JP4199093B2 - Cubicle base - Google Patents

Description

  The present invention relates to a cubicle base for placing and fixing a cubicle on the ground when installing a cubicle that houses a power receiving facility.

In the case of installing a box for storing power receiving equipment, a so-called cubicle, a base for placing and fixing the cubicle on the ground to be installed is arranged. Conventionally, this base has been manufactured by forming a mold that matches the shape of the bottom of the cubicle at the cubicle installation location, pouring the concrete into the form, and fixing the cubicle on the base by bolting or the like.
On the other hand, the power receiving equipment is a main equipment for supplying electric power to all electric equipments in factories, construction sites, and the like, so that speedy installation is required. However, as described above, the base for installing the cubicle is manufactured at the cubicle installation site, and the concrete is poured into it, so that it takes a long period of time to work and shortens the construction period of cubicle installation. Therefore, it has been desired to shorten the construction period for manufacturing the base.
For this reason, for example, as disclosed in Patent Document 1, when using a ready-made concrete foundation as a cubicle base, a base is prepared in advance at a factory or the like, and the cubicle is installed. A construction method that shortens the cubicle construction period by transporting and installing using a crane etc. was proposed.

JP-A-8-13513

In the case of the construction method shown in Patent Document 1, it is possible to significantly shorten the construction period by preparing the base in advance. However, since the base used here is basically a frame and has a large opening, it is necessary to increase the height in order to maintain the strength. Therefore, the installation surface has to be deeply rooted, and after installation of the base, it is necessary to put earth and sand inside and harden it or to form a mortar layer. However, since a high-voltage cable is generally drawn into the cubicle by a lower insertion line, an opening is required to be larger or smaller in the base.
Also, when considering the disposal of cubicles that have been used, it is desirable that they can be recycled as much as possible, but the base with the above shape is difficult to reuse.

Therefore, in the method of installing the base prepared in advance, in order to eliminate the troublesome work as described above, the opening is made the minimum size, and only the insertion hole through which the cable can be inserted is provided to form a block shape. If the thickness is reduced by forming, the installation work can be simplified and the construction period can be shortened. Furthermore, it can be reused. In this case, in the case of a relatively small cubicle, the base can be reduced to a weight that can be transported even if the base is made in a block shape. When it becomes a stand, since weight increases, there existed a problem which became difficult to convey.
In addition, the cable startup position formed on the ground for drawing the high-voltage cable into the cubicle is difficult to install at a predetermined position with high accuracy, so there is an opening for inserting the cable of the base manufactured in advance. If it is smaller, if the launch position of the cable insertion hole of the base and the high voltage cable on the ground do not match, it is necessary to change the rise position of the ground cable. However, since the high-voltage cable is constructed by underground burial or slab startup, it is difficult to change the startup position.
For this reason, it has been difficult to employ a method in which a base that can reduce the opening and simplify the work before and after the base is installed in advance.

  Therefore, in view of such a problem, the present invention can reduce the weight when transporting without forming a large cable insertion hole, and further give the ground cable a starting position. The purpose is to provide a cubicle base.

In order to solve the above-mentioned problem, the invention according to claim 1 is a concrete base having a cable introduction part that enables a lower-line insertion of a high-voltage cable and capable of installing a cubicle on the upper surface, And at least two block bodies arranged in close contact with each other, and an upper frame body and a lower frame body that surround the upper and lower peripheries of the block bodies arranged in close contact with each other, and when the block bodies are arranged in close contact with each other In order to form a series of fitting grooves in which the frame can be fitted to the outer periphery of the upper surface and the outer periphery of the lower surface, a notch-shaped stepped portion is formed in the peripheral portion of each block body, and suspended from each block body. A screw hole to which a bolt can be attached and an anchor bolt for fixing the cubicle is provided, the lower frame is disposed at a base installation position, and the block bodies are sequentially disposed in the lower frame. , The upper frame member, characterized in that it is installed to fit in the fitting groove is formed on an upper surface outer periphery of the adhesion arranged the block body.
With this configuration, since the cubicle base is composed of at least two block bodies, even if the base is formed into a block shape with a small opening, it can be disassembled and reduced in weight when transported. . Moreover, the base can be made robust by forming it in a block shape, and the base installation work can be simplified. Furthermore, since each block body is connected so that the upper and lower peripheries of the base are bound by two frame bodies, the block bodies can be firmly adhered to each other, and compared with a case where a connection hole for connection is provided in the block body. It is easy to produce a block body. In addition, a suspension bolt can be easily attached to each block body, and transportation by a crane is easy. If the suspension bolt is removed, the upper surface can be flattened and the block bodies can be stacked. Further, it can be used as an anchor bolt mounting hole for fixing the cubicle on which the screw hole is placed, and there is no need to separately provide a hole for the anchor bolt.

According to a second aspect of the present invention, in the first aspect of the present invention, the cable introduction portion is a cable insertion hole formed by being vertically penetrated and expanded downward.
With this configuration, the cable insertion hole is wide below, so even if the startup position of the high-voltage cable is misaligned, the insertion operation is easy, and when bending the high-voltage cable, the bending stress can be reduced. Can be inserted.

According to a third aspect of the present invention, in the second aspect of the present invention, the cable insertion hole is formed at the boundary of the block bodies to be connected.
With this configuration, the cable insertion hole is formed in a cutout shape at the end of the block body, so that the through hole is not provided in the block body, and can be made more robust.

According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects of the present invention, the leg has a leg so that a gap can be formed at least around the cable introduction part on the bottom surface so that a high voltage cable can be arranged. The part is formed of a block body and is detachably attached to the lower part of the main body of the base.
According to this configuration, since the high voltage cable can be routed at the lower part of the base, the cable of the base can be easily obtained even if the cable starting position provided on the ground is not below the base or is different from the design position. A lower insertion line can be implemented by being arranged in the introduction section, and a base prepared in advance can be used without difficulty.

In this way, even if the entire base is formed in a block shape without forming a large opening portion, the cable introduction portion can be divided to reduce the weight during transportation, and with simple work Can be installed. In addition, the space below the cable introduction section is wide and there is a gap where high voltage cables can be placed on the bottom, so that the ground cable can be raised at a flexible position, and the cubicle base is prepared in advance. Can be used effectively.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view showing a first embodiment of a cubicle base according to the present invention, and as shown in FIG. A cable insertion hole 2 that allows a lower insertion line is vertically provided. The base 1 is formed by connecting two block bodies 10 of a concrete first block body 10a and a second block body 10b, and 3 indicates a screw hole.

  The first and second block bodies 10a and 10b are formed so as to divide the base 1 into left and right parts with the cable insertion hole 2 as a boundary, and the cable insertion holes 2 are cut into the side portions of the respective block bodies 10a and 10b. It is formed in a notch shape. Moreover, in order to connect both, the connection hole 4 is formed so that it may communicate with the left-right direction, and the metal rod 5 as a connection means is penetrated inside. The connection hole 4 is provided in parallel at two front and rear positions.

As shown in the front view of the main part of the base in FIG. 2, the rod 5 is formed slightly longer than the width of the base 1, the thread groove 5a is cut at both ends, and the nut 6 as the connecting means is not shown. The two block bodies 10a and 10b are connected by screwing through a washer or the like. In addition, a mortar-shaped recess 7 is formed at the end of the connecting hole 4 on the side surface of the base 1 so that the nut 6 attached to the rod body 5 is immersed and does not protrude from the side surface of the base. In FIG. 1, the rod body 5 protrudes, but it may be configured to be slightly shorter than the width of the base 1 so that the connecting means does not protrude completely, so that the appearance is improved.
Furthermore, as shown in the block perspective view of FIG. 3, engaging portions for facilitating the alignment of both are formed on the contact surfaces of both block bodies 10a and 10b. Engagement protrusions 8a are formed at two positions before and after the cable push hole 2 at the position of the connection hole 4 of the first block body 10a, and engagement recesses are formed at the two corresponding front and rear positions of the second block body 10b. 8b is formed to constitute an engaging portion, and can be easily aligned when the block body 10 is connected. Further, the engaging portion does not come off after the connection.

The screw holes 3 are formed at the four corners of each block body 10, and as shown in the enlarged view of the end portion of the base 1 in FIG. 4, a metal embedded female screw cylinder (commonly referred to as "insert") 11 The suspension bolt 12 can be attached. Thus, since the screw hole 3 is formed firmly, it can be used favorably as an anchor bolt mounting hole for fixing a mounted cubicle, and there is no need to provide a separate anchor bolt mounting hole.
Further, the cable insertion hole 2 has an upper end opening 2a formed in a rectangular shape and is formed in a size necessary and sufficient for inserting a high-voltage cable. The lower opening 2b is substantially square and large, and the inner side surface is inclined.

Thus, since the cubicle base is formed by combining block bodies, even if the base is made in a block shape with a small opening, it can be disassembled and reduced in weight when transported. Also, since the area under the cable insertion hole is wide, the insertion operation is easy even if the start position of the high-voltage cable is misaligned, and the stress at the bending part can be reduced when bending and inserting the high-voltage cable. it can.
Furthermore, since the cable insertion hole is formed in a cutout shape at the end of the block body, it can be made robustly without providing a through hole or the like in the block body.

  Next, the installation procedure of the base shown in FIG. 1 will be described. FIG. 5 is a longitudinal sectional view showing a state in which the base 1 is installed, and the description will be made based on this figure. First, the base installation surface 14 which is a cubicle installation surface is dug down by a predetermined amount (for example, 10 cm) to roll and level the ground. And in order to make the base 1 closely_contact | adhere to the base installation surface 14, the instant cement 16 is laid uniformly. Thereafter, the block body 10 is lifted by a crane or the like, and sequentially lowered to a predetermined position while confirming the cable rising position provided on the installation surface 14. At this time, the raised high voltage cable 15 is inserted into the cable insertion hole 2. Furthermore, when lowering, it positions so that the block bodies 10 may mutually adhere. When lowered, the rod 5 is inserted into the coupling hole 4 and coupled. After that, the surrounding soil dug down is returned, and the surroundings may be hardened with asphalt, and the base 1 is fixed in close contact with the ground by the action of the instant cement 16.

In this manner, by forming the base in a block shape with a small opening, the base can be made thinner than a base having a large-diameter opening formed in a frame shape, for example, and can be installed without digging the ground greatly. Accordingly, the installation work can be simplified. Furthermore, since the cable insertion hole is small, it is not necessary to fill the hole with mortar after installation, and the installation cost can be reduced. As a result, the base that has been used can be easily removed and reused.
In addition, the suspension bolts can be easily attached to each block body, so it is easy to transport by crane, and if the suspension bolts are removed, the top surface can be flattened and stacked, leaving little space for storage and transportation. That's it. Moreover, since it connects with a rod and a nut, block bodies can be firmly connected by a simple member, without using an exclusive connection means.
In FIG. 1, only the cable insertion hole 2 through which the high-voltage cable is inserted is provided. However, when the low-voltage cable is also routed through the base, the second connecting portion of the block body 10 is adjacent to the cable insertion hole 2. May be provided, or the cable insertion hole 2 may be shared.

  FIG. 6 is a schematic perspective view showing a second embodiment of the cubicle base of the present invention. The main difference from the configuration of FIG. 1 is that the base 1 is formed of four block bodies 10... 10, and the same reference numerals are given to the same components as in FIG. It is. The cable insertion hole 2 is provided in the center of the base, and the opening is formed in a circular shape and is expanded downward. Further, each block body 10 is formed by dividing the cable insertion hole 2 provided in the center of the base as a boundary, and four screw holes 3 are provided in each block body 10. Furthermore, the connection hole 4 is formed also in the front-rear direction in addition to the left-right direction of each block body 10. The connecting holes 4 in the left-right direction are formed at two heights in the vicinity of the center of the base 1, and the connecting holes 4 in the front-rear direction are formed at two positions vertically so as to sandwich the connecting hole 4 in the left-right direction. A rod is inserted through each connecting hole 4 and connected.

Thus, if the number of divisions of the base is increased, the weight per block body can be reduced. Moreover, even a large cubicle can be transported by increasing the number of divisions, and the base can be prepared in advance.
Further, similarly to the above embodiment, since the lower portion of the cable insertion hole is wide, the insertion operation of the high-voltage cable is facilitated, and the cable insertion hole is formed in a cutout shape at the end of the block body. Can be made robustly. Further, the base installation work can be simplified and can be reused.
In the embodiment of FIG. 6 as well, as in the first embodiment, it is preferable to provide an engaging convex portion and an engaging concave portion on each connecting surface of the block body, and a concave portion is formed at the end of the connecting hole. Good. In the case of a large base, the number of divisions can be further increased.

FIG. 7 is a perspective view of a base showing a third embodiment of the present invention, in which a separable leg 20 is provided on the base, and a gap is provided at the bottom. In addition, the same code | symbol is provided to the component similar to the said FIG. 1, and description is abbreviate | omitted.
The leg portions 20 formed as the block bodies 10 are formed in a quadrangular prism shape, and are arranged in parallel in the front-rear direction at the left and right lower portions of the cubic base body 1a. And the connection hole 4 connected to the base main body 1a is provided in two places before and behind, and the rod 5 is inserted and connected. However, the leg portion 20 is formed to have a height that allows the high-voltage cable to be routed to the lower portion of the base. Is formed.

In this way, by providing the legs, it is possible to route the high-voltage cable that enters the lower part of the base at the lower part of the base, and it is easy even if the ground cable startup position is significantly deviated from the position of the cable insertion hole. A high-voltage cable can be inserted into the cable insertion hole. In addition, by forming the leg as a block body and configuring the base with three block bodies, the base can be configured with only the main body by removing the leg when there is no need for the lower gap, and the cable insertion An off-the-shelf base with small holes can be used effectively and is convenient.
In addition, although the base main body is made into one block body in FIG. 7, as shown in FIG. 1 or FIG. 6, it can also divide | segment and form with a some block body.

The perspective view shown in FIG. 8 has shown the other form of the cubicle base of this invention. In FIG. 8, the base 1 is formed by connecting two block bodies 10, 10, and the cable introduction portion is not a hole, but is formed as a cable introduction path 21 provided in a cutout shape on the side of the base 1. . The upper part of the cable introduction path 21 is formed in a size necessary and sufficient for introducing the high-voltage cable into the cubicle, and the lower part is enlarged and greatly cut away. In addition, the same code | symbol is provided to the component similar to the said FIG. 1, and description is abbreviate | omitted.
In this way, the cable introduction part does not have to be a hole provided in the base, and it can be easily inserted into the high-voltage cable by providing it on the side, and the high-voltage cable should be arranged after the base is installed. The construction procedure can be greatly relaxed.
And like the said 1st Embodiment, since the downward direction of a cable introduction path is wide, insertion operation of a high voltage cable becomes easy, and since a cable introduction path is formed in the end part in a block body, each A block body can be made robustly. Further, the base installation work can be simplified and can be reused.
In addition, although the cable introduction path 21 is formed so that it may straddle both over the connection part of a block body, you may form in one block body collectively.

The perspective view shown in FIG. 9 has shown the further another form of the cubicle base of this invention. FIG. 9 shows a configuration in which a rod member or the like is not used as a connecting means for connecting the block bodies 10 to each other, and a frame member surrounds the periphery. In addition, the same code | symbol is provided to the component similar to the said FIG. 1, and description is abbreviate | omitted.
The base 1 has a cable insertion hole 2 in the center, and is formed of four block bodies 10,. Each of the block bodies 10 is configured to be formed with fitting grooves 23 for fitting the upper frame body 22a around the upper part and the lower frame body 22b around the lower part in close contact with each other. The frame body 22 (22a, 22b) is formed in a quadrilateral shape in accordance with the shape of the base 1, and each block body is connected by being fitted in the fitting groove 23. The frame body 22 is formed by bending a stainless steel plate, and the connecting operation is performed by first placing the lower frame body 22b at the base installation position, and then sequentially placing the block bodies 10 in the lower frame body. The block body 10 may be fitted around the upper frame body 22a.
Thus, since each block body is connected so that the base periphery may be tied up with a frame, it can adhere firmly and it is not necessary to provide a connection hole in each block body, and it is easy to produce a block body.

  In the embodiment shown in FIG. 9, the block body 10 is connected by the frame body 22, but may be connected by being bound by a wire or the like. In each of the above embodiments, there is only one cable introduction part, but the cable insertion hole 2 or the cable introduction path 21 is provided in each block body, and a plurality of cable introduction paths are directed per one base. Also good.

It is a perspective view which shows 1st Embodiment of the cubicle base which concerns on this invention. It is a principal part front view of FIG. It is a perspective explanatory view of a block body. It is the elements on larger scale which expanded the base end part of FIG. It is longitudinal cross-sectional explanatory drawing which shows a mode that the base of FIG. 1 was installed. It is a schematic perspective view of the cubicle base which shows the 2nd Embodiment of this invention. It is a perspective view of the cubicle base which shows the 3rd Embodiment of this invention. It is a perspective view of the cubicle base which shows the other form of this invention. It is a perspective view of the cubicle base which shows the other form of this invention.

Explanation of symbols

1 .. Base (cubicle base) 2 .. Cable insertion hole as cable introduction part 3 .. Screw hole 4 .. Connection hole 5.. Bar body as connection means 6. Nut as 10 .. Block body, 12 .. Suspension bolt, 15 .. High voltage cable, 20 .. Leg part, 21 .. Cable introduction path as cable introduction part, 22.

Claims (4)

It is a concrete base that has a cable introduction part that enables the insertion of a high-voltage cable, and can install a cubicle on the upper surface.
The block body includes at least two block bodies arranged in close contact with each other in the horizontal direction, and an upper frame body and a lower frame body that surround the upper and lower peripheries of the block bodies arranged in close contact with each other and connect the block bodies to each other. In order to form a series of fitting grooves in which the frame body can be fitted respectively on the outer periphery of the upper surface and the outer periphery of the lower surface, a notch-shaped step portion is formed in the peripheral portion of each block body, and , Provided with a screw hole to which a hanging bolt can be attached and an anchor bolt for fixing the cubicle can be attached;
The lower frame is disposed at a base installation position, the blocks are sequentially disposed in the lower frame, and then the upper frame is formed on the outer periphery of the upper surface of the block body in close contact with the lower frame. A cubicle base that is installed in a groove .   The cubicle base according to claim 1, wherein the cable introduction portion is a cable insertion hole that is formed to penetrate vertically and is expanded downward.   The cubicle base according to claim 2, wherein the cable insertion hole is formed at a boundary between connected block bodies.   A leg portion is formed so as to form a gap in which a high-voltage cable can be arranged at least around the cable introduction portion on the bottom surface, and the leg portion is formed of a block body and is detachably attached to the lower portion of the main body of the base. The cubicle base according to any one of claims 1 to 3.

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