JP2024040703A - Hanging cover device and installation method for precision electronic equipment - Google Patents

Abstract

[Problem] To suppress a hanging cover device from being fanned by the wind. A hanging cover device according to an embodiment includes a hanging fitting, an air beam, and an upper sheet. The hanging fitting has a support portion, a hanging portion located at the upper end of the support portion and latched to the crane, and a hanging portion for hanging a load located at the lower end of the support portion. The air beam is suspended from a hanging fixture and can expand and contract according to air pressure. The upper end of the upper sheet is fixed to the lower end of the column, the inside is supported by the air beam, the lower end hangs below the air beam, and when it hangs below the air beam, it becomes cylindrical with an open bottom. . [Selection diagram] Figure 1

Description

The present invention relates to a hanging cover device and a method for installing precision electronic equipment.

Precision electronic equipment such as GIS (Gas Insulated Switchgear), which requires high insulation properties, requires dust-proofing and humidity control during on-site installation work. In particular, when starting work outdoors, it is common to measure the surrounding dust count and humidity and confirm that they are within a certain standard value before starting work. Taking the standard values for disassembly and reassembly work performed during GIS installation and inspection work at substations as an example, the standard value for dust count that can be worked on is set at 20 cpm or less, and the standard value for humidity is set at 80% or less. . Additionally, work will generally be canceled in the event of rain.

Therefore, if it is difficult to judge whether it will rain or not, quality control personnel dispatched from the factory will decide on-site whether or not to start work. To prevent rain from falling during work, workers and heavy equipment for installation, such as crane trucks, have to spend more time waiting without doing any work, which can disrupt the construction process. If construction is forced to start and it rains during work, quality problems may occur, and in some cases the GIS may have to be taken back to the factory from which it was shipped, further delaying the construction process. .

In order to prevent delays in the construction process and avoid problems with dustproofing, moistureproofing, and waterproofing, a proposal has been made to attach a hanging cover device that acts as an umbrella to the lifting device for precision electronic equipment such as GIS, which is the object of construction work. .

Japanese Patent Application Publication No. 6-101366

The hanging cover device described in Patent Document 1 uses an upper sheet and a lower sheet in order to avoid problems with dustproofing, moistureproofing, and waterproofing, and the GIS is attached to the crane within the space covered by the upper sheet and the lower sheet. I am able to do my work etc. This prevents quality problems such as having to take the GIS back to the factory from which it was shipped, even if it rains during work. The hanging cover device described in Patent Document 1 uses a ring-shaped frame to spread out the upper sheet and the lower sheet, so that work such as attaching the GIS to the crane can be done within the space covered by the upper sheet and the lower sheet. I'm trying to do what I can. However, since the ring-shaped frame is made of steel, the frame itself is a heavy object, which may pose a safety problem that makes it undesirable to work under a heavy object.

In the hanging cover device described in Patent Document 1, the shape and size of the space covered by the upper sheet and the lower sheet are determined according to the size and shape of the ring-shaped frame. Therefore, the ring-shaped frame is made in a shape and size that corresponds to the space required for the work. Since the size and shape of the ring-shaped frame cannot be changed, the shape and size of the space covered by the upper and lower sheets must be adjusted when installing the GIS on the crane, lifting the GIS, and transporting the GIS. It cannot be changed. If the GIS is lifted and transported while the space covered by the upper and lower sheets is still large enough to attach the GIS to the crane, the upper and lower sheets will be blown up by the wind, creating a work hazard. may invite

The present invention was made under the above-mentioned circumstances, and an object of the present invention is to suppress the hanging cover device from being blown by the wind.

A hanging cover device according to an embodiment for solving the above problem includes a hanging fitting, an air beam, and an upper sheet. The hanging fitting has a support portion, a hanging portion located at the upper end of the support portion and latched to the crane, and a hanging portion for hanging a load located at the lower end of the support portion. The air beam is suspended from a hanging fixture and can expand and contract according to air pressure. The upper end of the upper sheet is fixed to the lower end of the column, the inside is supported by the air beam, the lower end hangs below the air beam, and when it hangs below the air beam, it becomes cylindrical with an open bottom. .

FIG. 1 is a configuration diagram of a hanging cover device according to an embodiment. FIG. 2 is an image diagram of a hanging fitting according to an embodiment. FIG. 2 is a plan view of an air beam according to the embodiment. FIG. 2 is a side view of the air beam according to the embodiment. It is a figure for explaining the bellows part of the air beam concerning an embodiment. It is a figure for explaining the bellows part of the air beam concerning an embodiment. FIG. 3 is a diagram for explaining an air beam according to an embodiment. FIG. 3 is a diagram for explaining a lower sheet according to an embodiment. FIG. 2 is a diagram for explaining a blower according to an embodiment. It is a flowchart for explaining the usage example of the hanging cover device concerning an embodiment.

Hereinafter, a hanging cover device according to an embodiment will be described with reference to the drawings. In the description, an XYZ coordinate system consisting of an X-axis, a Y-axis, and a Z-axis that are perpendicular to each other will be used as appropriate. Here, an example will be described in which a precision electronic device that requires high insulation is transported by a crane using the hanging cover device according to the embodiment. Further, a case where the precision electronic device is a GIS (Gas Insulated Switchgear) will be explained as an example.

(Embodiment 1)
FIG. 1 is a configuration diagram of a hanging cover device according to this embodiment. The hanging cover device 1 includes a hanging fitting 10, an air beam 30, an upper sheet 40, a lower sheet 45, a blower 50, and a storage battery 55. The blower 50 and the storage battery 55 are fixed to the hanging fitting 10.

FIG. 2 is an image diagram of the hanging fitting 10. The hanging fitting 10 has a support portion 11 , a hook portion 12 , an umbrella portion 13 , a hanging portion 14 , a flange portion 17 , and a mounting portion 18 . It is desirable that the hanging fitting 10 be made of a lightweight, durable, and inexpensive material. The hanging fitting 10 is made of, for example, iron, aluminum, titanium, magnesium, or an alloy thereof.

The support column 11 has a vertically elongated shape in the Z-axis direction. The hanging part 12 is a ring-shaped member that is hung on the hook 100 of the crane. The hook part 12 is located at the upper end of the column part 11, and is rotatably attached to the column part 11. The umbrella portion 13 is a truncated cone-shaped member that is circular in top view and whose diameter becomes narrower as it goes in the +Z direction. The umbrella section 13 is provided at the upper end of the column section so as to cover the column section 11, the blower 50, and the storage battery 55. The umbrella section 13 prevents the blower 50 and the like from getting wet with rain. The umbrella section 13 also prevents rainwater from entering the space covered by the upper sheet 40. The umbrella portion 13 also prevents the blower 50 and the like from getting dirty when grease or the like falls from the hanging wire of the heavy machine. Moreover, the umbrella portion 13 reduces the adhesion of fallen grease to the upper sheet 40. In addition, the umbrella part 13 should just have the above-mentioned function, and its shape is not limited. The hanging portion 14 is a member for hanging a load such as a GIS. The hanging portion 14 is composed of, for example, a hook. The hanging portion 14 is rotatably provided at the center of the lower part of the support portion 11.

The flange portion 17 is provided at the lower end of the column portion 11, as shown in FIG. The flange portion 17 is a member in which an upper circular member 171 (not shown in FIG. 2) and a lower circular member 172 are connected by a columnar member 173. Since the diameters of the upper circular member 171 and the lower circular member 172 are larger than the diameter of the columnar member 173, there is a recess 175 between the upper circular member 171 and the lower circular member 172. The diameters of the upper circular member 171 and the lower circular member 172 are smaller than the diameter of the umbrella portion 13. The flange portion 17 is provided at the lower end of the support portion 11. A plurality of attachment portions 18 having attachment holes 19 are provided below the lower circular member 172 of the flange portion 17 . In the example shown in FIG. 2, the attachment parts 18 are arranged radially on the lower surface of the flange part 17.

Returning to FIG. 1, the air beam 30 is a hollow ring-shaped member. The air beam 30 is a member that can expand and contract according to the air pressure of the air blown into the interior by the blower 50. FIG. 3 is a plan view of the air beam 30. FIG. 4 is a side view of the air beam 30. The air beam 30 has a plurality of bellows parts 31 and a plurality of connection parts 32 that connect the bellows parts 31.

5 and 6 are diagrams for explaining the bellows portion 31. FIG. FIG. 5 is a cross-sectional view of the bellows portion 31 in a state of being expanded in the X-axis direction. FIG. 6 is a cross-sectional view of the bellows portion 31 in a state where it has shrunk to some extent in the X-axis direction. As shown in FIGS. 5 and 6, the bellows portion 31 has a bone portion 311 and a curtain portion 313. Although FIGS. 5 and 6 show a case in which one bellows part 31 has five bone parts 311, the number of bone parts 311 that one bellows part 31 has is not limited. For example, one bellows portion 31 may have 50 to 100 bone portions 311.

The bone portion 311 is formed of a ring-shaped wire. It is desirable that the wire be made of a material that is light, strong, and inexpensive. The wire is made of, for example, iron, aluminum, titanium, magnesium, etc., or an alloy thereof. The curtain portion 313 is fixed around the bone portion 311 so as to cover the bone portion 311. The curtain portion 313 is made of a material that is highly airtight but allows air to pass through (a material that has some degree of breathability). The curtain portion 313 is made of a material such as polyethylene or nylon, for example. The degree of breathability of the curtain section 313 is determined by taking into consideration the amount of air blown by the blower 50 and the speed at which air escapes from the curtain section 313 when the blower 50 stops blowing air. For example, the degree of breathability of the curtain 313 can be adjusted by changing the material of the curtain 313, the thickness of the curtain 313, or by layering two or three layers of cloth of a predetermined thickness that make up the curtain 313. can do. Furthermore, the curtain portion 313 is required to have enough strength to prevent major damage when it comes into contact with surrounding equipment and GIS at the work site.

With the above configuration, the bellows portion 31 has an expandable bellows structure. For example, as shown in FIG. 6, the minimum length of the bellows portion 31 when contracted in the X-axis direction is about 30 cm. Further, as shown in FIG. 5, the maximum length of the bellows portion 31 when extended in the X-axis direction is about 10 m. When air is blown into the air beam 30 by the blower 50, the bellows portion 31 expands in the X-axis direction due to the pressure of the air, as shown in FIG. Furthermore, since the air escapes from the curtain part 313 of the bellows part 31, the bellows part 31 can be easily deflated in the X-axis direction by the operator's operation by stopping the air blowing from the blower 50. . When the bellows part 31 is in a deflated state, the curtain part 313 is in a state of hanging down in the -Z direction between the adjacent bone parts 311.

The connecting portion 32 is a member that connects the plurality of bellows portions 31. The connecting portion 32 is made of a material that allows the angle formed by the two bellows portions 31 connected by the connecting portion 32 to be changed. For example, the connecting portion 32 can be configured with a bone portion made of wire and a curtain portion made of a material such as polyethylene or nylon. For example, the bone portion of the connecting portion 32 is formed in a spiral shape like a spring. Further, the wire that constitutes the bone portion of the connecting portion 32 is made of a material that is hard enough not to be deformed by air pressure.

Further, as shown in FIG. 4, the air beam 30 has a fixing part 33 on the +Z side of the connecting part 32, and a fixing part 34 on the -Z side of the connecting part 32. The fixing part 33 has a fixing hole 331, and the fixing part 34 has a fixing hole 341. The fixing part 33 and the fixing part 34 are provided in the bone part of the connecting part 32. The length of the bellows part 31 when air is blown into the air beam 30 is determined by the length of the rope, for example, by connecting any of the fixed parts 33 or 34 with a rope. Note that instead of the rope, a thin wire, Velcro tape (registered trademark), or the like may be used.

The air beam 30 shown in FIG. 3 extends in the X-axis direction and the Y-axis direction by the extension of the bellows portion 31. Since the maximum length of one bellows portion 31 is about 10 m, the maximum length of the air beam 30 shown in FIG. 3 in the X-axis direction and the Y-axis direction is about 20 m. The length of the air beam 30 in the X-axis direction and the Y-axis direction is determined by the length of the rope connecting the plurality of connection parts 32. Therefore, the air beam 30 shown in FIG. 3 can be adjusted to have a length in the X-axis direction of 5 m and a length in the Y-axis direction of 10 m, for example, by adjusting the length of the rope.

The shape of the air beam 30 can be freely changed by changing the angle of the connecting portion 32. For example, as shown in FIG. 7, the air beam 30 may have a hexagonal shape in plan view (XY plane). It can also be octagonal. Furthermore, the area of the XY plane surrounded by the air beam 30 can be changed by changing the length of the bellows portion 31. In other words, the air beam 30 can be adjusted depending on the shape and size of the GIS to be transported, or the shape and size of the space required for connection work between the GIS to be transported and the existing GIS. Shape and size can be changed.

As shown in FIG. 1, the air beam 30 is suspended from the hanging fitting 10 by connecting the fixing hole 331 of the fixing part 33 and the mounting hole 19 of the mounting part 18 of the hanging fitting 10 via the wire 70. . It is desirable that the wire 70 be made of a light, strong, and inexpensive material. The wire 70 can be made of, for example, iron, aluminum, titanium, magnesium, or an alloy thereof, or carbon fiber.

As shown in FIG. 1, the upper sheet 40 has an end (upper end) in the +Z direction fixed to a flange 17 provided at the lower end of the support 11 of the hanging fitting 10, so as to cover the air beam 30. Placed. For example, the +Z direction end (upper end) of the upper sheet 40 is sewn together to form a cylindrical part through which a rope can be inserted. The upper sheet 40 is fixed to the hanging fitting 10 by arranging this cylindrical portion at the position of the recess 175 of the flange portion 17 and tightening the rope inserted through the cylindrical portion. The upper sheet 40 is arranged such that the inner side of the upper sheet 40 is supported by the outer periphery of the air beam 30, so that it extends in a conical shape from the hanging fitting 10 toward the air beam 30. The lower end of the upper sheet 40 hangs below the air beam 30, and when the upper sheet 40 hangs below the air beam 30, it becomes cylindrical with an open lower surface. The upper sheet 40 is made of a lightweight and highly waterproof material. The upper sheet 40 is made of a material such as polyethylene or nylon, for example. The shape of the upper sheet 40 is rectangular or fan-shaped.

The lower sheet 45 is detachably attached to the air beam 30 and forms a cylindrical space below the air beam 30 with an open bottom. The lower sheet 45 is made of a lightweight and highly waterproof material. The lower sheet 45 is made of a material such as polyethylene or nylon, for example. The shape of the lower sheet 45 is rectangular or the like. As shown in FIG. 8, the lower sheet 45 has a plurality of fixing parts 46 at the +Z side end. The fixing part 46 has a fixing hole 461. The lower sheet 45 is attached to the air beam 30 so as to cover the space below the air beam 30 by connecting the fixing hole 461 of the fixing part 46 and the fixing hole 341 of the fixing part 34 of the air beam 30 with a string or the like. Installed. As shown in FIG. 1, the lower sheet 45 is arranged inside the upper sheet 40 hanging below the air beam 30 so as to be in contact with the upper sheet 40.

As shown in FIG. 8, the lower sheet 45 has a plurality (two in FIG. 8) of cut portions 47 in the Z-axis direction. The portion (area) 48 sandwiched between the cut portions 47 can be rolled up in the +Z direction. In other words, since the lower sheet 45 has the plurality of cut portions 47, the portion (region) 48 of the lower sheet 45 sandwiched between the plurality of cut portions 47 can be opened and closed. The width between the cut portions 47 is determined according to the dimensions of the GIS to be worked on. The cut portion 47 can be fixed with a zipper, Velcro (registered trademark), or the like.

Returning to FIG. 1, the blower 50 is a device that sucks in surrounding air and blows the air into the air beam 30. The storage battery 55 is a power source for driving the blower 50. As shown in FIG. 9, an air hose 51 is provided for blowing air from the blower 50 to the air beam 30. The blower 50 and the air hose 51, and the air hose 51 and the air beam 30 are connected by couplers (not shown).

The blower 50 has an air filter between an air inlet and an air outlet. The air filter can be configured using, for example, a nanofilter or a dust collection filter. The air filter is configured based on the dust count reference value. The air sucked in from the suction port of the blower 50 is purified by passing through this air filter. The blower 50 has an air purifying function by having this air filter.

Next, with reference to FIG. 10, an example of a method for installing precision electronic equipment using the hanging cover device 1 will be described. Here, an example will be explained in which a newly installed GIS is transported by a crane and the newly installed GIS is connected to an existing GIS.

First, a crane is moved to the sky above the newly installed GIS to be transported (step S11). Then, as shown in FIG. 2, the hanging part 12 of the hanging fitting 10 is attached to the hook 100 of the crane (step S12). Next, the air beam 30 is attached to the hanging fixture 10 using the wire 70 (step S13).

Next, the air beam 30 is expanded to transform the air beam 30 into a shape and size corresponding to the newly installed GIS to be transported (step S14). Specifically, the angle of the connecting portion 32 of the air beam 30 is adjusted so that the shape corresponds to the space required for attaching the GIS to be transported to the crane. Then, by blowing air into the air beam 30 using the blower 50, the bellows part 31 is expanded to a size that corresponds to the space required for mounting the GIS to be transported onto the crane. The length of the bellows portion 31 is adjusted by the length of the rope connecting the plurality of fixing parts 33 or fixing parts 34. Then, the air beam 30 is arranged so as to surround the GIS.

Next, the upper sheet 40 is attached to the hanging fitting 10 so as to cover the air beam 30 (step S15). Specifically, a crane lifts the hanging fitting 10 and the air beam 30 to a predetermined height. Then, the upper sheet 40 is fixed to the hanging fitting 10 by wrapping the upper end of the upper sheet 40 around the recess 175 of the flange portion 17 of the hanging fitting 10 and tightening the rope. Then, the lower end of the upper sheet 40 is placed so as to cover the periphery of the air beam 30. The upper sheet 40 is supported on the inside by the air beam 30 and hangs below the air beam 30. The lower end of the upper sheet 40 hangs below the air beam 30 and has a cylindrical shape with an open lower surface. Next, the lower sheet 45 is attached to the fixed part 34 of the air beam 30. The lower sheet 45 forms a cylindrical space below the air beam 30 with an open bottom surface. The joints between the upper sheet 40 and the lower sheet 45 are closed with Velcro tape (registered trademark) or the like, if necessary, so as not to leave any gaps. Through the above operations, the space covered by the upper sheet 40 and the lower sheet 45 has a shape and size that corresponds to the space required for the installation work of the GIS to the crane.

Next, the humidity and the like in the space covered by the upper sheet 40 and the lower sheet 45 are adjusted (step S16). Specifically, the dust count and humidity in the space covered by the upper sheet 40 and the lower sheet 45 are measured. When the measured value of the dust count is 20 cpm or more, which is the standard value, the air in the space covered by the upper sheet 40 and the lower sheet 45 is cleaned using an air purifier so that the measured value of the dust count becomes less than the standard value. Purify using. Since the blower 50 has an air purifying function, the air in the space covered by the upper sheet 40 and the lower sheet 45 is replaced with the purified air leaking from the air beam 30, thereby purifying the air. You can also do that.

If the measured humidity in the space covered by the upper sheet 40 and the lower sheet 45 is 80% or more, which is the standard value, a dehumidifier is used to remove the humidity in the space covered by the upper sheet 40 and the lower sheet 45. Adjust so that the measured humidity value is below the standard value. By sending dry air into the space covered by the upper sheet 40 and lower sheet 45 using a dry air generator, the measured value of humidity in the space covered by the upper sheet 40 and lower sheet 45 becomes the standard. You may adjust it so that it is below this value.

After confirming that the dust count, humidity, etc. in the space covered by the upper sheet 40 and lower sheet 45 are within standard values, install a nylon sling or ring in the space covered by the upper sheet 40 and lower sheet 45. etc., to prepare for transportation of the newly installed GIS to be transported (step S17). Next, the newly installed GIS to be transported is attached to the hanging part 14 of the hanging fitting 10 (step S18). Since the work in step S17 and step S18 is performed in a space covered by the upper sheet 40 and the lower sheet 45, even if it rains during the work, the GIS will not get wet.

Next, the air beam 30 of the hanging cover device 1 is retracted to wrap the GIS (precision electronic equipment) in the hanging cover device 1 (step S19). Specifically, the blower 50 stops blowing air, and the air beam 30 is deflated. Since the curtain part 313 of the air beam 30 is breathable, the air inside the air beam 30 escapes through the curtain part 313. Therefore, when the air blower 50 stops blowing air, the air beam 30 loses the power to maintain the length of the bellows portion 31. The operator operates the air beam 30 so that the length of the bellows portion 31 of the air beam 30 is shortened, and wraps the upper sheet 40 and the lower sheet 45 around the GIS to be transported. Then, by fixing the periphery of the upper sheet 40 and the lower sheet 45 with a rope or the like, the space covered by the upper sheet 40 and the lower sheet 45 is reduced.

Next, the GIS to be transported is lifted by a crane via the hanging cover device 1 (step S20). Then, the GIS is transported to the destination using a crane (step S21). Here, the newly installed GIS to be transported is transported to the location where the existing GIS (not shown) is installed. When lifting and transporting a GIS, by wrapping the upper sheet 40 and lower sheet 45 around the GIS to be transported, the space covered by the upper sheet 40 and lower sheet 45 becomes smaller, so that the hanging cover device 1 is protected from wind. It is possible to prevent people from being provoked by this.

During the connection work between the transported newly installed GIS and the existing GIS, the air beam 30 is extended to cover the connection work area between the newly installed GIS and the existing GIS with the hanging cover device 1 (step S22). Specifically, the shape and size of the space covered by the upper sheet 40 and lower sheet 45 can be changed by removing the ropes binding the upper sheet 40 and the lower sheet 45 and blowing air from the blower 50 to the air beam 30. The bellows portion 31 of the air beam 30 is extended so that the shape and size correspond to the space required for the connection work between the GIS to be transported and the existing GIS. If the space required for the connection work between the newly installed GIS and the existing GIS is different in shape and size from the space required for the work in step S18, a rope connecting the plurality of fixed parts 33 or fixed parts 34 may be used. By changing the length of the bellows part 31, the length of the bellows part 31 is adjusted. Further, the angle of the connecting portion 32 is adjusted as necessary. Then, the portion (region) 48 sandwiched between the cut-out portions 47 of the lower sheet 45 shown in FIG. 8 is rolled up in the +Z direction so that the connection surface of the existing GIS enters the space covered by the lower sheet 45. The hanging cover device 1 is moved together with the newly installed GIS using a crane.

Next, the height, position, and angle of the transported new GIS are adjusted so that the connection surface of the existing GIS matches the connection surface of the transported newly installed GIS (step S23). Then, the connection surface of the existing GIS and the connection surface of the new GIS are connected, and both are fixed with bolts or the like (step S24). The work in step S23 and step S23 is performed in a space covered by the upper sheet 40 and the lower sheet 45, so even if it rains during the work, the connection surface of the existing GIS and the new GIS will not get wet. Never.

In this way, by transporting the GIS using the hanging cover device 1 and performing the connection work between the newly installed GIS and the existing GIS, even if it rains during work, you can be sure to be protected from the rain. It can be carried out. Therefore, it is possible to suppress the occurrence of quality problems such as having to take the GIS back to the factory from which it was shipped. This makes it possible to suppress work process delays. Further, by performing work in a space covered by the hanging cover device 1, problems of dustproofing, moistureproofing, and waterproofing can be avoided, so dustproofing and humidity management can be facilitated.

As described above, the hanging cover device 1 according to the present embodiment includes the support section 11, the hanging section 12 located at the upper end of the support section 11 and hung on the crane, and the umbrella that covers the support section 11. 13 and a hanging part 14 for hanging a load located at the lower end of the support column 11; It has a beam 30 and a cylindrical upper sheet 40 whose upper end is fixed to the lower side of the umbrella part 13, whose inner side is supported by the air beam 30, whose lower end hangs below the air beam 30, and whose lower surface is open. It also has a lower sheet 45 that is detachably attached to the air beam 30 and forms a cylindrical space with an open bottom below the air beam 30. Since the upper sheet 40 and the lower sheet 45 are made of highly waterproof materials, surrounding dust and moisture such as rain do not enter into the space covered by the upper sheet 40 and the lower sheet 45. By having such a structure, the hanging cover device 1 according to the present embodiment can easily form a dust-proof, moisture-proof, and waterproof space in any location, and even if it rains during work, , it is possible to reliably protect from rain.

Furthermore, since the air beam 30 is lightweight, the hanging cover device 1 according to this embodiment can reduce the device weight of the hanging cover device 1. Since the air beam 30 is lightweight, even if the air beam 30 falls, the worker will not be harmed.

Moreover, the air beam 30 of the hanging cover device 1 according to the embodiment can be expanded and contracted according to air pressure. The hanging cover device 1 according to the embodiment extends the air beam 30 during the work of installing the GIS on the crane and the work of connecting the GIS to be transported and the existing GIS. A work space can be secured. Furthermore, the hanging cover device 1 according to the embodiment can prevent the hanging cover device 1 from being blown by the wind by deflating the air beam 30 and wrapping the upper sheet 40 and the lower sheet 45 around the GIS when lifting and transporting the GIS. can be suppressed. This can improve work safety.

Moreover, the air beam 30 of the hanging cover device 1 according to the embodiment includes a plurality of bellows parts 31 that are formed to be expandable and retractable in a bellows structure, and a plurality of connection parts 32 that connect the bellows parts 31. The connecting portion 32 is made of a material that can change the angle formed by the two bellows portions 31 connected by the connecting portion 32, and the length of the bellows portion 31 can be changed by expanding and contracting. Therefore, in the hanging cover device 1 according to the embodiment, the shape and size of the space covered by the upper sheet 40 and the lower sheet 45 are determined according to the space required for attaching the GIS to be transported to the crane. It is possible to change the shape and size according to the size, and the space required for connection work between the GIS to be transported and the existing GIS. By having such a structure, the hanging cover device 1 according to the present embodiment can easily form a dustproof, moistureproof, and waterproof space in any desired shape and size at any location.

Moreover, by having a structure in which the upper sheet 40 and the lower sheet 45 are separated, the weight of the upper sheet 40 corresponding to the weight of the lower sheet 45 can be reduced. Thereby, the weight of the upper sheet 40 can be reduced, and the strength of the upper sheet 40 can be reduced.

Further, by providing the blower with an air purifying function, the air in the space covered by the upper sheet 40 and the lower sheet 45 can be purified.

In addition, in the above description, a case has been described in which the connecting portion 32 is composed of a rib portion and a curtain portion that are formed in a spiral shape like a spring, but there is no need to be limited to this. The connecting portion 32 may have any structure as long as it can change the angle formed by the two bellows portions 31 connected by the connecting portion 32. For example, the connecting portion 32 may be made of bellows-shaped aluminum, deformable hard resin, or the like.

Further, in the explanation using FIG. 3 and the like, a case has been described in which the air beam 30 has eight bellows parts 31 and connecting parts 32, but there is no need to limit the number of bellows parts 31 and connecting parts 32. For example, the number of bellows parts 31 and connecting parts 32 may be 6, 12, 16, etc.

Furthermore, in the above description, the case where the bellows portion 31 has a bellows structure has been described. However, the bellows portion 31 only needs to be formed to be expandable and contractible, and is not limited to this. For example, the bellows portion 31 may not have the bone portion 311 and the curtain portion 313 may be formed of a stretchable material such as rubber.

Furthermore, in the explanation using FIG. 4 above, the case where the fixing part 33 and the fixing part 34 are provided in the connecting part 32 has been explained. However, the fixing portion 33 and the fixing portion 34 may be provided on the bone portion 311 of the bellows portion 31. Further, although the case where the fixing part 33 is provided on the +Z side of the connecting part 32 and the fixing part 34 is provided on the -Z side of the connecting part 32 has been described, the fixing part 33 and the fixing part 34 are provided on the bellows part 31 or the side surface of the connecting part 32. may be provided.

Furthermore, the upper sheet 40 and the lower sheet 45 may be composed of a plurality of sheets. For example, a plurality of upper sheets 40 and a plurality of lower sheets 45 may be used to cover the air beam 30 shown in FIG. 1. In this case, the plurality of upper sheets 40 are fixed to each other with Velcro (registered trademark) or the like so that no gaps are left between them. Further, the plurality of lower sheets 45 are fixed to each other with Velcro (registered trademark) or the like so that no gaps are left between them. Furthermore, by providing a plurality of fixing parts at the -Z side end of the lower sheet 45 and connecting the plurality of lower sheets 45 in the Z-axis direction, the lower sheet 45 can be covered depending on the size of the GIS to be suspended. The length of the space in the Z-axis direction may be adjusted. In this case, the plurality of lower sheets 45 are fixed to each other with Velcro (registered trademark) or the like so that no gaps are left between them.

Further, in the above description, a case has been described in which the lower sheet 45 has the cut portion 47, but there is no need to be limited to this. Any structure may be used as long as it is possible to perform connection work between the GIS to be transported and the existing GIS within the space covered by the lower sheet 45. For example, by providing a curtain rail at the lower end of the air beam 30 and suspending the lower sheet 45 from the curtain rail so that a part of the lower sheet 45 can be opened and closed, the connecting surface of the existing GIS can be covered with the lower sheet 45. It may also be possible to arrange it within the space. By closing the joints with Velcro (registered trademark) or the like when the lower sheet 45 suspended from the curtain rail is closed, it is possible to prevent surrounding air from entering the space covered by the lower sheet 45.

Further, in the explanation using FIG. 2 above, a case has been described in which the attachment parts 18 of the hanging fitting 10 are arranged radially on the lower surface of the flange part 17, but the present invention is not limited to this. The hanging fixture 10 only needs to have an attachment part for attaching a wire for hanging the air beam 30. For example, the attachment part 18 of the hanging fitting 10 may be provided around the flange part 17.

Moreover, in the above description, the case where the upper sheet 40 is fixed to the recessed part 175 of the flange part 17 of the hanging fitting 10 has been described. By fixing the upper sheet 40 in the recessed portion 175, rainwater can be prevented from entering the space covered by the upper sheet 40. Further, by disposing the blower 50 outside the space covered by the upper sheet 40, the air in the space covered by the upper sheet 40 can be replaced with external air. However, the upper sheet 40 may be fixed to the hanging fixture 10 so that the blower 50 is disposed within the space covered by the upper sheet 40. In this case, an air hose is provided that extends from the air inlet of the blower 50 to the outside of the space covered by the upper sheet 40.

In the above description, the case where the air beam 30 is attached to the hanging fixture 10 using the wire 70 has been described. However, instead of the wire 70, the air beam 30 may be attached to the hanging fitting 10 using a light and difficult-to-stretch rope made of polypropylene, nylon, or the like.

Furthermore, in the above description, the case where the blower 50 and the storage battery 55 are attached to the hanging fitting 10 has been described. However, the installation locations of the blower 50 and the storage battery 55 do not need to be limited to this. For example, the blower 50 and the storage battery 55 may be attached to a crane truck, and the air hose 51 may be extended from the blower 50 mounted on the crane truck to the air beam 30. By attaching the blower 50 and the storage battery 55 to the crane vehicle, the weight of the hanging cover device 1 can be reduced. Furthermore, since the hanging cover device 1 can be downsized, it is possible to reduce the possibility of the hanging cover device 1 being blown by the wind. Further, the storage battery 55 dedicated to the blower 50 can be omitted and the blower 50 can be driven by the battery of the crane truck.

Further, FIG. 10 shows an example of a method for installing a precision electronic device using the hanging cover device 1, and the method for installing a precision electronic device using the hanging cover device 1 is not limited to this. For example, the work in step S11 in FIG. 10 may be performed after the work in step S15. Further, the work in step S13 in FIG. 10 may be performed after the work in step S14. Furthermore, if there is no wind and the hanging cover device 1 is not fanned by the wind, the work of deflating the air beam 30 and wrapping the upper sheet 40 and the lower sheet 45 around the GIS in step S19 may be omitted.

Furthermore, in the above explanation, a case has been described in which the humidity in the space covered by the upper sheet 40 and the lower sheet 45 is adjusted using a dehumidifier or a dry air generator. It may have. When the blower 50 is provided with a dehumidifying/drying function, there is a problem that the weight of the hanging cover device 1 increases, but this problem is not a big problem when the blower 50 is mounted on a crane vehicle or when the blower 50 is placed on the ground. No. By providing the blower 50 with a dehumidifying/drying function, the humidity of the air blown from the blower 50 to the air beam 30 can be lowered. Since dry air flows from the air beam 30 into the space covered by the upper sheet 40 and lower sheet 45, the humidity in the space covered by the upper sheet 40 and lower sheet 45 can be kept low.

(Modification 1)
In the first embodiment, a case has been described in which the curtain portion 313 of the air beam 30 is made of a material that is highly airtight but has air permeability. Here, a case will be described in which the curtain portion 313 of the air beam 30 is made of a material with high airtightness and no air permeability.

The higher the air permeability of the curtain portion 313 of the air beam 30, the greater the amount of air blown by the blower 50 required to extend the air beam 30. Therefore, in order to reduce the amount of air blown by the blower 50, it is necessary to lower the air permeability of the curtain portion 313 of the air beam 30 (increase its airtightness). On the other hand, the lower the air permeability (higher airtightness) of the curtain portion 313 of the air beam 30, the longer it takes to remove air when deflating the air beam 30.

As a measure to reduce the amount of air blown by the blower 50, the curtain portion 313 of the air beam 30 is made of a non-breathable material such as vinyl, plastic, rubber, thin aluminum, or the like. In this case, when the air beam 30 is deflated, the air blowing direction of the blower 50 is reversed, and the air inside the air beam 30 is sucked out using the blower 50. At the connection between the blower 50 and the air hose 51, an air damper made of a solenoid valve or the like is provided. When blowing air into the air beam 30 from the blower 50 or sucking out the air inside the air beam 30, the solenoid valve is opened, and when the air is not taken in or taken out, the solenoid valve is closed.

With such a configuration, the amount of air blown by the blower 50 can be reduced. Moreover, since the air is sucked out by the blower 50 when the air beam 30 is deflated, the time for sucking out the air inside the air beam 30 can be shortened. Since the amount of air blown by the blower 50 can be reduced, the size of the blower 50 can be reduced, and the cost of the blower 50 can be reduced. Furthermore, since the blower 50 can be stopped during work, energy efficiency can be improved.

Note that even when the curtain part 313 of the bellows part 31 of the air beam 30 is formed of a material with high airtightness and no air permeability, the airtightness of the curtain part 313 of the air beam 30 may be reduced due to damage during work. If this is considered, air may be continued to be blown into the air beam 30 while the air beam 30 is being extended by reducing the amount of air blown.

In the description of the first modification, a case has been described in which the curtain portion 313 of the bellows portion 31 of the air beam 30 is formed of a material with high airtightness and no air permeability. However, even if the curtain portion 313 is made of a material with high airtightness but breathability (a material with extremely low breathability), when the air beam 30 deflates, in order to shorten the deflation time of the air beam 30, The air within the air beam 30 may be sucked out using the blower 50. However, if the curtain portion 313 is made of a material that is even slightly breathable, it is necessary to continue blowing air into the air beam 30 while the air beam 30 is being extended.

(Modification 2)
In the first embodiment, a case has been described in which the lower sheet 45 is made of a lightweight and highly waterproof material such as polyethylene or nylon. In this case, at high temperatures in midsummer, the temperature in the space covered by the lower sheet 45 becomes high, making the space covered by the lower sheet 45 unfavorable as a working environment. For example, if there is no wind and the upper sheet 40 alone can sufficiently prevent rain, or if the dust count in the surrounding air is below the standard value, the lower part made of a mesh-like material with high ventilation may be used. A sheet 45 may also be used. Since the lower sheet 45 is detachable from the air beam 30, it can be replaced as appropriate depending on the weather and surrounding environment. Furthermore, depending on the weather and surrounding environment, there is also the option of not attaching the lower sheet 45.

Although the embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, substitutions, and changes can be made without departing from the gist of the invention. These embodiments and their modifications are included within the scope and gist of the invention, as well as within the scope of the invention described in the claims and its equivalents.

DESCRIPTION OF SYMBOLS 1... Hanging cover device 10... Hanging fitting 11... Support part 12... Hanging part 13... Umbrella part 14... Hanging part 17... Flange part 171... Upper circular member 172... Lower circular member 173... Column member 175... Hollow part 18... Attachment part 19... Attachment hole 30... Air beam 31... Bellows part 311... Bone part 313... Curtain part 32... Connection part 33, 34... Fixing part 331, 341... Fixing hole 40... Upper sheet 45... Lower sheet 46... Fixing part 461...Fixing hole 47...Cut part 48...Part (area) sandwiched by the cut part
50...Blower 51...Air hose 55...Storage battery 70...Wire 100...Crane hook

A hanging cover device according to an embodiment for solving the above problem includes a hanging fitting, an air beam, and an upper sheet. The hanging fitting has a support portion, a hanging portion located at the upper end of the support portion and latched to the crane, and a hanging portion for hanging a load located at the lower end of the support portion. The air beam is suspended from a hanging fixture and can expand and contract according to air pressure. The upper end of the upper sheet is fixed to the lower end of the column, the inside is supported by the air beam, the lower end hangs below the air beam, and when it hangs below the air beam, it becomes cylindrical with an open bottom. . The air beam has a plurality of expandable bellows portions and a plurality of connection portions that connect the bellows portions. The connecting portion is made of a material that can change the angle formed by the two bellows portions connected by the connecting portion. The length of the bellows portion can be changed by expanding and contracting.

Claims (11)

A hanging fitting having a support portion, a hanging portion located at the upper end of the support portion and latched to a crane, and a hanging portion for hanging a load located at the lower end of the support support portion;
an air beam that is suspended from the hanging fitting and is expandable and contractable according to air pressure;
The upper end is fixed to the lower end of the support column, the inner side is supported by the air beam, the lower end hangs below the air beam, and when hanging below the air beam, it becomes cylindrical with an open bottom surface. an upper sheet;
A hanging cover device comprising: The air beam is
A plurality of bellows parts formed to be expandable and contractible,
a plurality of connection parts connecting the bellows parts;
has
The connecting part is made of a material that can change the angle formed by the two bellows parts connected by the connecting part,
The length of the bellows portion can be changed by expanding and contracting;
The hanging cover device according to claim 1. a blower for blowing air into the air beam;
The air beam is expandable and contractable according to the air pressure of the air blown from the blower.
The hanging cover device according to claim 1 or 2. The blower has an air purifying function by having a filter between an air inlet and an air outlet.
The hanging cover device according to claim 3. a lower sheet that is detachably attached to the air beam and forms a cylindrical space with an open bottom below the air beam;
The hanging cover device according to claim 1. The lower sheet has a plurality of cut parts, so that the area sandwiched between the plurality of cut parts can be opened and closed.
The hanging cover device according to claim 5. The lower sheet is formed of a mesh material.
The hanging cover device according to claim 5 or 6. The hanging fitting has an umbrella part at the upper end of the pillar part that covers the pillar part.
The hanging cover device according to claim 1. A support portion, a hanging portion located at the upper end of the support portion and latched to a crane, an umbrella portion covering the support portion, and a hanging portion for hanging a load located at the lower end of the support support portion. A hanging fitting having;
an air beam that is suspended from the hanging fitting and is expandable and contractable according to air pressure;
The upper end is fixed to the lower side of the umbrella part, the inner side is supported by the air beam, the lower end hangs below the air beam, and when hanging below the air beam, the umbrella part has a cylindrical shape with an open bottom. an upper sheet,
lifting the precision electronic equipment using a hanging cover device comprising:
Installation method for precision electronic equipment. When attaching a precision electronic device to a crane using a hanging cover device, or when connecting the precision electronic device, the air beam of the hanging cover device is extended, and the hanging cover device is used to work on the precision electronic device. A process of covering the place;
When the precision electronic device is lifted by the crane or when the precision electronic device is transported by the crane, the air beam of the hanging cover device is collapsed to wrap the precision electronic device in the hanging cover device. ,
including,
The method for installing precision electronic equipment according to claim 9. The air beam has a plurality of expandable bellows parts and a plurality of connection parts connecting the bellows parts,
changing the shape of the air beam by changing the angle formed by the two bellows parts connected by the connecting part;
changing the size of the air beam by changing the length of the bellows portion by expanding and contracting the bellows portion;
including at least one step of
The method for installing precision electronic equipment according to claim 9 or 10.

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