KR101087558B1 - Method of establishing multi-functional manhole cover and a manhold frame for adjusting permanently height of a manhole since the manhole is set - Google Patents

Abstract

PURPOSE: A method for installing a multifunctional manhole cover and a frame having a manhole neck height adjusting function is provided to enable a driver to comfortably drive a vehicle by reducing shock generated when the vehicle passes through a manhole cover. CONSTITUTION: A method for installing a multifunctional manhole cover and a frame having a manhole neck height adjusting function is as follows. A height adjusting manhole frame(312) having a first height adjusting support(332) is arranged on the inner surface of a manhole body(310). A height adjusting device is installed in the height adjusting manhole frame and moves the height adjusting manhole frame. After the height of the height adjusting manhole frame is adjusted, an outer cover(302), in which a locking device is coupled, is placed on the first height adjusting support.

Description

How to install a multifunctional manhole cover and frame that allows permanent adjustment of the height of the manhole neck with the first installation

The present invention relates to a method of installing a manhole cover and a frame that can be adjusted to match the height of the road surface of the manhole cover provided on the road or the like.

At present, there are many manholes having a structure as shown in FIGS. 1 and 2 below for installation, maintenance, and management of various cables such as power cables and communication cables.

1 is a perspective view showing the structure of a general manhole, Figure 2 is a cross-sectional view showing the structure of the manhole of FIG.

1 and 2, the manhole body 100 is embedded in the ground, for example, a road, and the manhole cover 102 is seated on the support 110 of the manhole body 100.

However, because the road is damaged due to the passage of time, road repair work is frequently performed, and concrete is often reapplied. In this case, the height of the road, ie the block, may vary because the concrete has been reapplied. As a result, even if the manhole is initially installed to match the height of the block, the height of the manhole does not match the height of the block due to the concrete construction. Therefore, there is a possibility that a life accident such as pedestrians passing by and tripping over the manhole occurs.

It is an object of the present invention to provide a method for installing a multifunctional manhole cover and frame that can be height-adjusted in order to solve the problem that the height of the manhole cover is changed due to road resurfacing or repair work.

In order to achieve the object as described above, the method for installing a manhole having a variable height according to an embodiment of the present invention comprises the steps of arranging a height adjustment manhole frame having a first height variable support on the inner surface of the manhole body; Installing a height adjusting device on the height adjusting manhole frame to move the height adjusting manhole frame in the direction of gravity or in the opposite direction of gravity; And after adjusting the height of the height-adjustable manhole frame comprising the step of seating the outer lid coupled to the locking device on the first variable height support. The locking device includes a body portion inserted into the first hole of the outer cover; A head portion formed at an upper end of the body portion; A lock coupling portion formed at the lower end of the body portion; And a locking unit arranged in a direction crossing the locking engagement unit. Here, a second hole is formed in the lock portion, the lock coupling portion is inserted into the second hole of the lock portion, and the head portion, the body portion and the lock coupling portion in a direction opposite to gravity using a first locking state change mechanism. In the raised state by rotating the head portion with a second locking state changing mechanism to change the locking state of the manhole, and using the first locking state changing mechanism, the head portion, the body portion and the locking engagement portion have been raised. The head portion is then exposed over the outer lid.

The method of installing the height-adjustable multifunctional manhole cover and frame of the present invention does not need to precisely cut the manhole neck member for height adjustment while installing the manhole in the field, and constructs the height of the manhole cover to match the road surface. Part of the process can be omitted, reducing the construction period and making it easier to install the manhole cover.

In particular, the height and height of the manhole cover can be precisely adjusted, allowing for convenient construction and precise construction, and precisely matching the road surface to offset the impact that can occur when a vehicle traveling on the road passes through the manhole cover. Driving is possible.

1 is a perspective view showing the structure of a general manhole.
FIG. 2 is a cross-sectional view illustrating a structure of the manhole of FIG. 1.
3 is a cross-sectional view showing the structure of a manhole according to an embodiment of the present invention.
4 is a cross-sectional view showing a process of adjusting the height of the manhole body according to an embodiment of the present invention.
5 is a view schematically showing a height adjustment device according to an embodiment of the present invention.
6 is a flowchart illustrating a manhole installation process according to an embodiment of the present invention.
7 is a view showing a manhole installation process according to an embodiment of the present invention.
8 is a cross-sectional view showing a height adjustment process and a height adjustment device according to another embodiment of the present invention.
9 is a cross-sectional view showing the structure of a manhole according to another embodiment of the present invention.
10 is a cross-sectional view showing the structure of a manhole according to a third embodiment of the present invention.
FIG. 11 is a top view illustrating the manhole of FIG. 6 according to an embodiment of the present invention.
12 is a cross-sectional view showing the structure of a manhole implemented with a locking device according to an embodiment of the present invention.
13 is a cross-sectional view illustrating a structure of a manhole when releasing a locked state according to an embodiment of the present invention.
14 is a view showing a change in the lock state according to an embodiment of the present invention.
15 is a perspective view schematically illustrating an exploded structure of a locking device according to an embodiment of the present invention.
16 is a perspective view illustrating a first locking state change mechanism according to an embodiment of the present invention.
17 is a perspective view illustrating a second locking state changing mechanism according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing the structure of a manhole according to the first embodiment of the present invention.

Referring to FIG. 3, the manhole of this embodiment includes a manhole body 300 and a manhole cover (cover lid 302).

The manhole body 300 includes a manhole body 310 and a height adjusting manhole frame 312.

The manhole body 310 is a part buried underground, for example, in direct contact with the concrete block 304.

The central portion of the manhole body 310 is formed with a hole, so the inner surface of the manhole body 310 is formed in a direction perpendicular to the ground as shown in FIG.

The height adjustment manhole frame 312 is a member for adjusting the height of the manhole body 300 by moving in the direction of gravity or in the opposite direction of gravity (hereinafter referred to as "up and down direction"), and is in close contact with the inner surface of the manhole body 310. Is arranged. That is, the height adjustment manhole frame 312 moves up and down in close contact with the inner surface of the manhole body 310. Of course, the height adjustment manhole frame 312 does not move automatically and moves under the control of the height adjustment device, as will be described later.

According to one embodiment of the invention, the manhole body 310 has a cylindrical shape, the height adjustment manhole frame 312 also has a cylindrical shape as shown in Figure 3 (C) and the bottom portion of the manhole body 310 May be seated on the phase. Therefore, the height adjustment manhole frame 312 can be stably seated on the manhole body 310 even if it is not fixed to the manhole body 300 using a bolt or the like.

The height adjusting manhole frame 312 may include a height variable body 330, a first height variable support 332 and a second height variable support 334.

The height variable body 330 is in close contact with the inner surface of the manhole body 310, that is arranged in a direction perpendicular to the ground.

The first variable height support 332 extends from the height variable body 330 in a direction crossing the height variable body 330, preferably in a vertical direction. The manhole cover 302 is seated on the first variable height support 332.

The second variable height support 334 extends from the height variable body 330 in a direction crossing the height variable body 330, preferably in a vertical direction. In addition, the second variable height support 334 is located below the first variable height support 332, the inner lid is seated on the second variable height support 334.

Looking at the movement of the height-adjusted manhole frame 312, the height-adjusted manhole frame 312 is installed in the initial state as shown in Figure 3 (A), if necessary, as shown in Figure 3 (B) in the upper direction Is raised. Of course, as shown in FIG. 3 (B), the raised height adjusting manhole frame 312 may be lowered or raised higher as shown in FIG. 3 (A).

In general, concrete is often reapplied as a part of repair work due to damage to the road, and in this case, even if the height of the block 304 and the manhole body 300 is initially matched, the block is due to the newly applied concrete. The height of the 304 and the height of the manhole body 300 do not match. As a result, personal injury may occur due to the height difference between the block 304 and the manhole body 300.

Therefore, the manhole of the present invention implements the height-adjustable manhole frame 312 to be movable up and down, and as a result, the height of the manhole body 300 as shown in FIG. Can always match the height of the block 304. As a result, human injury and the like can be prevented.

According to an embodiment of the present invention, when the height adjustment of the height adjustment manhole frame 312 is completed, the height support 314 is arranged under the height adjustment manhole frame 312 to support the height adjustment manhole frame 312. Can be. Here, since the degree of movement of the height-adjustable manhole frame 312 may be different according to the situation of manhole installation and repair work, as shown in FIG. 314b) can be implemented through the method of combining. Specifically, at least one protrusion may be formed on one surface of each of the height supporting members 314a and 314b, and a groove may be formed on the opposite surface. In this case, the height of the height support 314 is adjusted to the desired height by allowing the protrusion of one height support member 314a to be inserted into the groove of the other height support member 314b. In FIG. 3D, two height supporting members 314a and 314b are shown to be coupled, but one height supporting member 314a or 314b may support the height adjustment manhole frame 312, or three The height support part 314 to which the above height adjustment support members are coupled may support the height adjustment manhole frame 312.

In summary, the manhole of the present invention can adjust the height of the manhole according to the situation using the height adjustment manhole frame 312. Of course, the height of the manhole can be adjusted from time to time as well as when installing and constructing the manhole.

Above, the height adjustment manhole frame 312 is seated on the manhole body 310 and no separate fixing member is used, but the height adjustment manhole after the height of the height adjustment manhole frame 312 is fixed by a fixing member such as a bolt The frame 312 may be fixed to the manhole body 310.

Hereinafter, a method and a height adjusting device for adjusting the height of the manhole main body 300 will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view showing a process of adjusting the height of the manhole body according to an embodiment of the present invention, Figure 5 is a view schematically showing a height adjustment device according to an embodiment of the present invention. On the other hand, the height adjustment device 400 can be used in a variety of ways, but in consideration of the convenience in use it is assumed to use a hydraulic method.

Referring to FIG. 4, the height adjusting device 400 of the present embodiment includes a hydraulic cylinder (not shown), a supporting member 410, a height adjusting member 412, an actuator 414, and a lifting member 416. do.

The supporting member 410 is a member for fixing and supporting the height adjusting member 412. For example, the height adjusting members 412 may be inserted into the holes of the support member 410 and then fixed with a nut or the like. Preferably, in order to be able to easily move the height adjustment manhole frame 312 having a cylindrical shape, the support member 410 is three height adjustment members 412 having a triangular shape as shown in FIG. ) May be coupled to the support member 410.

The hydraulic cylinder includes a fluid such as oil, and the fluid moves according to external control.

An actuator 414 is connected to the hydraulic cylinder and controls the lifting member 416 to move up and down in response to the hydraulic change of the hydraulic cylinder.

The elevating member 416 is fixed to the supporting member 410 and is inserted into the actuator 414 to be movable. As a result, when the elevating members 416 are raised or lowered by the actuator 414, the support member 410 is also raised or lowered. In this case, since the height adjusting members 412 are fixed to the support member 410, the height adjusting members 412 also rise or fall. That is, the support member 410 and the height adjusting members 412 move together at the same time according to the operation of the actuator 414.

The height adjustment member 412 includes a height adjustment body 420 and a height adjustment support 422 extending in length in a direction crossing the height adjustment body 420.

The height adjustment support part 422 supports the first height variable support part 332 as shown in FIG. 4, so that the height adjustment manhole frame 312 moves up and down when the height adjustment member 412 is raised or lowered. do.

In summary, when the lifting member 416 is moved by the actuator 414, the height adjusting member 412 is moved, and as a result, the height adjusting manhole frame 312 is raised or lowered.

According to another exemplary embodiment of the present invention, the height adjusting support part 422 of the height adjusting member 412 may support the second height variable support part 334 instead of supporting the first height variable support part 332. Of course, there may be a plurality of height adjustment supports 422 and the height adjustment supports 422 may support the height variable supports 332 and 334, respectively.

In the above, although the hydraulic method was used to adjust the height of the height adjustment manhole frame 312, in addition to the hydraulic method as well as a variety of pneumatic method as long as the height adjustment member 412 can move the height adjustment manhole frame 312. Methods can be used.

Hereinafter, the entire manhole installation process will be described in detail with reference to the accompanying drawings.

6 is a flowchart illustrating a manhole installation process according to an embodiment of the present invention, and FIG. 7 is a view illustrating a manhole installation process according to an embodiment of the present invention.

Referring to Figure 6, the manhole installation operator installs the height adjustment manhole frame 312 inside the manhole body 310, that is, arranged in close contact (S600).

Subsequently, the worker installs the height adjusting device 400 in the manhole body 300 in which the height adjusting manhole frame 312 is arranged as shown in FIG. 7A (S602). Specifically, the height adjusting member 412 of the height adjusting device 400 supports the support member 410 and the height adjusting member 412 so as to support the first height variable support 332 of the height adjusting manhole frame 312. Install. In this case, as shown in FIG. 7B, the elevating member 416 coupled to the actuator 414 is coupled to the support member 410.

On the other hand, the operator may install the height adjustment manhole frame 312 and the height adjustment device 400 after placing the manhole body 300 on the ground, the height adjustment manhole in the manhole body 300 in the ground state Frame 312 and height adjustment device 400 may be installed.

Subsequently, the operator operates the hydraulic cylinder to raise or lower the height adjustment manhole frame 312 (S604).

Subsequently, it is determined whether the height adjusting manhole frame 312 has moved to a desired height, for example, whether the height adjusting manhole frame 312 has been moved so that the height of the block 304 and the manhole body 300 coincide. (S606).

If the height adjustment manhole frame 312 has not been moved to the desired height, step S604 is performed again.

On the other hand, when the height adjustment manhole frame 312 is moved to the desired height, the operator supports the height adjustment manhole frame 312 by the height support 314 as shown in Figure 7 (C) (S608) . Preferably, the height support members are properly engaged to support the height adjustment manhole frame 312.

Subsequently, the worker removes the height adjusting device 400 from the manhole body 300 as shown in FIG. 7D (S610).

Subsequently, the worker seats the manhole cover 302 on the first height variable support part 332 (S612).

In summary, the operator moves the height adjustment manhole frame 312 up and down using a hydraulic method to match the height of the manhole body 300 with the height of the block 304.

8 is a cross-sectional view showing a height adjustment process and a height adjustment device according to another embodiment of the present invention.

Referring to FIG. 8, the height adjusting device 800 of the present embodiment includes a hydraulic cylinder 810, at least one actuator 812, one or more height adjusting members 814, and a support 816.

The actuator 812 controls the height adjusting member 814 to move up and down in response to the hydraulic change of the hydraulic cylinder 810. That is, the height adjusting member 814 moves up and down according to the operation of the actuator 812, and as a result, the height of the height adjusting manhole frame 312 is variable.

In the height adjusting device 400 of FIG. 4, the height adjusting member 412 is moved through the supporting member 410. However, in the present exemplary embodiment, the height adjusting member 814 is moved by the actuator 812 without using the supporting member. Directly controlled.

The height adjustment member 814 includes a height adjustment body 820 and a height adjustment support 822.

The height adjusting body 820 is inserted into the corresponding actuator 812 and may be arranged in a direction perpendicular to the ground.

The height adjustment support 822 extends from the height adjustment body 820 in a direction intersecting with the height adjustment body 820, preferably in a vertical direction, and the first height variable support of the height adjustment manhole frame 312. Support (332). Therefore, when the height adjustment body 820 moves up and down by the actuator 812, the height adjustment manhole frame 312 supported by the height adjustment support 822 is moved up and down.

The supporting part 816 serves to stably mount the height adjusting device 800 to the block 304.

Although not shown in Figure 8 above, the manhole body 300 may further include a height support for supporting the height adjustment manhole frame 312.

9 is a cross-sectional view showing the structure of a manhole according to a second embodiment of the present invention. However, reference numerals of the other components except for the newly added components use the reference numerals of FIG. 3.

Referring to FIG. 9A, a first opening 900 is formed on the rear surface of the manhole cover 302. Here, a hole 908 is formed in the first opening 900, and the connection 906 is inserted into the hole 908.

A rotating shaft 904 is formed on the manhole body 300, particularly on the first variable height support 332 of the height adjusting manhole frame 312, and the second opening 902 connects the rotating shaft 904 to the connecting portion 906. Connect As a result, the manhole cover 302 is rotated as shown in FIGS. 9 (B) and 9 (C) according to the rotation of the rotation shaft 904 in a state where the manhole cover 302 is coupled to the manhole body 300, and as a result, the manhole Is opened.

In the structure of the manhole will be described the height adjustment process of the manhole body 300.

First, the coupling of the connecting portion 906 and the rotating shaft 904 for height adjustment, that is, to separate the manhole cover 302 from the manhole body 300.

Subsequently, the height adjusting device 400 or 800 is installed, and the height adjusting members 412 or 814 of the height adjusting device 400 or 800 move the first height variable support 332 of the height adjusting manhole frame 312. Arrange the components of height adjustment device 400 or 800 to support.

Subsequently, the height adjusting manhole frame 312 is varied using the height adjusting device 400 or 800.

Subsequently, after the height adjustment of the height adjustment manhole frame 312 is completed, the height adjustment manhole frame 312 is supported by the height support 314.

Subsequently, the height adjusting device 400 or 800 is released, and the manhole cover 302 is seated on the manhole body 300 after coupling the connecting portion 906 and the rotation shaft 904.

10 is a cross-sectional view illustrating a structure of a manhole according to a third embodiment of the present invention, and FIG. 11 is a top view illustrating the manhole of FIG. 6 according to an embodiment of the present invention. However, in FIG. 6, the watertight portions may not actually be arranged symmetrically, but are illustrated as being symmetrically arranged for convenience of description.

10 and 11, the manhole of the present embodiment includes a manhole body 300, a height adjusting manhole frame 312, a lid 302, and an inner lid structure. Here, the inner lid structure has a watertight portion including the inner lid 1000 and the elastic portion 1010, the watertight auxiliary portion 1012 and the fixing portion, the fixing portion includes a central portion 1014a and the departure prevention portion 1014b. do.

Since the remaining components except for the height adjustment manhole frame 312 and the watertight portion are the same as in the first embodiment, detailed description of the same components will be omitted and the same reference numerals will be used.

The height adjusting manhole frame 312 includes a height variable body 330, a first height variable support 332, a second height variable support 334, and a third height variable support 1002. That is, the height adjustment manhole frame 312 further includes a third height variable support portion 1002 than in the second embodiment.

Looking at the watertight portion, the elastic portion 1010 is arranged between the inner lid 1000 and the second height-variable support 334 to perform the watertight function. For example, the elastic portion 1010 may be made of a material having an elastic force, such as rubber.

According to one embodiment of the invention, the elastic portion 1010 is formed in a structure surrounding the end of the inner lid (1000). For example, the elastic part 1010 may be attached to the inner lid 1000 using an adhesive or the like in a state surrounding the end of the inner lid 1000. In the process, after the inner lid 1000 and the elastic portion 1010 are manufactured separately, the elastic portion 1010 is attached to the inner lid 1000 so that the elastic portion 1010 surrounds the end of the inner lid 1000.

According to another embodiment of the present invention, the elastic portion 1010 may be composed of a first elastic portion 1010a and a second elastic portion 1010b.

The first elastic portion 1010a is implemented as a structure surrounding the end of the inner lid 1000, preferably attached to the inner lid 1000.

The second elastic portion 1010b is coupled to the first elastic portion 1010a and may have a hollow ring shape. Therefore, when the force is transmitted to the first elastic portion 1010a through the inner lid 1000, since the second elastic portion 1010b is hollow, the second elastic portion 1010b is significantly contracted. That is, since the second elastic part 1010b is in close contact with the second height variable support part 334, it is possible to implement a better watertight function. Of course, the second elastic portion 1010b may be entirely filled with an elastic material instead of a hollow structure.

On the other hand, the first elastic portion 1010a and the second elastic portion 1010b may be integrally formed, or may be implemented in a separate structure. In addition, the elastic part 1010 may be variously modified as long as it performs a watertight function.

The watertight aid 1012 is arranged on the top surface of the inner lid 1000 as shown in FIG. 10 (A). Specifically, the first sub watertight subsidiary part 1012a of the watertight subsidiary part 1012 is seated on the upper surface of the inner lid 1000, the second sub watertight length extending from the first sub watertight subsidiary part 1012a at a predetermined angle. The auxiliary part 1012b is in contact with the bottom surface of the third variable height support part 1002. That is, the watertight assist portion 1012 has a "∠" shape.

According to one embodiment of the invention, the watertight aid 1012 is an elastic body. Therefore, since the elastic force of the second sub-watertight aid 1012b is applied in the direction opposite to gravity, but the elastic force is blocked by the third variable height support 1002, the repulsive force according to the elastic force of the second sub-watertight aid 1012b is suppressed. 1 sub watertight auxiliary portion 1012a. As a result, the force applied to the first sub watertight auxiliary portion 1012a is transmitted to the elastic portion 1010 through the inner lid 1000, and thus the inner lid 1000, the elastic portion 1010 and the second height variable support portion ( 334 may be in close contact to perform better watertight function.

The separation prevention part 1014b of the fixing part serves to fix the watertight assisting part 1012 so that the watertight assisting part 1012 is not randomly separated.

As shown in FIG. 10B, the departure preventing part 1014b surrounds a portion of the watertight subsidiary parts 1012 to which the sub-watertight aids 1012a and 1012b are connected or the second sub-watertight aid 1012b. The auxiliary part 1012 may be fixed, or as shown in FIG. 10C, the auxiliary part 1012 may be positioned on the second sub watertight auxiliary part 1012b to fix the watertight auxiliary part 1012.

According to one embodiment of the present invention, the departure prevention part 1014b is implemented in a structure in which the end portion (bending portion) is bent from the body as shown in FIGS. 10 (B) and 10 (C), and the sub-watertight A portion to which the auxiliary portions 1012a and 1012b are connected may be inserted into the body. Here, the body may have a rectangular parallelepiped shape as shown in FIGS. 10 (B) and 10 (C), or may have a “c” shape toward the ground without a bottom surface. In addition, the bent end portion may have a "C" shape to surround the second sub watertight auxiliary portion 1012b as shown in FIG. 10 (B), and may have a flat shape as shown in FIG. 10 (C). May have However, in consideration of the stable fixing structure, as shown in FIG. It is preferable.

The center portion 1014a of the fixing portion is connected to the separation preventing portion 1014b as shown in FIG. 11, and may be fixed to the inner lid 1000 through bolting or the like. As a result, since the central portion 1014a is supported and fixed by the inner lid 1000, the separation prevention portion 1014b stably fixes the watertight auxiliary portion 1012 so that the watertight auxiliary portion 1012 is applied even if an external impact is applied to the manhole. Random deviation of can be prevented.

According to an embodiment of the present invention, as shown in FIG. 11, a plurality of watertight aids 1012 may be present, and departure preventing parts 1014b may be formed in accordance with the number of watertight aids 1012. . In this case, the departure preventing units 1014b are connected to one central portion 1014a.

In this structure, when the inner lid 1000 is to be opened, the manager releases the bolt of the central portion 1014a and releases the escape preventing portions 1014b from the watertight aids 1012. Subsequently, the manager may apply a force to the side surfaces of the watertight aids 1012 so that the watertight aids 1012 are separated from the bottom surface of the third height variable support part 1002, and then open the inner lid 1000.

When the inner lid 1000 is closed again, the watertight aids 1012 are enclosed so that the second sub watertight aids 1012b of the watertight aids 1012 contact the bottom surface of the third height-variable support 1002. After seating on the 1000, the watertight auxiliary parts 1012 are fixed by the separation preventing parts 1014b, and then the center portion 1014a of the fixing part is fixed to the inner lid 1000 by using a bolt or the like.

In summary, the manhole of the present invention arranges the elastic portion 1010 between the inner lid 1000 and the second variable height support 334, and the inner lid 1000 and the watertight assisting portion 1012 are arranged on the elastic portion 1010. Implement force to perform excellent watertight function. Of course, the inner lid structure is installed after adjusting the height of the height-adjustable manhole frame 312 and supporting the height-adjusted manhole frame 312 with the height support 314.

According to another embodiment of the present invention, a circular rubber ring is formed on the upper surface of the first variable height support 332, the rubber ring can be pressed by the outer cover 302. As a result, a primary watertight operation may be performed by the first variable height support 332 and related elements, and a second watertight operation may be performed by the second variable height support 334 and related elements.

According to another exemplary embodiment of the present invention, the third height variable support part 1002 is not separately present in the height adjustment manhole frame 312, and the second sub watertight aid part 1012b of the watertight aid part 1012 is first variable in height. It may be in contact with the lower surface of the support 332.

12 is a cross-sectional view illustrating a structure of a manhole implemented with a locking device according to an embodiment of the present invention, and FIG. 13 is a cross-sectional view illustrating a structure of a manhole when releasing a locked state according to an embodiment of the present invention. to be. 14 is a view showing a change in the locking state according to an embodiment of the present invention, Figure 15 is a perspective view schematically showing an exploded structure of the locking device according to an embodiment of the present invention. 16 is a perspective view illustrating a first locking state changing mechanism according to an embodiment of the present invention, and FIG. 17 is a perspective view illustrating a second locking state changing mechanism according to an embodiment of the present invention. However, in the drawings, the inner lid 1000, the watertight aid 1012, the separation prevention portion 1014b and the elastic portion 1010 is not shown for convenience of description.

As shown in FIG. 12, the cover 302 is seated on the first height variable support 332 of the height adjustment manhole frame 312 in which the height adjustment is completed, and the locking device 1206 is the cover 302. Combined with

The locking device 1206 includes a body part 1220, a head part 1222, a lock coupling part 1224, a locking part 1226, a head support part 1228, a lock support part 1230, and a first elastic member 1232. , A second elastic member 1234 and a third elastic member 1510.

The body portion 1220 is inserted into the hole of the outer lid 302 as shown in Figure 12, for example may have a cylindrical shape.

The head portion 1222 is formed at the upper end portion of the body portion 1220, and preferably has a polygonal shape, in particular, a pentagonal shape or more so as to facilitate rotation using a special mechanism as described below. According to an embodiment of the present invention, the head portion 1222 is located at the same or lower position as the upper surface of the outer lid 302, as shown in Figure 12, the manhole is locked, the locked state of the manhole When is released may be projected over the cover 302, as shown in FIG. Of course, the head portion 1222 is exposed on the outer lid 302 even when the manhole is released and then locked again.

According to one embodiment of the invention, the head portion 1222 is formed integrally with the body portion 1220, as shown in Figure 13, the head portion 1222, the body portion 1220 and the lock coupling portion 1224 The recessed portion 1304 is formed through (). In this case, the third elastic member 1510 is inserted into the recess 1304.

The lock coupling part 1224 is formed at the lower end of the body part 1220, and is inserted into the hole 1500 of the locking part 1226 to be coupled with the locking part 1226 as shown in FIG. 15. The lock engagement portion 1224 is also inserted into the hole 1502 of the lock support portion 1230. That is, the lock coupling part 1224 is inserted into the hole 1500 of the lock part 1226 and the hole 1502 of the lock support part 1230.

The lock coupling part 1224 may be integrally formed with the body part 1220 from the time of manufacture, and the lock coupling part 1224 may be welded to the body part 1220 after each manufacture.

In addition, the lock coupling part 1224 may be formed of one member having a polygonal shape as shown in FIG. 13, and a plurality of members having the same shape may be formed by being coupled up and down. In this case, the lock engagement portion 1224 has a height sufficient to maintain the inserted state in the hole 1500 of the lock portion 1226 and the hole 1502 of the lock support portion 1230.

According to an embodiment of the present invention, the hole 1500 of the locking part 1226 has the same shape as the locking coupling part 1224, preferably a polygonal shape, as shown in FIG. 13, and the locking support part 1230. The hole 1502 may have a circular shape. That is, the lock engagement portion 1224 meshes with the lock portion 1226, so that when the lock engagement portion 1224 rotates according to the rotation of the head portion 1222, the lock portion 1226 is also shown in FIGS. 14A and 14. It rotates as shown in (B). As a result, the locking operation or unlocking operation of the manhole can be performed. Of course, the hole 1502 of the lock support portion 1230 may have the same polygonal shape as the lock coupling portion 1224.

According to an embodiment of the present invention, as shown in FIG. 14, recesses of small sizes are formed in corner portions of the hole 1500 of the locking portion 1226, and corners of the locking coupling portion 1224 are formed in the recess portion. Can be inserted into the furnace. Of course, the corners of the lock engagement portion 1224 will have to protrude further so that it can be inserted into the recesses of the lock portion 1226. As a result, the lock coupling part 1224 may be freely movable in the up and down direction in the hole 1500, but may be more closely coupled to the locking part 1226.

The locking part 1226 is formed in a direction intersecting with the body part 1220, preferably in a direction orthogonal to each other, and performs a function of locking the manhole. For example, when the locking part 1226 is positioned below the first height variable support part 332 of the height adjusting manhole frame 312, the manhole is locked. According to one embodiment of the present invention, a lower portion 1310 may be formed at the lower portion of the first variable height support 332, and a protrusion 1240 may be formed at the end of the locking portion 1226. In this case, the manhole may be stably locked by inserting the protrusion 1240 of the locking part 1226 into the recess 1310 of the first height variable support 332 of the height adjusting manhole frame 312.

When releasing the locking state of the manhole, the locking part 1226 is rotated so that the locking part 1226 is separated from the recess 1310 of the first height variable support part 332, that is, the locking part 1226 is the first height. The lock state of the manhole is released when the main body 1310 of the variable support 332 is released. Detailed descriptions of the locking operation and the unlocking operation will be provided later.

The head support 1228 serves to support the head portion 1222 as shown in FIG. 12, and has a larger radius than the head portion 1222. For example, a hole may be formed in the head support 1228, a body part 1220 may be inserted into the hole of the head support 1228, and the head part 1222 may be formed on the head support 1228.

The head support 1228 may be supported by the second elastic member 1234.

The lock support part 1230 supports the lock part 1226 as shown in FIGS. 12 and 14. According to one embodiment of the invention, the locking support 1230 is coupled to the portion 1250 protruding from the inner side of the outer lid 302, as shown in Figure 12, that is fixed to the outer lid 302 Supported. For example, holes may be formed at four corners of the lock support part 1230, and a bolt or the like may be inserted into the outer cover 302 through the hole to fix the lock support part 1230 to the outer cover 302. . As a result, the lock 1226 can be stably supported by the lock support 1230.

The first elastic member 1232 is fastened to the body portion 1220 as a spring, for example. According to one embodiment of the invention, the upper end of the first elastic member 1232 is in contact with the lower surface of the head support 1228, the lower end is placed on the upper surface of the lock coupling portion 1224. That is, the first elastic member 1232 is positioned between the head support 1228 and the lock engagement portion 1224. As described below, the first elastic member 1232 may also restore the locking device 1206 protruding to the outside of the outer lid 302 to its original state. Specifically, when the first elastic member 1232 raises the head portion 1222, the body portion 1220, and the lock engagement portion 1224 in the opposite direction of gravity using the first locking state change mechanism 1300. When the first lock state change mechanism 1300 is deflated and separated from the head portion 1222, the head portion 1222, the body portion 1220, and the lock engagement portion 1224 are restrained by the restoring force as shown in FIG. 12. Restore it to its original state.

The second elastic member 1234 has a diameter larger than the first elastic member 1232 as a spring, for example. According to one embodiment of the invention, the second elastic member 1234 is arranged between the head support 1228 and the locking portion 1226. In this case, since the second elastic member 1234 is supported by the locking part 1226, the head support part 1228 is supported by the second elastic member 1234 so that the head support part 1228 is attached to the outer lid 302. The head portion 1222 may be supported while being held in the hole of the outer lid 302 without being fixed.

According to another embodiment of the present invention, although not shown, only the first elastic member 1232 may be formed in the body portion 1220 without the second elastic member 1234. However, since the head support 1228 is to be supported, a recess, not a hole, is formed in the lock support 1230 to support the lock coupling part 1224, and as a result, the head support 1228 is the lock coupling part 1224. It may be supported by the first elastic member 1232 overlying.

As shown in FIG. 15, the third elastic member 1510 is inserted into the recess 1304 formed in the head portion 1222, the body portion 1220, and the lock engagement portion 1224, and the first locking state changing mechanism ( An elastic force is applied to the 1300 to assist the first locking state change mechanism 1300 to easily detach from the recess 1304. However, since the first locking state changing mechanism 1300 may be detached even when the third elastic member 1510 does not exist, the third elastic member 1510 may not exist.

Hereinafter, the operation of the locking device 1206 will be described with reference to FIGS. 12 to 17.

As shown in FIG. 12, when the manhole is to be locked while the manhole is locked, the manager may form a first locking state changing mechanism 1300 as shown in FIG. 16 on the upper surface of the head portion 1222. It is inserted into the recess 1304 to fix it, and then the first locking state change mechanism 1300 is pulled in the opposite direction of gravity to move the locking device 1206 upward as shown in FIG. In this case, only the head portion 1222, the body portion 1220, and the lock engagement portion 1224 of the components of the locking device 1206 are moved upwards, and the head portion 1222 is connected to the lid 302. Exposed to the outside.

However, the lock coupling part 1224 maintains the inserted state in the hole 1500 of the lock part 1226 even if it moves. That is, the lock coupling part 1224 is maintained in the hole 1500 although there is a change in position in the hole 1500 of the locking part 1226 when releasing the locking state of the manhole. This is to rotate the lock portion 1226 by rotating the head portion 1222 even when the locking device 1206 is pulled upward. Here, the hole 1500 and the locking coupling portion 1224 of the locking portion 1226 may have a polygonal shape, preferably a pentagonal shape or more to facilitate the rotation of the locking portion 1226. Of course, the hole 1500 and the lock coupling portion 1224 of the locking portion 1226 has the same shape.

Subsequently, the manager rotates the head portion 1222 using the first locking state change mechanism 1302 in a state where the locking device 1206 is protruded as shown in FIG. 13. As a result, as the locking part 1226 rotates, the protrusion 1240 of the locking part 1226 is separated from the recess 1310 of the first height variable support part 332 to release the locked state of the manhole.

In summary, the manager uses the first locking state changing mechanism 1302 in a state in which the locking device 1206 is pulled in the opposite direction of gravity (upper direction) using the first locking state changing mechanism 1300, and the head portion ( 1222) to unlock the manhole.

On the other hand, when the administrator detaches the first locking state changing mechanism 1300 from the locking device 1206, the locking device 1206 is returned to its original state as shown in FIG. 12 by the restoring force of the first elastic member 1232. It is restored automatically.

That is, only an administrator who has both the first lock state change mechanism 1300 and the first lock state change mechanism 1302 can release the lock state of the manhole, and locks the first lock state change mechanism 1300. The simple act of releasing from 1206 can restore the lock 1206 to its original state.

Of course, when the manhole is to be locked again, the first locking state changing mechanism 1300 raises the locking device 1206 in the direction opposite to gravity, and then the head portion 1222 is moved by the first locking state changing mechanism 1302. The manhole may be changed back into the locked state by rotating.

In other words, a person who does not possess both the lock state change mechanisms 1300 and 1302 cannot arbitrarily change the lock state of the manhole, that is, cannot release the lock state of the manhole arbitrarily. In particular, since the lock state change mechanisms 1300 and 1302 are manufactured in a special shape and stored only by the administrator, others cannot easily manufacture the lock state change mechanisms 1300 and 1302 and use the existing open device. The manhole of the present invention cannot be opened. Therefore, the manager can safely protect the manhole and the cable inside the manhole.

Hereinafter, the structures and operations of the first locked state changing mechanism 1300 and the first locked state changing mechanism 1302 will be described with reference to FIGS. 16 and 17.

Referring to Fig. 16A, the first locking state change mechanism 1300 of the present embodiment includes a body 1600, a state change portion 1602, and a handle portion 1604.

The body 1600 is a portion inserted into the recess portion 1304 formed through the head portion 1222, the body portion 1220 and the lock coupling portion 1224, the thread 1614 is formed on the outer surface of the body 1600 And the end portion 1612 of the body 1600 has a wider width than the other portion. Of course, the width of the end portion 1612 of the body 1600 has a length smaller than the diameter of the recess 1304, the thread may not be formed on the outer surface of the end portion 1612.

The state change unit 1602 is a member fastened over the body 1600, as shown in FIG. 16B, through which a hole 1640 is formed, and at its lower portion 1620, at least cut out from the end. One incision 1622 is formed. Looking at the body 1600, the body 1600 is inserted into the hole 1640 of the state change unit 1602.

Handle portion 1604 is made of a structure that can be grasped by a human hand, and includes a receiving portion 1630 and the handle (1632).

A hole 1641 is formed on a lower surface of the accommodating part 1630, and the accommodating part 1630 accommodates an upper portion of the body 1600. That is, the upper portion of the body 1600 is inserted into the receiving portion 1630 as shown in Figure 16 (B). According to the exemplary embodiment of the present invention, a thread corresponding to the thread 1614 of the body 1600 is formed on the inner surface of the accommodating part 1630, and thus, when the handle part 1604 is rotated, the handle part 1604 is formed. It is moved up and down in a state coupled to the body 1600.

The handle 1632 is formed at the upper end of the receiving portion 1630, and may have a circular shape so as to be easily gripped by a person.

The structure and operation of the first locking state change mechanism 1300 having such a structure will be described.

The state change unit 1602 is fastened to the body 1600 and the upper end portion of the body 1600 is inserted into the hole 1644 of the handle portion 1604, so that the first locking state change mechanism 1300 is shown in FIG. It has a structure shown in 16 (B). However, the state change unit 1602 is not arranged over the end portion 1612 of the body 1600.

Subsequently, rotating the handle 1604 causes the handle 1604 to move up and down on the body 1600 as shown in FIG. 16C. In particular, when the handle portion 1604 moves in the lower direction (gravity direction) of the body 1600, the receiving portion 1630 of the handle portion 1604 exerts a force on the state change portion 1602, as a result of FIG. As shown in C), the state change unit 1602 moves downward on the body 1600. Preferably, as the incision 1622 opens, the lower portion 1620 of the state change unit 1602 rises above the termination portion 1612 of the body 1600, resulting in a lower end portion of the state change unit 1602. Will be wider. As a result, the first locking state change mechanism 1300 is the body portion 1220 or the lock engagement portion 1224 in the recess 1304 formed in the head portion 1222, the body portion 1220 and the lock engagement portion 1224. It will be in close contact with the inner surface of the). Accordingly, when the manager pulls the first lock state change mechanism 1300 in the opposite direction of gravity, the head portion 1222, the body portion 1220, and the lock engagement portion 1224 are moved in the opposite direction of gravity as shown in FIG. 13. Will rise. In FIG. 17B, only a schematic coupling form is illustrated without omitting a screw thread.

According to another embodiment of the present invention, a hole may be formed through the head portion 1222, the body portion 1220, and the lock coupling portion 1224, and the first locking state changing mechanism 1300 is inserted into the hole. In close contact with each other to raise the head portion 1222, the body portion 1220, and the lock coupling portion 1224. Of course, in this case, the third elastic member 1510 will not be present.

Meanwhile, when the handle 1604 is rotated in the opposite direction while the head portion 1222, the body portion 1220, and the lock coupling portion 1224 are raised as shown in FIG. 13, the handle portion 1604 is rotated. It is moved upward in the body 1600. Here, when the manager pulls the state change unit 1602 in the upward direction, the first lock state change mechanism 1300 may have a structure shown in FIG. 16B, and may be separated from the head portion 1222. In this case, the head portion 1222, the body portion 1220, and the lock coupling portion 1224 are restored to their original states as shown in FIG. 12 due to the restoring force of the first elastic member 1232.

According to another embodiment of the present invention, the thread may not be formed on the outer surface of the body 1600 of the first locking state change mechanism 1300. Even in this case, when the handle 1604 is pushed downward, the state change unit 1602 may move downward on the body 1600 to have the structure illustrated in FIG. 16C.

The structure and operation of the second locked state change mechanism 1302 will now be described.

Referring to FIG. 17, the second locking state changing mechanism 1302 of this embodiment includes a handle portion 1700 and a rotating portion 1702.

The rotating part 1702 is connected to the handle part 1700 and may have a shape similar to that of the head part 1222. For example, when the head portion 1222 has a hexagonal shape, the rotating portion 1702 has a shape in which a part of the hexagonal shape is open. As a result, the rotating portion 1702 can surround the head portion 1222 to rotate the head portion 1222 to the left and right. Preferably, the second locking state changing mechanism 1302 is formed by protruding the head portion 1222, the body portion 1220, and the locking engagement portion 1224 upward by using the first locking state changing mechanism 1300. Rotate the head portion 1222 using.

According to another embodiment of the present invention, the support portion 1712 may be formed to extend from the lower longitudinal section of the rotating portion 1702. The support portion 1712 supports the head portion 1222 when the head portion 1222 is surrounded by the second locking state change mechanism 1302. As a result, even if the manager applies a force to rotate the head portion 1222, the second locking state change mechanism 1302 may not be arbitrarily released from the head portion 1222.

In summary, the manager uses the first lock state change mechanism 1300 to protrude the head portion 1222, the body portion 1220, and the lock engagement portion 1224 upward, and the second lock state change mechanism 1302. The head portion 1222 is rotated to lock or release the manhole. Of course, the first locking state changing mechanism 1300 pulls the head portion 1222, the body portion 1220, and the locking engagement portion 1224 upwards, and the second locking state changing mechanism 1302 is the head portion 1222. The locked state changing mechanisms 1300 and 1302 can be variously modified as long as it can rotate.

The embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art having ordinary knowledge of the present invention may make various modifications, changes, and additions within the spirit and scope of the present invention. Should be considered to be within the scope of the following claims.

100: manhole body 102: manhole cover
300: manhole body 302: manhole cover
304: block 310: manhole body
312: height adjustment manhole frame 314: height support
330: height variable body 332: first height variable support
334: second height variable support portion 400: height adjustment device
410: support member 412: height adjustment member
414: actuator 416: lifting member
420: height adjustment body 422: height adjustment support
800: height adjusting device 810: hydraulic cylinder
812: Actuator 814: height adjustment member
816: base 80: height adjustment body
822: height adjustment support 900: first opening
902: second opening 904: rotation axis
906: connecting portion 1010: elastic portion
1012: watertight aid 1014: departure prevention part
1220: body portion 1222: head portion
1224: locking engagement portion 1226: locking portion
1228: head support 1230: lock support
1232: first elastic member 1234: second elastic member
1240: protrusion 1300: first locking state change mechanism
1302: second locking state changing mechanism 1600: body
1602: state change section 1604: handle section
1622: incision 1700: handle
1702: rotating part

Claims (7)

In the method of installing a manhole whose height is variable,
Arranging a height adjusting manhole frame having a first height variable support on an inner side of the manhole body;
Installing a height adjusting device on the height adjusting manhole frame to move the height adjusting manhole frame in the direction of gravity or in the opposite direction of gravity; And
After adjusting the height of the height-adjustable manhole frame comprising the step of seating the outer lid coupled to the locking device on the first variable height support,
The locking device,
A body part inserted into the first hole of the cover lid;
A head portion formed at an upper end of the body portion;
A lock coupling portion formed at the lower end of the body portion; And
Includes a lock arranged in a direction crossing the lock coupling,
A second hole is formed in the lock portion, and the lock coupling portion is inserted into the second hole of the lock portion, and the head portion, the body portion, and the lock coupling portion are lifted in the opposite directions of gravity using a first lock state change mechanism. In the above state, by rotating the head portion with a second locking state changing mechanism, the locking state of the manhole is changed, and when the head portion, the body portion and the locking engagement portion are raised using the first locking state changing mechanism, How to install a manhole of variable height, characterized in that the head portion is exposed over the outer lid. The method of claim 1, wherein the manhole is provided.
Arranging a height support under the height adjusting manhole frame to support the height adjusting manhole frame when the manhole is adjusted to a desired height; And
After the height adjustment is completed further comprising the step of separating the height adjustment device from the manhole,
The height adjusting member of the height adjusting device adjusts the height of the height adjusting manhole frame while supporting the lower surface of the first height variable supporting part, and the outer lid is variable in height after the height adjusting device is separated. It is seated on the support, the height support has a plurality of height supporting members, the height supporting members are coupled through a method in which a protrusion formed on the upper surface of one height supporting member is inserted into a groove formed on the lower surface of the other height supporting member The method of installing a manhole having a variable height. The method of claim 1, wherein the first locking state change mechanism,
Body;
A state change unit coupled to the body; And
Including a handle portion fastened on the body,
A third hole is formed in the center of the state change portion, the body is inserted into the third hole, the lower end portion of the body has a wider width than the other portion, the handle portion is fastened to the upper portion of the body, The state change portion is located between the handle portion and the lower end portion of the body, the lower end portion of the state change portion is formed with at least one cut portion, the outer surface of the body and the inner surface of the handle portion is formed with threads respectively. The handle is moved up and down on the body when the handle is rotated, and a recess is formed through the head portion, the body portion, and the lock coupling portion of the locking device, and the handle portion forms the lower end of the body. The state change portion is the body as the incision is opened as it moves toward The first locking state changing mechanism is brought into close contact with the body portion of the locking device or the inside of the locking engagement portion as arranged above the wide bottom end portion, and the second locking state changing mechanism is positioned around the head portion. A method of installing a manhole of varying height, characterized in that for rotating the part. According to claim 1, wherein the height adjustment device,
A height adjusting member supporting the first height variable support;
A support member for supporting and fixing the height adjusting member and arranged in a direction perpendicular to the height adjusting member;
An actuator mounted on the ground;
Hydraulic cylinders; And
A lifting member moving in a direction of gravity or a direction opposite to gravity under control of the actuator and coupled to the support member,
According to the operation of the hydraulic cylinder, the lifting member of the actuator moves in the direction of gravity or in the opposite direction of gravity, the support member moves in the direction of gravity or in the opposite direction of gravity in accordance with the movement of the lifting member, and as the support member moves And moving the height adjusting manhole frame by moving the height adjusting member in a direction of gravity or in a direction opposite to gravity, and wherein the support member and the height adjusting member move together at the same time. According to claim 1, wherein the height adjustment device,
A height adjusting member supporting the first height variable support;
At least one actuator;
A support portion positioned on the block to support the height adjustment device; And
Including hydraulic cylinders,
The height adjusting member is inserted into the actuator, the height adjusting member is moved in the direction of gravity or in the opposite direction of gravity in accordance with the operation of the hydraulic cylinder, the height of the height adjusting manhole frame in the direction of gravity or the opposite direction of gravity How to install a manhole that is variable. The method of claim 1, wherein the locking device,
A head support for supporting the head;
A lock support part supporting the lock part in a state of being fixed to the manhole cover;
A first elastic member coupled to the body portion;
A second elastic member coupled to the body portion and having a diameter larger than that of the first elastic member; And
Further comprising a third elastic member is inserted into the main portion formed through the head portion, the body portion and the lock coupling portion,
The first elastic member is formed between the head support and the lock engagement portion, the second elastic member is formed between the head support and the lock portion, the width of the second elastic member is the first elastic member How to install a manhole of variable height, characterized in that the width of the wider. According to claim 1, wherein the height adjustment manhole frame further comprises a second height variable support and a third height variable support extending vertically from the height variable body,
The manhole,
An inner lid placed on the second variable height support of the height adjustable manhole frame;
A first elastic part arranged between the inner lid and the second variable height support part;
A third height variable support part of the height adjusting manhole frame extended from one end of the first sub watertight aid part and the first sub watertight aid part seated on the upper surface of the inner lid and positioned above the second height variable support part; A watertight aid having a second sub-watertight aid in contact with the bottom surface; And
Further comprising a separation prevention portion extending in the outward direction from the center and the central portion located in the central portion of the inner lid,
The first elastic portion is arranged in a structure surrounding the end of the inner lid as a whole, the watertight auxiliary portion has an "∠" shape as an elastic body, the central portion is fixed to the inner lid through a bolt coupling, the departure prevention portion It has a body connected to the central portion and the bent portion bent from the body, the bent portion of the separation prevention portion has a "C" shape and surrounds the second sub-watertight auxiliary portion, and the first sub-watertight auxiliary portion of the watertight auxiliary portion and And a portion of the second sub-tightness auxiliary portion is inserted into the body of the separation preventing portion.

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