1 unloads the air conditioners 100A and 100B from the horizontal posture to the upright posture, the operation of unloading the air conditioners 100A and 100B from the transportation vehicle. There is also an advantage that it is easy to perform As described above, the carrier device 1 carried by the transport vehicle holds the air conditioners 100A and 100B in a horizontal posture. Therefore, the plane size of the carrier device 1 that holds the air conditioners 100A and 100B is large, and when the carrier device 1 is to be unloaded from the transport vehicle using a forklift, the carrier device 1 is stabilized by the forklift. difficult to support. In such a case, by changing the holding posture of the air conditioners 100A and 100B by the conveying device 1 from the horizontal posture to the standing posture, the planar size of the conveying device 1 can be reduced. Allows for stable support and normal unloading from transport vehicles. In addition, even when a lifting device such as a power gate (registered trademark) is mounted on a transportation vehicle, the carrier device 1 can be placed on the lifting device by changing the air conditioners 100A and 100B to the standing posture. There is also the advantage that the transport device 1 can be unloaded from the transport vehicle safely and efficiently. Therefore, when unloading the conveying apparatus 1 from the transportation vehicle, the posture of the air conditioners 100A and 100B may be changed from the horizontal posture to the standing posture. After unloading the transportation device 1 from the transportation vehicle with the air conditioners 100A and 100B in the standing posture, the air conditioners 100A and 100B are transported in the standing posture until they arrive at the installation site. You can do it.

Then, when the carrier device 1 arrives at the installation site, the work of unloading the air conditioners 100A and 100B from the carrier device 1 is performed. However, on each floor where the air conditioners 100A and 100B are installed at a construction site, there may be no lift such as a forklift. In that case, the air conditioners 100A and 100B can be unloaded from the transport device 1 by preparing another cart 5 separately from the transport device 1 .

FIG. 11 is a diagram showing an example of unloading the air conditioners 100A and 100B from the conveying device 1 using another cart 5. As shown in FIG. First, when unloading the air conditioners 100A and 100B from the transport device 1, as shown in FIG. Raise to position. Also, at this time, one connecting base 23 is removed from the carriage 3, and the base 20 is formed into a generally U-shaped form in plan view. Then, as shown in FIG. 11(b), the carriage 5 is inserted between the struts 24a and 24b of the transfer device 1. Then, as shown in FIG. Thereby, the truck 5 is positioned below the air conditioner 100B. Then, the air conditioners 100A, 100B are lowered while simultaneously rotating the operation handles 27, 27 provided on the support columns 24a, 24b. As a result, as shown in FIG. 11(c), the carriage 5 can support the lower surface of the air conditioner 100B. When the truck 5 supports the lower surface of the air conditioner 100B, the connection portions 115, 115 of the left and right side surfaces 113, 114 of the air conditioner 100B and the mounting portions 13b, 13b of the support members 2a, 2b are fixed. The bolts and nuts attached to the air conditioner 100B are removed to release the state in which the air conditioner 100B is supported by the support members 2a and 2b. Thereafter, when the operation handle 27 is rotated to lift the support members 2a and 2b, only the air conditioner 100A is lifted and the air conditioner 100B is placed on the carriage 5 as shown in FIG. 11(d). remain in the state. Therefore, as shown in FIG. 11(e), the air conditioner 100B can be taken out by pulling out the carriage 5 inserted between the pillars 24a and 24b. can be taken down. Subsequently, when removing the air conditioner 100A from the conveying apparatus 1, the same work as described above may be repeated.

After that, each of the air conditioners 100A and 100B removed from the transport device 1 is lifted to a position near the lower surface of the upper floor slab, and the hanging bolts are connected and fixed to the connection portions 115 and 115 of the left and right side surfaces 113 and 114. The air conditioners 100A and 100B are installed in a suspended state in the ceiling space. This completes the installation work of the air conditioners 100A and 100B.

Thus, the transport device 1 of the present embodiment can be suitably used when transporting the ceiling-suspended air conditioner 100 to the installation site. In particular, the conveying device 1 is attached to the left and right side surfaces 113, 114 of the air conditioner 100, supporting members 2a, 2b for supporting the air conditioner 100, and engaging the supporting members 2a, 2b to move the air conditioner. It has holding parts 30 a and 30 b for holding the air conditioner 100 , and is provided with a carriage 3 that can move while holding the air conditioner 100 . The holding portions 30a and 30b hold the support members 2a and 2b so as to be rotatable about the rotating shaft 14 orthogonal to the left and right side surfaces 113 and 114 of the air conditioner 100. This configuration allows the posture to be changed between a horizontal posture and a standing posture. According to such a configuration, the conveying device 1 allows the air conditioner 100 assembled with the blowout chamber 120 and the intake chamber 130 to the air conditioner main body 110 to appropriately change its posture between the horizontal posture and the standing posture. It is possible to Therefore, when it is necessary to transport the air conditioner 100 on a narrow temporary elevator at a construction site, the air conditioner 100 can be transported while being held in an upright posture. Moreover, even when it is necessary to transport the air conditioner 100 through a narrow passage to the installation site, the air conditioner 100 can be transported while being held in an upright posture.

In addition, as described above, the upright posture of the air conditioner 100 is a posture in which the front and rear surfaces of the air conditioner main body 110 face up and down. Refrigerant pipes, heat exchangers, and the like provided inside the air conditioner main body 110 are not damaged by vibration during transportation. That is, the transport device 1 of the present embodiment can appropriately transport the air conditioner 100 from the factory to the installation site without damaging the air conditioner 100 . Therefore, it is possible to assemble the blowout chamber 120 and the intake chamber 130 to the air conditioner main body 110 in advance at the factory, and then appropriately transport the air conditioner 100 thus produced to the installation site. , there is an advantage that the work load at the installation site can be reduced.

In particular, the conveying apparatus 1 of the present embodiment can convey the air conditioner 100 with the air conditioner 100 placed thereon until the air conditioner 100 is placed in a horizontal posture at the factory. . Therefore, the air conditioner 100 does not need to be remounted from the factory to the installation site, and the transportation efficiency is excellent.

Although a preferred embodiment of the present invention has been described above, the present invention is not limited to that described in the above embodiment. That is, the present invention includes various modifications applied to the above-described embodiments.

For example, in the above embodiment, a configuration example in which the transport device 1 can load two air conditioners 100A and 100B has been described, but the transport device 1 is used as a reservoir for transporting only one air conditioner 100. I don't mind. Also, a configuration that allows three or more air conditioners 100 to be loaded may be employed by improving the support members 2a and 2b described above.

Moreover, in the above-described embodiment, as an example, the case where the operation of assembling the blowout chamber 120 and the intake chamber 130 in the front-rear direction of the air conditioner main body 110 is performed at the factory. However, the work performed in the factory is not limited to this. For example, at construction sites in recent years, there is a need to reduce waste as a countermeasure against environmental problems, and when carrying an air conditioner to a construction site, it is required to remove packing materials such as cardboard before carrying it in. Sometimes. In this case, the packaging material is removed from the air conditioner main body packed in the factory, and only the air conditioner main body may be transported from the factory to the construction site. Even in such a case, the transport device 1 described above can be preferably used. In other words, the transport device 1 can be used when transporting only the air conditioner body 110 without the blowout chamber 120 or the intake chamber 130 assembled from the factory to the installation site.

In addition to this, for example, the work of attaching a frame member to the air conditioner 100 as disclosed in Patent Document 1 may be performed at the factory. In this case, the conveying device 1 is used when conveying the air conditioner 100 to which the frame member is attached from the factory to the installation site while holding the air conditioner 100 .

Moreover, in the above, the case where the conveying apparatus 1 was utilized for conveyance from a factory to an installation site was illustrated. However, the transport device 1 described above is not limited to transportation from a factory to an installation site, and can be suitably used when transporting the air conditioner 100 within a construction site.

DESCRIPTION OF SYMBOLS 1... Conveyor, 2 (2a, 2b)... Support member, 3... Carriage, 100 (100A, 100B)... Air conditioner, 110... Air conditioner body, 120... Blowout chamber (chamber), 130... Intake chamber ( Chamber).

Claims (5)

A transport device for transporting a ceiling-suspended air conditioner to an installation site,
a support member attached to both left and right side surfaces of the air conditioner and supporting the air conditioner;
a carriage that has a holding portion that engages with the support member to hold the air conditioner and is movable while holding the air conditioner;
with
The conveying device, wherein the holding section rotatably holds the support member, and is capable of changing the attitude of the air conditioner between a horizontal attitude and an upright attitude. 2. The conveying apparatus according to claim 1, wherein the air conditioner has a chamber assembled in the front-rear direction of the air conditioner main body. The support members are attached to both left and right side surfaces of each of the first air conditioner and the second air conditioner arranged in the vertical direction, and support the first air conditioner and the second air conditioner. 3. The conveying apparatus according to claim 1, wherein the conveying apparatus is integrally supported. 4. The conveying apparatus according to claim 1, wherein the carriage has an elevation driving section for vertically moving the holding section. A transportation method for transporting a ceiling-suspended air conditioner to an installation site,
In a factory, a first step of attaching support members for supporting the air conditioner to both left and right side surfaces of the air conditioner;
In the factory, a conveying device having a holding portion that engages with the supporting member to hold the air conditioner is prepared, and the holding portion is engaged with the supporting member to move the air conditioner to the conveying device. A second step of loading on
a third step of loading the conveying device loaded with the air conditioner on a transport vehicle and transporting it to the building where the installation site is located;
a fourth step of unloading the conveying device loaded with the air conditioner from the transportation vehicle in the building and moving the conveying device with the air conditioner loaded to the installation site;
has
In the fourth step, by rotating the support member with respect to the holding portion, the posture of the air conditioner can be changed between a horizontal posture and a standing posture. A transporting method, wherein the transporting device can be moved while maintaining one of standing postures.

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