KR101179252B1 - Pillar cover apparatus for easy adjusting up and down - Google Patents

Abstract

The present invention relates to a holding cover device for fixing and closing a pillar, such as a street light, to the ground, and more specifically, a variable box capable of vertically adjusting movement in a fixed box installed on the top of the foundation concrete embedded in the ground to fix the pillar. By combining, and configured to cover the box cover to prevent the inflow of foreign matter on the upper portion of the variable box, by freely adjusting the height of the variable box according to the height of the ground, by easily adjusting the height of the box cover exposed to the ground, Independent of the size or shape of the foundation concrete, as well as the condition of the interior of the ground, that is, it is possible to realize a horizontal state with the ground without being limited by the type and size of the civil engineering finishing material, and also anchor bolts provided on the pillar B. It is easy to adjust the up and down holding cover so that rain and snow are not scattered directly on the anchor bolt and base plate by storing all the triangular supports in an open space inside the underground fixed box to prevent corrosion. It is about the device.

Description

Holding cover device that can be easily adjusted up and down{PILLAR COVER APPARATUS FOR EASY ADJUSTING UP AND DOWN}

The present invention relates to a holding cover device for fixing and closing a pillar, such as a street light, to the ground, and more specifically, a variable box capable of vertically adjusting movement in a fixed box installed on the top of the foundation concrete embedded in the ground to fix the pillar. By combining, and configured to cover the box cover to prevent the inflow of foreign matter on the upper portion of the variable box by adjusting the height of the variable box freely according to the height of the ground, by easily adjusting the height of the box cover exposed to the ground, Independent of the size or shape of the foundation concrete, as well as the condition inside the ground, i.e., it is possible to realize a horizontal state with the ground without being limited by the type and size of the civil engineering finishing material, and also anchor bolts provided on the pillar B. The holding cover is easy to adjust up and down so that all the triangle supports are stored in the open space inside the underground fixed box so that rain and snow are not scattered directly on the anchor bolt and base plate to prevent corrosion and improve durability. It is about the device.

In general, facilities for benefiting a large number of people, such as street lamps, dig into the ground to a certain depth in order to install it on the ground where a large number of people move, such as roads, and pour foundation concrete into the pillars. It is common to fix it.
In addition, the pillars provided in a facility such as a street lamp, which was conventionally installed on the ground, increase the contact area to the foundation concrete at the bottom and provide a base plate for providing a bolted area, and the pillars in the base concrete buried underground. An anchor bolt for coupling the base plate to the base concrete so as to be firmly coupled, and a plurality of triangular supports for supporting the lower portion of the pillar to prevent the pillar from being inclined due to external impact or wind, etc. are provided. It was common for bolts and triangular supports to be exposed outside the ground.
In this way, various types of pillars of the facility that are installed by digging the ground include street lamp poles, traffic sign poles at intersections and pedestrian crossings, CCTV camera poles, poles and telecommunications carriers, architectural structure pillars, and bridge pillars of bridges. there is. After fixing these various installation pillars on the ground, there was a problem that the city aesthetics were impaired by anchor bolts and triangular supports exposed to the top of the ground, and problems such as injuries caused by pedestrians falling over the sides of the triangular supports This has been continually raised.
In addition, since the anchor bolts and the triangular support fixing the pillars to the foundation concrete are exposed to rain and snow as they are exposed to the outside, corrosion rapidly progresses over time, and the function to firmly support the pillars There was a problem that can not be sufficiently exhibited.
Accordingly, in recent years, while carrying out urban design street construction projects, etc., not only to improve the aesthetics of the city, but also to improve pedestrian safety, the base plate forming the lower part of the pillar and the anchor bolt firmly coupled to the foundation concrete and Triangular supports supporting the pillars are installed deeply so as not to be exposed to the top of the ground, which is the finishing level of civil works, and attempts have been made to install such that only the outer circumferential surface of the pillars project to the top of the finishing materials of civil works on the ground.
1 is a cross-sectional view showing an example in which a conventional street light pole is installed, (a) is a cross-sectional view showing that the foundation concrete is installed horizontally with the ground, (b) is a cross-sectional view showing that the foundation concrete is installed to protrude above the ground, ( c) is a sectional view showing that the foundation concrete is installed lower than the ground.
Referring to Figure 1 (a) to 1 (c), in order to conventionally install a pillar 100 such as a lamppost, deeply dig the ground GL to form a foundation concrete 130 of a certain size and After the anchor bolt 120 is installed on the foundation concrete, the plate-shaped base plate 110 formed on the lower portion of the support is placed on the foundation concrete and inserted into the anchor bolt 120 and the anchor bolt on the base plate top It is configured by firmly coupling the fixing nut 150 to. At this time, the foundation concrete 130 is provided with an anchor bolt 120 for fixing the base plate of the prop inside, a conduit 20 for supplying power to a facility such as a street light, a ground wire 21, and a grounding enclosure (22) and the like are installed and configured.
The basic concrete 130 is manufactured by a field installation method in which a ready-made product manufactured by a factory is purchased and placed in a pit that has already been deeply dug, or a pit is dug in an actual construction site and concrete is directly poured into and installed in the space. do. At this time, the on-site laying method, after digging the pit at the installation location of the pillar at the actual construction site, pouring cast concrete, rebar reinforcement to a shape suitable for the shape of the prop or base plate, and welding the anchor bolt to the rebar, After forming and installing the formwork for forming the basic concrete along the outer periphery of the pit, sand, gravel, and cement are mixed at a certain ratio to be poured or cast with ready-mixed concrete to produce the basic concrete.
In the case of purchasing and installing the basic concrete as a ready-made product in the related art, the pit for putting the basic concrete into the area corresponding to the installation position of the pillar, which is a pillar, is deeply and widely dug, and the foundation concrete is embedded in the pit and then buried. It is fixed. As such, it is a simple construction method to purchase the foundation concrete for a prop as a ready-made product and install it on site, and it is frequently used because it has many advantages of reducing the installation labor cost of the pillar and shortening the air.
However, the basic concrete in the form of a ready-made product has a problem in that it is not easy to change its appearance because it has a fixed shape and size depending on the type of prop, and when selling a pit for putting the basic concrete, a large stone or Arms also occur frequently, in which case the height of the foundation concrete is higher than the ground level, or the base plate, anchor bolts, and triangular supports of the pillars are higher than the ground when the position of the prop is moved or the scheduled civil finishing level is reached. It is formed to protrude, thereby harming the aesthetics and causing problems in pedestrian safety.
Accordingly, in order to fix the pillar on the top of the foundation concrete, as shown in FIG. 1(a), the base plate 110 provided on the bottom of the pillar coincides with the ground GL so that the foundation concrete is not exposed to the ground. Although it is preferable, the foundation concrete 130 may protrude higher than the ground GL when the depth of the pit is shallow due to the presence of a large stone or arm at the bottom depending on the ground condition, as shown in FIG. 1(b). Of course, as shown in FIG. 1(c), when the soil of the ground is soft or the pit is deeply dug, the foundation concrete 130 may be recessed lower than the ground GL.
In other words, when designing, it is planned to maintain the base plate in a uniform state with the ground, but considering the construction reality in which it is difficult to uniformly construct the depths of all pits due to the diversity of the actual construction environment and the limitation of prediction, it is a practical finish. As shown in FIGS. 1(b) to 1(c), the shape had to be irregular.
Moreover, if it is difficult to dig deep into the pit to the extent that the foundation concrete is buried enough to contain the foundation concrete of the prop, or if the arm must be removed to bury the foundation concrete deeply, the cost and construction work for such removal work There was also a problem that the period was inevitable.
In addition, even when the foundation concrete is constructed by the construction method of on-site pouring, it is the same to dig a pit at the location where the foundation concrete is to be installed, so when the conditions under the ground can no longer be dig deeper by a large stone or arm It is possible to install the foundation concrete by reducing the size to suit the conditions of the site, but in this case, the foundation concrete becomes small, so it may not adequately resist the wind pressure caused by the typhoon invasion in the summer and may cause a fall, and the pillar collapses. If a pedestrian or a vehicle is located at a location, it still poses a problem that may cause bodily injury or serious obstacles to the safe operation of the vehicle.
When the basic concrete is installed as a ready-made product or the installation of a concrete pit is completed, the finishing level of the civil engineering work for digging the pit for laying the basic concrete is generally indicated on the construction drawing. Since the foundation concrete for fixing the prop must be buried at least a few days to several months ahead of the completion level of the civil engineering work, at the time of completion of the civil engineering work, the height of the finishing line of the basic concrete constructed first coincides with the ground. Even though it is planned to match the finishing level of civil engineering works horizontally, it is generally not easy at a practical construction site. Of course, if the type, thickness, and size of the civil engineering finishing material is determined before laying the foundation concrete in consultation with other construction processes prior to the laying of the foundation concrete, the error range from the finishing level can be minimized. Considering that the discussion with the discussion is not easy, there is a possibility that the theoretical matter will also cease.
In addition, in the case of installing a conventional prop, the base plate provided at the lower part of the post is inserted into the anchor bolt while being fixed to the upper surface of the foundation concrete, and the fixing nut is fixed by being fixed. In this case, the anchor bolt and the fixing nut are exposed to the top of the ground. As a result, it not only hinders the aesthetics of the city streets, but also has a problem of being exposed to the ground and vulnerable to corrosion by rain and snow.
Accordingly, in recent years, there have been attempts to prevent exposure to the outside by putting a separate cap on the top of the anchor bolt or a base plate cover made of injection or iron on the top of the foundation concrete.
However, after a certain period of time has elapsed after installation, it is easy to see that the cap or base plate cover exposed to the top of the ground is crushed or broken, and leaves, debris, etc., are left in the damaged area. There was still the problem of inhibiting.
In recent years, it is easy to see the case of installing a base cover for covering a portion of the base plate exposed to the top of the ground. However, since the foundation cover is for preventing the exposure of the base plate, the exposed portion of the base plate can be covered, but even to the base concrete area exposed to the top of the ground due to problems such as ground conditions or mismatch of civil engineering finishing level. All could not be covered, and thus there was still a risk of aesthetic inhibition and pedestrian safety due to some basic concrete areas exposed to the top of the ground.
In addition, props such as street lights, traffic lights, road signs, and lighting towers are generally installed by invading the width of the sidewalk from 400 to 1000 mm from the road boundary stone. Basic concrete is exposed to the top of the ground, or anchor bolts or triangular supports are exposed. If possible, the width of the sidewalks available for walking naturally decreases, and as a result, there is a problem inevitably affecting pedestrian safety as well as impeding city aesthetics. In addition, it is a reality that pedestrians, especially the elderly and children, can not guarantee the safe walking of pedestrians in places with a width of 1 to 1.2m.
In recent years, as part of efforts to improve the installation work of pillared facilities such as street lamps, street lamps are also designed as products for the ○○ area design street landscape improvement project. , The base concrete is buried deep in the lower part of the ground, and the base plate of the lower part of the support is fixed to the base concrete that is deeply buried in this way, and then the base is constructed by using a finishing material such as granite or a sidewalk block on the upper part. Not only the plate, but also the anchor bolt and the triangular support are buried. That is, the corrosion phenomenon of the anchor bolt, the triangular support, and the base plate is not taken into account, and examples of constructing such that only the pillar portion is exposed to the outside are increasing.
However, if only the prop is exposed to the ground, the service life of the street light or traffic light that has been collapsed or damaged by a sudden external impact, such as when the life span of the street lamp has passed, the lamp pole needs to be replaced or repaired, and the vehicle has been driving. To replace, it was necessary to remove the soil after removing the earthwork finishing materials such as granite or sidewalk blocks installed on the top of the base plate and loosening the fixing nut to replace it. However, in this case, since the base plate, anchor bolts, and fixing nuts are buried in the soil, the effect of moisture due to rain water and the like continues to be corroded, so that they have to be corroded more severely than those exposed to the atmosphere in the ground.
In addition, when a streetlight or a traffic light is ordered and replaced or repaired by an electric construction company in a batch, the civil construction work must be performed by an electric construction company that lacks expertise in civil construction. As a result, it was forced to become rough, and as a result, it could not be leveled with the ground, and it became jagged, which further hindered the city's aesthetics after repair such as replacement, and the civil engineering area near the landlord provided a cause for later defects There was a problem.
Accordingly, in recent years, as disclosed in the Republic of Korea Patent Publication No. 10-934934, the invention of the basic structure of a street light pole equipped with a horizontal adjustment device that allows the height of the foundation concrete to be variously formed according to the situation under the ground This was started.
However, the basic structure of a street lamp column equipped with such a conventional horizontal adjustment device is to enable the height of the foundation concrete to be adjusted by using a field pouring method, and it is proposed to directly install a reinforcing bar inside the foundation concrete. It is not a problem if the number of installed street lamp props is several, but if the number of installed street lamp props ranges from dozens to hundreds, such as a new road, it takes a lot of installation time to construct all the basic concrete by the field pouring method. There is a problem in that it takes much more time than the basic concrete to use in the form of ready-made products, and there is still a need for improvement measures that can shorten the construction period and reduce labor costs.
In addition, in recent years, as disclosed in Korean Patent Registration No. 10-790553, a base plate provided on a prop and a groove into which a triangular support can be inserted are formed in the upper center, thereby enabling a horizontal pillar to contribute to improving the aesthetics of the city. The invention of a concave foundation has been disclosed. It is proposed that such a conventional transverse pillar concave foundation further includes a transverse pillar foundation cover that covers the ready-made foundation concrete and prevents the triangular support, base plate, and anchor bolts from being exposed.
Conventional transverse column concave foundations can be constructed in the same way as the installation of basic concrete made of ready-made forms, but the depth of the pit does not become uniform depending on the state of the ground, so the concave foundation concrete does not form a level with the ground and protrudes. As a result, a part of the base plate or the triangular support may be exposed. In this case, in order to rebuild to level the ground, the already installed concave foundation concrete must be demolished, the pit must be dug deeper, and then reinstalled. .
At this time, when the electrical piping was previously constructed during installation of the concave foundation concrete, there was a cumbersome problem of removing the electrical piping and reconnecting the electrical piping with a coupling capping. In particular, after the installation of the power cable was completed in the electric piping installed in the concave foundation concrete, there was a problem that the modification work became more difficult.
In addition, if the concave foundation concrete is recessed lower than the ground, after removing the previously installed concave foundation concrete, it is cumbersome to re-install the concave foundation concrete after adding more soil to the pit to level the level with the ground. There was a problem. Due to this hassle, if left uncorrected, there is a problem in that rainwater is accumulated in the depressed portion or deciduous leaves or garbage are accumulated, thereby damaging the urban aesthetic.
As described above, all of the prior arts proposed to supplement or improve the installation of the struts depend only on the size of the foundation concrete itself and the depth of the pit in which the foundation concrete is buried, making it difficult to level the ground uniformly. There was a problem.

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The problem to be solved by the present invention is not dependent on the size of the foundation concrete itself and the depth of the pit in which the foundation concrete is buried, and the height of the box cover exposed to the ground can be independently adjusted to uniformly level the ground. It is to provide a holding cover device for easy vertical adjustment.
In addition, the present invention is configured to cover a box cover that prevents the inflow of foreign substances to the fixed box installed on the top of the foundation concrete embedded in the ground, the variable box that can be adjusted up and down movement, and the inflow of foreign matter on the upper part of the variable box By easily adjusting the height of the variable box according to the height and easily adjusting the height of the box cover exposed to the ground, it is possible to realize a horizontal state with the ground without being greatly affected by the size or shape of the foundation concrete and the depth of the pit. In addition, the base plate provided on the pillar, the fixing nut, and the triangular support are all stored in the space inside the fixed box in the basement to prevent corrosion and provide a holding cover device that can be easily adjusted up and down to prevent durability. have.

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The holding cover device that can be easily adjusted up and down to solve the above problem,
In the base plate in contact with the base concrete is provided at the bottom, a fixing nut for coupling the base plate to the anchor bolt, at least one triangular support on the upper portion of the base plate in the apparatus for installing a support on the ground , A fixed box fixedly installed on the upper portion of the foundation concrete; A variable box accommodated inside the fixed box and movable up and down within the fixed box; A variable box fixing means for fixing the variable box in a vertically moved position; And it is composed of a plate-shaped plate to cover and seal the upper portion of the variable box, it characterized in that it comprises a box cover having a support hole is formed in the center is formed.
At this time, the fixed box is composed of a box with an empty inside and an open top to accommodate a fixed nut and a triangular support for coupling the base plate to the anchor bolt and fixing the base plate therein, and the bottom surface of the fixed box. It is characterized in that the variable box is coupled to form a variable bolt that can move up and down.
In addition, a plurality of anchor bolt through-holes into which anchor bolts provided in the base concrete are fitted are formed on the bottom surface of the fixed box in contact with the base concrete.
In addition, the variable box is composed of a frame wall forming a frame that can independently support the box cover at an extended height to the top, and a fixed support that moves up and down to fit and fix the variable bolt at an adjusted height, The variable box is characterized in that the upper and lower parts are configured in an open tubular shape.
At this time, the fixed support is composed of a small plate-shaped plate formed at each corner portion of the frame wall corresponding to the position where the variable bolt is formed, and each fixed support is formed with a variable hole through which the variable bolt can be fitted. It is characterized by.
In addition, the variable box fixing means is fixed to the position of the variable bolt fitted in the variable hole, the first nut to support the variable box located on the lower portion of the fixed support, and the variable box located on the upper portion of the fixed support It characterized in that it is configured to include a second nut for fixing.
And, it characterized in that it further comprises a cover support frame made of a structure that can support the lower portion of the box cover and disperse the impact applied from the upper portion.
In addition, the cover support frame is made of a frame structure capable of supporting an external impact, and a first support frame having a groove to which a post is coupled to one side; A second support frame formed of a frame structure and having grooves to which the posts are coupled on one side; A frame connecting rod connecting the first supporting frame and the second supporting frame; And it characterized in that it comprises a connecting bolt for fixing the frame connecting rod to the first and second supporting frames.

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The present invention has the advantage that it can be easily leveled with the ground by independently adjusting the height of the box cover exposed to the ground, without depending on the size of the foundation concrete itself and the depth of the pit in which the foundation concrete is buried.
In addition, the present invention accommodates both the base plate provided on the pillar, the fixing nut, and the triangular support in an empty space inside the underground fixed box, and prevents direct exposure to rainwater, as well as rain, snow and dirt. It has the advantage of preventing corrosion and improving durability.
In addition, the present invention Civil engineering that removes all of the finishing material around the pillar even when the street lamp has to be replaced or repaired after the service life of the street lamp, or when the pillar of a street lamp or traffic light that has been collapsed or damaged by a sudden external impact such as a collision by a driving vehicle is replaced. Without re-construction, after removing and removing the box cover formed of the finishing material and the cover support frame underneath, the fixing nut can be loosened to replace and repair the post, so even general electric construction companies, not experts in civil engineering, can It is possible to easily perform the work, and after completing the work, there is an advantage that the work of leveling the ground by assembling the variable box and the box cover can be easily performed.

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1 is a cross-sectional view showing an example in which a conventional street light pole is installed, (a) is a cross-sectional view showing that the foundation concrete is installed horizontally with the ground, (b) is a cross-sectional view showing that the foundation concrete is installed to protrude above the ground, ( c) is a sectional view showing that the foundation concrete is installed lower than the ground.
Figure 2 is an exploded perspective view of the holding cover device for easy up and down adjustment according to the present invention.
Figure 3 is a plan view of a fixed box forming a holding cover device for easy up and down adjustment according to the present invention.
4 is a plan view of a variable box constituting a holding cover device for easy vertical adjustment according to the present invention.
5 is an exemplary cross-sectional view of a box cover forming a holding cover device that can be easily adjusted up and down according to the present invention.
Figure 6 is a combined perspective view of the holding cover device for easy vertical adjustment according to the present invention.
7 is a combined perspective view showing a state installed by varying the height of the holding cover device for easy vertical adjustment according to the present invention.
Figure 8 is a cross-sectional view showing a state in which the up and down adjustment of the holding cover device according to the present invention is installed on the ground.
Figure 9 is an enlarged cross-sectional view showing a state in which the up and down adjustment support holding device according to the present invention is installed on the ground.
Figure 10 is a cross-sectional view showing that the vertically adjustable holding cover device according to the present invention in a height extended state.
11 is an enlarged cross-sectional view showing that the holding cover device for easy vertical adjustment according to the present invention is combined in an extended state.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.
Figure 2 is an exploded perspective view of a holding cover device that is easy to adjust up and down according to the present invention, Figure 3 is a plan view of a fixed box constituting a holding cover device that is easy to adjust up and down according to the present invention, Figure 4 is according to the present invention It is a top view of a variable box constituting a support cover device that is easy to adjust up and down, and FIG. 5 is an exemplary cross-sectional view of a box cover constituting a support cover device that is easy to adjust up and down according to the present invention.
Referring to FIG. 2, the holding cover device for easy vertical adjustment according to the present invention includes a fixed box 200 fixedly installed on an upper portion of the foundation concrete and housed inside the fixed box and vertically movable within the fixed box It comprises a variable box 300, a variable box fixing means 400 for fixing the variable box at a controlled position by moving up and down, and a box cover 500 for sealing the upper portion of the variable box.
At this time, the foundation concrete 130 is buried in a plate pit so as to have a certain depth on the ground, and can be manufactured by a field pouring method, and can be made of ready-made products so that it is possible to reduce labor costs and shorten the air. It might be. In addition, anchor bolts 120 for fixing the pillars 100 are formed on the foundation concrete 130 to be exposed to the top.
In addition, the pillar 100 fixedly installed on the foundation concrete includes not only a street light or a traffic light pole, but also a facility such as a road guide sign pillar, a lighting tower, a pillar of a building, a pier, a security lamp, a garden lamp, a searchlight prop, or a steel structure. As a common pillar for fixing to the ground, the lower portion is provided with a base plate 110 that can increase the contact area to the foundation concrete, and a fixing nut 150 for coupling and fixing the base plate to the anchor bolt Is provided, the upper portion of the base plate is formed around a plurality of triangular support 140 is formed around the support to support the lower portion of the support.
The fixing box 200 is empty inside to provide a space for receiving the lower base and the base plate, and is composed of an open box, and is fixedly installed on the upper portion of the foundation concrete 130. And in the inner space of the fixing box 200, the base plate 110, a fixing nut 150 for coupling and fixing the base plate to the anchor bolt, and the triangular support 140 are received. As described above, the base plate, the fixing nut, and the triangular support are stored inside the fixing box to prevent corrosion due to moisture or soil from the outside to maintain a stable bonding state for a long time.
At this time. In FIG. 2, the bottom surface of the fixed box 200 is formed in a plate shape corresponding to the upper surface of the basic concrete, and a circumferential partition wall is provided to prevent dirt from flowing into the fixed box. Although it is shown that the shape is made, it is of course not limited to this shape and can be made in various shapes depending on the shape of the upper surface of the basic concrete and the shape of the base plate accommodated in the fixed box.
In addition, it is preferable that a plurality of anchor bolt through holes 210 into which the anchor bolts 120 provided in the foundation concrete are fitted, as shown in FIG. 3, on the bottom surface of the fixing box 200.
Although the anchor bolt through-hole 210 is shown in FIG. 3 in a curved banana shape, it is not limited to the curved shape, and may be configured in various shapes corresponding to the shape of the anchor bolt itself. In addition, although the anchor bolt through-hole 210 is shown in a circular shape with respect to the center of the bottom surface of the fixed box, the arrangement of the anchor bolt through-hole also varies depending on the arrangement of the anchor bolt formed in the base concrete. Can be formed.
In addition, a variable bolt 220 is formed on the bottom surface of the fixed box 200 so that the variable box is coupled to move up and down. At this time, the variable bolt 220 is preferably formed in the corner portion near the partition wall forming the periphery of the fixed box so as to secure a space for receiving the base plate inside the fixed box. Although FIG. 2 shows that four of the variable bolts 220 are formed at each corner, the number of the variable bolts is not limited by this and can be configured in various ways.
In addition, the variable bolt 220 is preferably composed of a computer bolt is formed with a thread in order to ensure more of the area in which the variable box can move up and down. At this time, the variable bolt 220 may be fixed to the bottom surface of the fixed box by various means, and it is preferable to fix one end of the variable bolt by welding it to the bottom surface of the fixed box to secure a more robust support.
In addition, the length of the variable bolt may be variously selected, but the variable box and the fixed box are physically separated so that the outside of the partition wall of the fixed box can be prevented from entering the space between them. It is preferably formed to have a short length.
In addition, the fixed box 200 is preferably formed with at least one drain hole 230 at the bottom of the partition wall forming the periphery of the fixed box so that the rainwater flowing into the fixed box can be naturally flowed into the ground in the rain. Do. As described above, the rainwater, etc., introduced from the outside by the drain hole 230 is discharged to the outside of the fixed box 200 so that the inside of the fixed box can maintain the state of an empty space. , It is possible to prevent corrosion of the anchor bolt and the triangular support.
The variable box 300 is accommodated inside the fixed box and moves up and down to adjust the overall height of the holding cover device, and a frame forming a frame capable of supporting the box cover 500 independently at an extended height around the periphery. It comprises a wall 310, and a fixed support 320 for fixing by inserting the variable bolt at a height adjusted by moving up and down.
At this time, the variable box 300 is freely adjustable between the low state contacting the bottom surface of the fixed box and the extended state located above the fixed box without being affected by the triangular support accommodated in the fixed box. It is preferable that the upper and lower parts are configured to have an open tubular shape so as to be possible.
In addition. The frame wall 310 is preferably configured to have the same shape as the partition wall forming the periphery of the fixed box, and is preferably configured to freely move the variable box within the fixed box.
The fixing support 320 is composed of a small plate-shaped plate formed at each corner of the frame wall 320 corresponding to the position where the variable bolt 220 is formed, as shown in FIG. In 320, a variable hole 330 into which the variable bolt can be fitted is formed. In addition, although the number of the fixed support and the variable hole is formed in four in FIG. 4, the number of the fixed support and the variable hole is not limited thereto, and may be variously configured according to the shape of the variable box and the position and number of the variable bolt. Yes, of course.
At this time, it may be configured to strengthen the force to support the variable box by making the size of the fixed support larger, but if the fixed support is formed too large, it is caught in a triangular support, so that contact with the bottom surface of the fixed box is disturbed. Therefore, as shown in FIGS. 2 and 4, it is preferable to be formed to be small in each corner portion of the frame wall.
The variable box fixing means (410,420) is to adjust the height of the variable box by fixing the position of the variable bolt 220 fitted in the variable hole formed in the fixed support provided in the variable box, located at the bottom of the fixed support It consists of a first nut 410 for supporting the variable box, and a second nut 420 for fixing the variable box, which is located on the top of the fixed support.
At this time, the first nut 410 is fitted to the variable bolt before the variable box to support the lower portion of the variable box, and the height of the variable box is adjusted by adjusting the position of the first nut 410. Since the lower portion of the variable box is open, there is no great difficulty in fixing the position by changing the position under the fixed support using a hand or a tool at a desired position. As described above, the position of the variable box is fixed by adjusting the first nut, and then the second nut 420 is coupled to the upper portion of the fixing support to prevent the variable box from being unnecessarily moved in the adjusted position.
The box cover 500 is a cover that seals the upper portion of the variable box 300 and is composed of a plate-shaped plate, and a support hole through which a post can be fitted is formed in the center. At this time, the box cover 500 may be composed of a single plate having a holding hole in the center, as well as coupling the holding to the base plate and adjusting the final height by the variable box so that the upper portion can be covered. It may be configured in a separate form.
At this time, the box cover 500 is preferably formed to be equal to or larger than the periphery of the variable box or the fixed box so that foreign matter such as soil does not flow into the fixed box by covering all of the variable box or the fixed box.
In addition, the lower portion of the box cover 500 is installed on the ground and supports the lower portion of the box cover so as to prevent the box cover from being damaged or the variable box being pushed downward by a shock applied from the outside to change the height. It is preferable to further include a cover support frame 600 that can disperse the impact applied from the top. At this time, the cover support frame 600 is preferably composed of a sturdy steel structure capable of sufficiently supporting a constant load applied to the upper portion to prevent the box cover from being damaged.
Since the cover support frame 600 is installed after fixing the lower portion of the strut in the inner space of the fixed box, and adjusting and adjusting the height of the variable box, the cover support frame 600 has two holes rather than a single plate having a hole through the strut in the center. It is preferably composed of separate frames.
Accordingly, the cover support frame 600 is made of a frame structure capable of supporting an external impact, and a first support frame 610 having a groove to which a post is coupled to one side is formed, and a frame structure is formed on one side. It is composed of a second support frame (620) formed with a groove to which the support is coupled, a frame connecting rod (630) connecting the first support frame and the second support frame, and the frame connecting rods to the first and second It is further configured to further include a connection bolt 640 fixed to the support frame.
At this time, the upper portion of the cover support frame 600 is formed to be stepped so that the outer portion is high and the inner side is low to form an insertion space that can be prevented from being separated by an external impact by closely inserting the box cover. desirable. As such, by forming a space for coupling by inserting the box cover, it is preferable that the frame connecting rod and the connecting bolt are installed at a high portion outside to prevent the box cover from being inserted and installed.
Accordingly, as shown in FIGS. 5 and 6, the first and second supporting frames 610 and 620 are brought into contact with each other by the frame connecting rod 630 and the connecting bolt 640, thereby forming a central hole. By inserting the post 100 and inserting the box cover 500, it is possible to install such that only the post is exposed to the ground.
In addition, it is preferable that the upper surface exposed to the outside, that is, the ground from the box cover, is made of the same material as the finishing material of the civil engineering project which is scheduled for installing the post.
Accordingly, the box cover 500 may be manufactured differently according to the type and purpose of the prop to be installed, and in particular, it is manufactured to implement an excellent aesthetic by reflecting the unique colors and features adopted in each city. It is desirable to do. That is, since the box cover 500 is composed of a plate-shaped plate, various designs, shapes, or colors can be easily expressed on various surfaces of the upper surface by various painting and plating techniques, thereby facilitating the completion of civil engineering work. .
FIG. 6 is a combined perspective view of a holding cover device that is easy to adjust up and down according to the present invention, and FIG. 7 is a combined perspective view showing a state in which the height of the holding cover device that is easy to adjust up and down is variable.
When the depth of the pit for laying the foundation concrete is suitable and the box cover 500 can be installed horizontally with the ground without additional height adjustment, the variable box is moved to the bottom of the variable bolt as shown in FIG. 6. Or to install a holding cover device in a state in which the variable box is not combined at all.
However, when the pit for laying the foundation concrete is dug deeper, the variable box 300 is received inside the fixed box 200 through the variable bolt 220 as shown in FIG. 7, and the variable box 300 While moving up and down, the box cover 500 is raised to a level capable of being level with the ground, and the height is fixed while leveling the ground by adjusting the first nut 410 under the variable box. In addition, unnecessary movement of the variable box is prevented by adjusting the second nut 420 above the variable box.
By adjusting the height (h) of the box cover exposed to the outside of the ground by a variable box that can be moved up and down easily separately from the fixed box fixedly installed on the basic concrete, additional construction such as digging or filling the pit again Without it, it is possible to easily implement a state that is level with the ground.
Next, the operation of the holding cover device for easy vertical adjustment according to the present invention will be described.
Figure 8 is a cross-sectional view showing a state in which the up and down adjustment is easy to adjust the holding cover device installed on the ground, Figure 9 is an enlarged view showing a state in which the up and down adjustment easy holding cover device according to the present invention installed on the ground Cross-sectional view, Figure 10 is a cross-sectional view showing that the up and down adjustment is easy to adjust the holding cover device according to the present invention in a variable state in the extended state, Figure 11 is a height extension of the up and down adjustment easy holding cover device according to the present invention It is an enlarged sectional view showing that it is combined in a state.
Referring to Figures 8 and 9, the upper surface of the box cover is suitable for leveling the ground while the bottom of the support, such as the base plate and the triangular support, is buried in the bottom of the ground, which is the finishing level of civil engineering work. In the case of fine, first, the fixing box 200 is fixed to the upper portion of the foundation concrete 130.
At this time, the anchor bolt 120 formed in the foundation concrete is fitted into the anchor bolt through-hole 210 formed in the bottom surface of the fixing box, and the base plate 110 of the support lower part in the inner space of the fixing box 200 After positioning the fixing nut 150 to the anchor bolt 120, the holding 100 is fixed to the foundation concrete together with the fixing box 200.
Since the height of the pit in which the foundation concrete is buried is dug appropriately, the upper height of the fixed box and the upper surface of the box cover are level with the ground, so that the fixed box is not coupled to the variable box inside the fixed box ( 200) After the cover support frame 600 is installed on the top to strengthen the support force against the load applied from the top, the box cover 500 is tightly coupled to the top of the cover support frame to be combined to level the ground GL. Will achieve
Accordingly, only the upper surface of the box cover is exposed to the ground while being horizontal, thereby improving urban aesthetics. Particularly, when the upper surface of the box cover is formed of a finishing material for civil works, the bar contributing to the improvement of urban aesthetics will be greater.
At this time, the height of the box cover should be adjusted in accordance with the weakening of the ground while keeping the level with the ground by storing the variable box inside the fixed box but keeping the bottom of the variable box at the bottom of the fixed box and combining it. You can also be prepared in case.
In addition, when the streetlight has passed its useful life, it is necessary to replace the street lamp main, repair it, or collapse a sudden external shock such as a collision caused by a driving vehicle, or replace a damaged street lamp or a prop for a traffic light. After the civil engineering work to remove all the materials is not carried out again, the box cover 500 formed of the finishing material and the cover supporting frame 600 underneath are removed, and then the fixing nut 150 is released to replace and repair. As a result, a general electric construction company that is not an expert of civil engineering works can easily perform the work, and it is also possible to easily perform a leveling operation with the ground after completion of the work.
In addition, normally, the cover is kept covered by the box cover 500, and after removing the box cover, the fixing nut and the triangular support are exposed to the outside, so that it is possible to prevent theft of the parts. The space under the box cover 500 formed by the variable box maintains an empty space free of dirt or foreign matter, and does not directly contact the rainwater flowing in from the outside, thereby exhibiting an excellent effect in preventing corrosion. .
Referring to Figures 10 and 11, even when the pit to bury the foundation concrete is deeper than the finishing level of the civil engineering work, the foundation concrete is placed at the bottom of the pit without additional civil engineering work, and fixed to the upper part of the foundation concrete 130 The box 200 is fixed.
And as described above, the anchor bolt 120 formed on the foundation concrete is fitted into the anchor bolt through-hole 210 formed on the bottom surface of the fixing box, and the base plate of the support lower part in the inner space of the fixing box 200 After positioning the fixing nut 150 is fixed to the foundation concrete 130 together with the fixing box 200 by coupling the fixing nut 150 to the anchor bolt.
At this time, since the upper height of the fixed box is lower than the finishing level of the ground, when it is combined as it is, it is lower than the surrounding ground to form a recessed shape, so that the variable bolt 220 formed in the fixed box is attached to the fixed support 320 of the variable box. The formed variable hole 330 is fitted to couple the variable box 300. Of course, the first nut 410 that can be fixed after adjusting the height of the variable box should be first coupled to the lower portion of the variable box 300.
After combining the first nut 410 and the variable box 300, the variable box 300 is moved upwards to a height at which the upper portion of the variable box, that is, the box cover can be level with the ground, and at the height One nut 410 is fixed to the variable bolt 220. In addition, the second nut 420 is fixed to the upper portion of the fixed support 320 provided in the variable box to prevent movement of the variable bolt within the fixed box.
The cover support frame 600 is coupled to the upper portion of the fixed variable box 300 as described above. At this time. Since the cover support frame 600 is composed of two frames having grooves for coupling to the posts, the grooves are coupled to contact the outer circumferential surface of the posts, and the first support frame is connected to the frame provided in the cover support frame. After connecting the 610 and the second supporting frame 620, the frame connecting rod 630 is fixed to the first and second supporting frames 610 and 620 by a connecting bolt 640. In addition, the installation of the strut is completed by inserting and combining the box cover 500 on the upper portion of the cover support frame.
Accordingly, without adjusting the size of the foundation concrete or the depth of the pit again, it is possible to easily level with the ground simply by adjusting the height of the variable box 300. Accordingly, it is possible to improve the convenience of the work by using the basic concrete having a fixed size and shape as a ready-made product, while performing a civil engineering work with a certain margin in the depth of the pit.
As described above, the base plate, the fixing nut, the anchor bolt, and the triangular support are all stored in the inner space formed by the fixed box and the variable box while being located under the box cover. Since it is located in the inner space of the fixed box and the variable box, it is hardly affected by external rain, snow, soil, etc., so that corrosion can be prevented for a long time after installation.
That is, after installation of the prop, rainwater may be introduced into the fixed box during rainy or rainy season, but the introduced rainwater is naturally drained to the outside through a small drainage hole 230 formed at the lower side of the fixed box, thereby increasing the rainwater in the fixed box. Since it can be prevented, corrosion can be prevented.
In addition, even when replacing or repairing a post by external impact after installing the post, the box cover 500 and the cover support frame 600 are separated without additional civil engineering work, and the first nut 410 and the second nut 420 are removed. ) Can be easily performed after separation, and even after replacing or repairing a post, the level with the ground can be easily adjusted by a simple assembly process.
In the above, the technical idea of the present invention has been described with reference to the accompanying drawings, but this is illustrative of preferred embodiments of the present invention and does not limit the present invention. In addition, it is obvious that anyone with ordinary knowledge in the technical field to which the present invention pertains is capable of various modifications and imitation without departing from the scope of the technical spirit of the present invention.

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100-Prop 110-Base plate
120-Anchor bolt 130-Foundation concrete
140-Triangular support 150-Fixing nut
200-Fixed box 210-Anchor bolt through hole
220-Variable bolt 230-Drainage hole
300-Variable box 310-Frame wall
320-Fixed support 330-Variable hole
400-Variable box fixing means 410-First nut
420-Second Nut 500-Box Cover
600-Cover support frame 610-First support frame
620-Second support frame 630-Frame connecting rod
640-connecting bolt

Claims (7)

delete delete delete delete In the base plate in contact with the base concrete is provided at the bottom, a fixing nut for coupling the base plate to the anchor bolt, at least one triangular support on the upper portion of the base plate in the apparatus for installing a support on the ground ,
A fixed box fixedly installed on the upper portion of the foundation concrete;
A variable box accommodated inside the fixed box and movable up and down within the fixed box;
A variable box fixing means for fixing the variable box in a vertically moved position; And
It is composed of a plate-shaped plate that covers and seals the upper portion of the variable box, and includes a box cover in which a support hole is fitted in the center;
The fixing box is composed of a box having an empty inside and an open top to accommodate a fixing nut and a triangular support for coupling the base plate to the anchor bolt and fixing the base plate therein, and on the bottom surface of the fixing box, The variable box is coupled to move the variable bolt that can move up and down, the anchor bolt is provided in the base concrete is formed a plurality of anchor bolt through-holes are fitted;
The variable box is made of a tube shape in which both the upper and lower parts are open, and the frame wall forming a frame capable of supporting the box cover independently at a height extending upward, and the variable bolt at a height adjusted by moving up and down. It is configured to include a fixed support for fixing by fitting;
The fixed support is composed of a small plate-shaped plate formed in each corner portion of the frame wall corresponding to the position where the variable bolt is formed, and each fixed support is formed with a variable hole through which the variable bolt can be fitted. Holding cover device for easy vertical adjustment. The method of claim 5,
The variable box fixing means is fixed to the first nut for supporting the variable box, which is located at the bottom of the fixed support, to fix the position of the variable bolt fitted in the variable hole, and fixed to the variable box by being located on the top of the fixed support A holding cover device that is easy to adjust up and down, characterized in that it comprises a second nut to let. The method of claim 5,
It further comprises a cover support frame made of a structure that supports the lower portion of the box cover and can disperse the impact applied from the upper portion;
The cover support frame,
A first support frame formed of a frame structure capable of supporting external impact and having grooves coupled to posts on one side;
A second support frame formed of a frame structure and having grooves to which the posts are coupled on one side;
A frame connecting rod connecting the first supporting frame and the second supporting frame; And
A holding cover device for vertical adjustment is easy, characterized in that it comprises a connecting bolt for fixing the frame connecting rod to the first and second supporting frames.

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