JP2018177522A - Transporting method for installation equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transporting method for installation equipment capable of transporting an installation equipment in a stable state.SOLUTION: A pair of parts 16 for insertion are arranged with a shorter side direction of a fuel cell unit 10 as an insertion direction, and further, with a certain interval in a direction orthogonal to the insertion direction, on lower sides of each of both end parts of the fuel cell unit 10 whose outer shape is rectangular parallelepiped shape. A lift strap 18 is inserted into the part 16 for insertion, in each of both the end parts of the fuel cell unit 10, and in the lift strap 18, one side thereof and the other side are connected to each other. Meanwhile, a lift harness 20 connected to the lift strap 18 is worn by a user 22 and a user 24. In a state where the lift strap 18 is connected to carabiners 36 and 38, the fuel cell unit 10 is lifted by the users 22 and 24.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a method of transporting installation equipment.

  Patent Document 1 below discloses an invention relating to a harness for lifting heavy objects. In this heavy load lifting harness, the lift harness includes an 8-shaped strap including a pair of annular portions, and a buckle connecting the annular portions. It is attached to each of the human users. On the other hand, under the heavy load, a lift strap is passed, and one end of the lift strap is connected to a buckle of a lift harness attached to one user, and the other end of the lift strap is It is connected to the buckle of the lift harness attached to the other user. For this reason, in the following prior art, at the time of conveyance of a heavy load, two users can lift the heavy load without using an arm, and as a result, the heavy load can be lifted using both arms in a free state. It can be stabilized.

US Patent US7331493 B2

  However, in the above-mentioned prior art, since the lower side of the heavy load is supported only by the strap passed under the heavy load, the stability of the heavy load which is greatly affected by the drop, especially when transporting the installation equipment, etc. There is room for improvement in terms of securing

  The present invention has been made in view of such circumstances, and it is an object of the present invention to obtain a method of transporting installation equipment that enables transportation of installation equipment in a stable state.

  The method of transporting the installation device according to the first aspect is a method of transporting the installation device having a rectangular parallelepiped outer shape, and the longitudinal direction or the short side direction of the installation device is inserted below each side of both ends of the installation device As a direction, one side and the other side of the lift strap are connected to each other through a lift strap to each of a pair of inserted portions disposed apart in a direction orthogonal to the insertion direction, a pair of annular straps, and the annular A first user and a second user respectively attach the lift harness having the connecting portion connecting the strap and the lift strap with the arm through each of the annular straps, and the installation is performed. The lift strap at one end of the device is connected to the connecting portion of the lift harness attached to the first user, and the lift strap at the other end of the installation device is connected And it is connected to the connecting portion of the lift harness attached to the second user.

  In the method of transporting the installation device according to the first aspect, the longitudinal direction or the short direction of the installation device is taken as the insertion direction and orthogonal to the insertion direction on the lower side of each end of the installation device whose outer shape is rectangular parallelepiped A pair of inserted parts are disposed apart in the direction. And in each of the both ends of installation equipment, a lift strap is inserted in a penetration part, and the one side and the other side of the lift strap concerned are connected. In addition, the “connection” mentioned here includes not only a state of direct connection but also a state of indirect connection via a member or the like.

  On the other hand, the lift harness connected to the lift strap is attached to each of the first user and the second user. The lift harness includes a pair of annular straps and a connecting portion connecting the annular strap and the lift strap, and the first user and the second user pass the arms through each of the annular straps. It will be in a state of Then, the lift strap on one end side of the installation device is connected to the first user side connection portion, and the lift strap on the other end side of the installation device is connected to the second user side connection portion , And the first user and the second user lift the installation equipment.

  For this reason, in this aspect, the connection state between the installation device and the lift strap is maintained, and the drop of the installation device can be suppressed at the time of transportation of the installation device. Further, at the time of transportation, since the installation device can be supported at four points, it is possible to suppress the influence of the vibration of the installation device and the like. Furthermore, in order to attach the lift harness to each of the first user and the second user and transport the installation equipment, it is slower using the knee as compared to the configuration in which the bottom of the installation equipment is supported by hand. Since the installation equipment can be lowered, the impact at the time of unloading can be suppressed. In addition, the first user and the second user can support the installation equipment across the shoulders, since the first user and the second user respectively pass the arms through the annular straps of the lift harness It becomes possible. As a result, the physical burden on the first user and the second user can be suppressed, and the freedom of both hands of the first user and the second user can be secured.

  In the method of transporting the installation device according to the second aspect, in the method of transporting the installation device according to the first aspect, the inserted portions are a pair provided spaced apart from each other on the lower side of both ends of the installation device. Provided on the legs of the

  In the method of transporting the installation device according to the second aspect, since the to-be-inserted portions are respectively provided in the pair of leg portions provided separately from each other at both ends of the installation device, the installation of the same member is performed And can be used for transportation. Moreover, the leg part of the installation apparatus is provided in the downward side of the both ends of the said installation apparatus. For this reason, compared with the case where the handle for conveyance is provided in the side of installation equipment, while being able to make space required for installation of installation equipment small, strength required of the case of installation equipment is reduced, installation equipment Cost reduction and weight reduction can be achieved.

  The method of transporting the installation device according to the third aspect is the method of transporting the installation device according to the first aspect or the second aspect, wherein the insertion portion is provided at an end of the installation device in the longitudinal direction.

  In the method of transporting the installation device according to the third aspect, the inserted portion is disposed at the end of the installation device in the longitudinal direction, so a narrow passage or a passage bent at a right angle while securing the size of the installation device It can be made easy to pass.

  As described above, the method of transporting the installation device according to the first aspect has an excellent effect of enabling transportation of the installation device in a stable state.

It is a side view which shows the relationship between the lift strap and lift harness used for the conveyance method of the installation apparatus which concerns on 1st Embodiment, and an installation apparatus. It is a side view which shows the state in which the installation apparatus is conveyed by the conveyance method of the installation apparatus which concerns on 1st Embodiment. It is a front view which shows the state which looked at the user of a lift harness from the front in the state where installation equipment is conveyed by the conveyance method of installation equipment concerning a 1st embodiment. It is a perspective view which shows the structure of the installation apparatus which concerns on 1st Embodiment. It is a perspective view which shows the structure of the installation apparatus which concerns on 2nd Embodiment. It is a perspective view which shows the installation state of the installation apparatus which concerns on 2nd Embodiment.

  Hereinafter, a first embodiment of a method of transporting installation equipment according to the present invention will be described using FIGS. 1 to 4. First, the configuration of the “fuel cell unit 10” as the installation device transported by the method of transporting the installation device according to the present embodiment will be described using FIG. 4.

  The fuel cell unit 10 is configured to include a steel case 12 constituting an outer shell thereof and a plurality of steel "legs 14" provided on the lower side of the case 12. The outer wall of the housing 12 is formed in a rectangular parallelepiped shape, and the upper wall 12A, the lower wall 12B, the front wall 12C, the rear wall 12D, and the pair of side walls 12E are each formed in a plate shape. Is composed including. The names attached to the upper wall 12A, the lower wall 12B, the front wall 12C, the back wall 12D, and the side wall 12E for convenience and limit the difference in the design of the surface and the orientation in the installed state. It is not a thing.

  Specifically, the upper wall portion 12A constitutes the upper surface of the housing 12 and extends in the longitudinal direction of the housing 12 with the thickness direction of the upper wall portion 12A being the height direction of the housing 12. On the other hand, the lower wall portion 12 B constitutes the lower surface of the housing 12 and extends in the longitudinal direction of the housing 12 with the thickness direction of the lower wall portion 12 B as the height direction of the housing 12.

  Further, the front wall portion 12C constitutes the front of the casing 12 at the end 12F on one side in the longitudinal direction of the casing 12, and the longitudinal direction thereof is disposed in the height direction of the casing 12 ing. On the other hand, the rear wall portion 12D constitutes the rear surface of the casing 12 at the other end 12G of the casing 12 in the longitudinal direction, and the longitudinal direction of the rear wall portion 12D is arranged in the height direction of the casing 12 ing.

  The side wall portions 12E respectively constitute the side surfaces of the housing 12 and extend in the longitudinal direction of the housing 12 with the thickness direction being the short direction of the housing 12. In addition, various devices are accommodated inside the housing 12 configured as described above.

  Specifically, a fuel cell module (not shown), an exhaust heat exchanger, a hot water storage tank, a hot water heat exchanger, various pumps and the like (not shown) are disposed inside the housing 12, and the fuel cell unit 10 comprises fuel gas and water. And it is considered as the thermal storage unit integral type which can perform electric power generation using air.

  On the other hand, the leg portion 14 is disposed at each of the end portions 12F and 12G of the housing 12, and is provided as a pair on the lower surface of the lower wall portion 12B in the longitudinal direction of the housing 12 The leg portions 14 are separated from each other in the short direction of the housing 12. In other words, the legs 14 are disposed at the four corners of the lower surface of the lower wall 12B.

  Specifically, the leg portion 14 is formed in a hat shape opened on the upper side of the housing 12 when viewed from the short side direction of the housing 12, and the pair of flanges used for attachment to the lower wall portion 12B It is comprised including the part 14A and the support part 14B used for the support in the installation state of the fuel cell unit 10. FIG. The legs 14 have a rectangular shape extending in the longitudinal direction of the housing 12 when viewed in the height direction of the housing 12.

  The support portion 14B is in the form of a trapezoidal frame that is open toward the upper side of the housing 12 and widens toward the upper side when viewed from the short side direction of the housing 12, and the short portion together with the lower wall portion 12B When viewed from the hand, it forms a trapezoidal “inserted portion 16”. Alternatively, the support portion 14B may be formed in a rectangular shape when viewed from the short side direction of the housing 12 as the rectangular frame shape opened to the upper side of the housing 12 and the support portion 14B. Further, since the leg portion 14 is disposed as described above, the inserted portion 16 has the short side direction of the fuel cell unit 10 as the insertion direction at the lower side of each of both ends of the fuel cell unit 10 in the longitudinal direction. They are arranged in pairs in a direction perpendicular to the insertion direction. In the present embodiment, two pairs of inserted portions 16 are configured by two pairs of leg portions 14. Moreover, it is possible to insert the "lift strap 18" mentioned later into the to-be-inserted part 16. As shown in FIG.

  On the other hand, the flange portion 14A is extended from the peripheral edge portion in the longitudinal direction of the support portion 14B, and is attached to the lower wall portion 12B of the housing 12 via a fastening portion (not shown) and a joining portion (not shown).

  Next, the structures of the lift strap 18 and the "lift harness 20" used for transporting the fuel cell unit 10 will be described using Figs. 1 to 3. As shown in FIG. 2, the end 12F side of the housing 12 (one end side of the fuel cell unit 10) is lifted by the “user 22” as the first user, and the end of the housing 12 The part 12G side (the other end side of the fuel cell unit 10) is lifted by the "user 24" as the second user. The lift strap 18 and the lift harness 20 are similarly used for the user 22 and the user 24, respectively. Therefore, in the following, the lift strap 18 and the lift harness 20 in a state of being used by the user 22 will be described as an example to describe these configurations.

  As shown in FIG. 1 and FIG. 3, the lift strap 18 is configured to include a belt portion 26 which is a belt of a predetermined length and is made of nylon fiber or the like, and a buckle 28. The belt portion 26 of the lift strap 18 is inserted through a pair of inserted portions 16 disposed on the end 12F side of the housing 12, and one side and the other side of the belt portion 26 are connected by the buckle 28. It is attached to the housing 12 in a state where

  On the other hand, as shown in FIG. 3, the lift harness 20 is configured to include a pad portion 30, a pair of “annular straps 32, 34” and “carabiners 36, 38” as a connecting portion. The pad 30 includes a main body (not shown) disposed along the back of the user 22, an extension 30A extending from the left shoulder side of the user 22 toward the front of the left chest in the main body, and the main body And an extension 30B extending from the right shoulder side of the user 22 to the front of the right chest. The pad portion 30 is not shown in FIG.

  The annular strap 32 has one end attached to the extension 30A at the sewing portion 40, and draws an arc that is convex on the fuel cell unit 10 side while passing through the left waist and back of the user 22 and the right chest It extends to the front side, and the other end side is locked to a buckle 42 attached to the extension 30B. That is, the annular strap 32 is annular when viewed from the side of the user 22, and the user 22 is in a state where the arm passes through the annular strap 32. Further, a hook 44 that constitutes a part of the annular strap 32 is attached to the top of the annular strap 32 that is convex toward the fuel cell unit 10 side. The hook 44 is connected to the belt portion 26 of the lift strap 18 via a carabiner 36, as also shown in FIG.

  On the other hand, the annular strap 34 has one end attached to the extension 30B by the sewing portion 46, and draws an arc that is convex on the fuel cell unit 10 side while passing through the right waist and back of the user 22 and left It extends to the front of the chest and the other end side is locked to a buckle 48 attached to the extension 30A. That is, the annular strap 34 is annular when viewed from the side of the user 22, and the user 22 is in a state where the arm passes through the annular strap 34. Further, a hook 50 that constitutes a part of the annular strap 34 is attached to the top of the annular strap 34 that is convex toward the fuel cell unit 10 side. The hook 50 is connected to the belt portion 26 of the lift strap 18 via the carabiner 38. In addition, the annular strap 32 and the annular strap 34 which were mentioned above are in the state of crossing in the back of the user 22.

(Operation and effect of the present embodiment)
Next, the operation and effects of the present embodiment will be described.

  In this embodiment, as shown in FIG. 1 and FIG. 2, the short direction of the fuel cell unit 10 is the insertion direction on the lower side of each end of the fuel cell unit 10 having a rectangular external shape. A pair of inserted parts 16 are disposed apart from each other in the direction orthogonal to the direction. Then, at each of both end portions of the fuel cell unit 10, the lift strap 18 is inserted through the inserted portion 16, and the lift strap 18 is connected to one side and the other side. At one end side of the fuel cell unit 10, the lift strap 18 is in a state of being inserted through the two inserted portions 16 separated in the short direction of the fuel cell unit 10.

  On the other hand, the lift harness 20 connected to the lift strap 18 is attached to each of the user 22 and the user 24. The lift harness 20 includes a pair of annular straps 32, 34 and a carabiner 36, 38 connecting the annular straps 32, 34 and the lift strap 18, and the user 22 and 24 use the annular straps. The arm passes through each of 32, 34. The lift strap 18 at one end of the fuel cell unit 10 is connected to the carabiners 36 and 38 at the user 22 side, and the lift strap 18 at the other end of the fuel cell unit 10 is the carabiner 36 at the user 24, The fuel cell unit 10 is lifted by the users 22 and 24 in a state of being connected to 38.

  Therefore, in the present embodiment, the connection between the fuel cell unit 10 and the lift strap 18 is maintained, and the drop of the fuel cell unit 10 can be suppressed when the fuel cell unit 10 is transported.

  Further, at the time of transportation, since the fuel cell unit 10 can be supported at four points, it is possible to suppress the influence of the vibration of the fuel cell unit 10, specifically, the tilting of the fuel cell unit 10. Furthermore, in order to attach the lift harness 20 to each of the user 22 and the user 24 and transport the fuel cell unit 10, the knee is used in comparison with a configuration in which the bottom of the fuel cell unit 10 is manually supported. Since the fuel cell unit 10 can be unloaded slowly, the impact at unloading can be suppressed.

  In addition, since the user 22 and the user 24 respectively pass the arms through the annular straps 32 and 34 of the lift harness 20, the user 22 and the user 24 can support the fuel cell unit 10 with their entire shoulders. Become. As a result, the physical burden on the user 22 and the user 24 can be suppressed, and the freedom of both hands of the user 22 and the user 24 can be secured. Therefore, in the present embodiment, the fuel cell unit 10 can be transported in a stable state, specifically, in a state in which tilting or the like is suppressed.

  Further, in the present embodiment, since the inserted portions 16 are respectively provided in the pair of leg portions 14 provided separately from each other at both end portions of the fuel cell unit 10, the same members can be used in the fuel cell unit 10. It can be used for installation and transportation. Furthermore, the legs 14 of the fuel cell unit 10 are provided on the lower side of both ends of the fuel cell unit 10. Therefore, the space required for installation of the fuel cell unit 10 can be reduced and the housing 12 of the fuel cell unit 10 is required, as compared with the case where a handle for transportation is provided on the side surface of the fuel cell unit 10. The strength can be reduced, and the cost and weight of the fuel cell unit 10 can be reduced.

  In addition, in the present embodiment, since the insertion portion 16 is disposed at the end of the fuel cell unit 10 in the longitudinal direction, a narrow passage or a passage bent at a right angle while securing the size of the fuel cell unit 10 It is easy to go through.

Second Embodiment
Hereinafter, a second embodiment of the method of transporting the installation device according to the present invention will be described using FIGS. 5 and 6. The same components as those in the first embodiment described above are denoted by the same reference numerals and descriptions thereof will be omitted.

  In the present embodiment, the housing 62 of the “fuel cell unit 60” as the installation device is provided with the “inserted parts 64 and 66”, and the fuel cell unit 60 does not include the legs, as described above. The configuration is different from the fuel cell unit 10 described above, but the other configuration is the same.

  As shown in FIG. 5, in the present embodiment, reinforcement members are provided at the boundary between the front wall 62A and the side wall 62B and at the boundary between the rear wall 62C and the side wall 62B inside the housing 62. 68 are arranged.

  The reinforcing member 68 is disposed with the height direction of the housing 62 as the longitudinal direction, and as an example, the reinforcing member 68 is formed of a steel material (angle member) having an L-shaped cross section as viewed from the longitudinal direction. The reinforcing member 68 is disposed along the front wall 62A and the side wall 62B on the side of the end 62D on one side in the longitudinal direction of the housing 62, and at the end 62E on the other side in the longitudinal direction of the housing 62. , The rear wall portion 62C and the side wall portion 62B.

  Further, in the lower side portion of each of both longitudinal end portions of the pair of side wall portions 62B, a pair of inserted portions 64 are provided apart from each other in the short direction of the fuel cell unit 60, and these are The insertion direction (arrow W direction) is in the state of being the separation direction. The insertion portion 64 has a rectangular shape whose longitudinal direction is the longitudinal direction of the housing 62 when viewed from the lateral direction of the housing 62, and the side wall portion 62B and the reinforcing member 68 are penetrated. It is formed. The lift strap 18 described above can be inserted into the inserted portion 64.

  On the other hand, on the lower sides of the front wall portion 62A and the rear wall portion 62C at both ends in the short direction of the housing 62, the pair of the fuel cell unit 60 are separated in the longitudinal direction and are inserted into the inserted portion 66. These are in a state in which the insertion direction (the arrow L direction) is the separation direction. The insertion portion 66 has a rectangular shape whose longitudinal direction is the short direction of the housing 62 when viewed from the longitudinal direction of the housing 62, and the front wall 62A, the rear wall 62C, and the reinforcement A member 68 is formed penetrating. Note that the lift strap 18 described above can be inserted into the inserted portion 66.

(Operation and effect of the present embodiment)
Next, the operation and effects of the present embodiment will be described.

  In the present embodiment, the insertion portion 64 is provided in the housing 62, and by using the insertion portion 64, the fuel cell unit 60 can be transported as in the first embodiment described above. Therefore, even in the present embodiment, the same operation and effect as those of the first embodiment described above can be exhibited except for the operation and effects of the leg portion 14.

  Further, in the present embodiment, the insertion portion 66 is provided in the housing 62, and the user 22 and the user 24 use the lift strap 18 and the lift harness 20 at both ends in the short direction of the fuel cell unit 60. It can be lifted.

  Furthermore, in the present embodiment, since the inserted portions 64 and 66 are provided in the housing 62, as shown in FIG. The mounting bracket 68 can be fixed to the mounting point (base) 70 in a state where it is mounted on the mounting base 70.

<Supplementary explanation of the above embodiment>
(1) In the embodiment described above, one side and the other side of the lift strap 18 are connected by the buckle 28, but the present invention is not limited to this. For example, the carabiners 36 and 38 may be connected to a buckle that functions as a connecting portion, and the buckle may be connected to one side and the other side of the lift strap 18.

  (2) Further, in the above-described embodiment, the inserted parts having the same insertion direction are disposed apart in the longitudinal direction or the short direction of the fuel cell unit, but the present invention is not limited to this. For example, even if square pipes extending in the longitudinal direction or the short direction of the fuel cell unit are arranged in a pair at a distance in a direction perpendicular to the extending direction, the inner side of the square pipe is used as the insertion portion Good.

  (3) Further, in the first embodiment described above, the leg portion 14 is disposed such that the insertion direction of the insertion portion 16 is the short direction of the fuel cell unit 10, but the insertion direction is the fuel cell unit The legs 14 may be arranged to be in the longitudinal direction of ten.

  (4) In addition, although reinforcement member 68 extended in the height direction of case 62 was arranged at four corners inside case 62 in the 2nd embodiment mentioned above, it does not restrict to this. For example, a reinforcement member along the front wall 62A, the side wall 62B, and the rear wall 62C, which has a rectangular frame shape seen from the height direction of the housing 62, is disposed on the lower side inside the housing 62. It is good also as composition provided with penetration parts 64 and 66 in a reinforcement member.

10 Fuel cell unit (installed equipment)
14 Leg 16 Insertion Part 18 Lift Strap 20 Lift Harness 22 User (First User)
24 users (second user)
32 annular strap 34 annular strap 36 carabiner (connection part)
38 Carabiner (connected part)
60 Fuel Cell Unit (Installation Equipment)
64 inserted part 66 inserted part

The method of transporting the installation device according to the first aspect is a method of transporting the installation device having a rectangular parallelepiped outer shape, and the longitudinal direction or the short side direction of the installation device is inserted below each side of both ends of the installation device One side and the other side of the lift strap are connected through the lift strap to each of the inserted parts which are a pair of holes arranged in a direction orthogonal to the insertion direction as a direction, and a pair of annular straps A first user and a second user respectively attach the lift harness including the coupling portion connecting the annular strap and the lift strap to the respective annular straps with the arms passing through the arms; A lift strap at one end of the installation device is connected to the connecting portion of a lift harness attached to a first user, and a lift at the other end of the installation device And ligated wrap to the connecting portion of the lift harness attached to the second user.

In the method of transporting the installation device according to the first aspect, the longitudinal direction or the short direction of the installation device is taken as the insertion direction and orthogonal to the insertion direction on the lower side of each end of the installation device whose outer shape is rectangular parallelepiped The insertion part which is a pair of holes spaced apart in the direction is arrange | positioned. And a lift strap is penetrated by the penetration part which is a hole in each of the both ends of installation equipment, and the lift strap concerned is connected with the one side and the other side. In addition, the “connection” mentioned here includes not only a state of direct connection but also a state of indirect connection via a member or the like.

Claims (3)

It is a method of transporting the installation equipment whose outer shape is a rectangular parallelepiped, and
A lift is provided to each of a pair of inserted parts which are disposed on the lower side of each of the both ends of the installation device with a longitudinal direction or a short direction of the installation device as an insertion direction and separated in a direction orthogonal to the insertion direction. Connect one side and the other side of the lift strap through the strap,
A first user and a second user with a lift harness having a pair of annular straps and a connecting portion connecting the annular strap and the lift strap through the arms of each of the annular straps. Each wears,
The lift strap at one end of the installation device is connected to the connecting portion of the lift harness attached to the first user, and the lift strap at the other end of the installation device is attached to the second user Connecting to the connecting portion of the lift harness,
How to transport the installation equipment. The to-be-inserted portions are respectively provided on a pair of leg portions provided to be separated from each other on the lower side of both end portions of the installation device.
A method of transporting installation equipment according to claim 1. The inserted portion is provided at a longitudinal end of the installation device.
The transport method of the installation apparatus of Claim 1 or Claim 2.