KR20190113354A - Manhole Cover Assembly - Google Patents

Abstract

The present invention relates to a manhole cover assembly capable of being opened or closed by a worker without much power. The manhole cover assembly includes: manhole covers (100, 110); and support frames (200, 210) supporting the manhole covers (100, 110) from the bottom. Manhole cover sliding parts (101, 111) are formed in the lower part of the manhole covers (100, 110) along the circumference of the manhole covers (100, 110), but one part of the manhole cover sliding parts (101, 111) is thicker than the other part.

Description

Manhole Cover Assembly

The present invention relates to a manhole cover assembly, and more particularly to a manhole cover assembly that can be easily opened and closed without great force.

Manholes are installed underground to inspect or manage facilities such as water and sewage pipes, city gas pipes, communication facilities, and electrical facilities that are buried underground.

The manhole is formed in the doorway for the operator to enter and exit, the doorway is normally covered with a manhole cover for the safety of pedestrians or passing vehicles. Figure 1 (a) is a top view of a conventional manhole cover, Figure 1 (b) is a cross-sectional view taken along the line II in Figure 1 (a), typically a manhole frame (1) is installed around the entrance, the upper manhole A disk shaped manhole cover 3 is placed on the support jaw 2 formed on the inner circumferential surface of the frame.

 In order to enter the manhole, the operator must lift the manhole cover 3, and typically, a metal rod having a bent end is inserted into a hole formed in the manhole to lift in a vertical direction, or a handle ring 5 formed in the manhole cover 3. Pull the manhole cover 3 in the vertical direction.

By the way, the manhole cover is generally made of cast iron weight of 50 ~ 200 Kg, because the operator needs a large force to lift it vertically, the work efficiency is reduced. Furthermore, if there is an excessive amount of water flowing inside the manhole during a typhoon or heavy rainfall, water may flow back to the ground through the hole in the manhole. In this case, although a hole through which a fluid flows is formed in the conventional manhole cover 3, when the amount of water flowing back is high, the pressure inside the manhole is increased so that the manhole cover 3 itself can be released from the manhole hole. In order to prevent this, a hole in the manhole cover 3 may be made large, but when the hole is large, it may be difficult to make the size large enough due to problems such as safety of pedestrians.

Utility Model Registration No. 20-0267333 (Registration Announcement: 2002.03.09.) Patent Registration No. 10-1487767 (Registration Publication Date: 2015.01.30.)

The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to provide a manhole cover assembly that allows an operator to easily lift a manhole cover without great force. Furthermore, an object of the present invention is to provide a manhole cover assembly capable of reducing the pressure in the manhole even when water flows back in the manhole during a heavy rain, thereby preventing the manhole cover itself from escaping from the manhole.

The present invention provides a manhole cover assembly configured to allow an operator to easily lift a manhole cover without great force, the manhole cover assembly supporting the manhole cover (100, 110) and the manhole cover (100, 110) from the bottom (200, 210) Including, but the lower portion of the manhole cover (100,110) is formed along the circumference of the manhole cover (100,110) manhole cover sliding portion (101,111), the manhole cover sliding portion (101,111) is the thickness of the other part Since the manhole cover sliding parts 101 and 111 are formed to have a thickness larger than that of the manhole cover sliding parts 101 and 111, the manhole cover sliding parts 101 and 111 have first regions 107 and 117 which are the thickest parts and second regions 108 and 118 which are the thinnest areas. The support frames 200 and 210 may contact the lower surfaces of the manhole cover sliding parts 101 and 111 to support the manhole cover sliding parts 101 and 111. Since the support sliding parts 201 and 211 are formed in a shape corresponding to the hole lid sliding parts 101 and 111, the support sliding parts 201 and 211 may be formed with the third regions 207 and 217 which are the thickest parts of the support sliding parts 201 and 211. When the manhole cover (100,110) is rotated about the central axis of the manhole cover (100,110) itself, the manhole cover sliding portion (101,111) is the support sliding portion ( 201 and 211, and when the manhole is completely closed, the first regions 107 and 117 of the manhole cover sliding portions 101 and 111 are positioned at positions corresponding to the fourth regions 208 and 218 of the support sliding portions 201 and 211. When the manhole is fully opened, the first areas 107 and 117 of the manhole cover sliding parts 101 and 111 are placed at positions corresponding to the third areas 207 and 217 of the support sliding parts 201 and 211. All.

In addition, the first areas 107 and 117 and the second areas 108 and 118 of the manhole cover sliding parts 101 and 111 may be formed at 180 ° intervals or 90 ° with respect to the center of the manhole cover 100 and 110. have.

Inserting grooves 102 and 112 are formed in the first regions 107 and 117, and insertion protrusions 203 and 213 are formed in the third regions 207 and 217, and lower portions of the insertion protrusions 203 and 213 are supported by elastic bodies. The insertion protrusions 203 and 213 are inserted into the insertion grooves 102 and 112 when the first regions 107 and 117 of the manhole cover sliding portions 101 and 111 are positioned at positions corresponding to the third regions 208 and 218 of the support sliding portions 201 and 211. Is inserted into, the manhole cover (100, 110) is characterized in that it can be rotated by the insertion projections (203, 213) inserted into the insertion groove (102, 112) as the central axis of rotation.

In addition, the support frames 200 and 210 may further include side support parts 202 and 212 for supporting side surfaces of the manhole cover 100 and 110.

In addition, the manhole cover 100 is formed with a reverse flow opening and closing means 300, the reverse flow opening and closing means 300 can be prevented from excessively high water pressure in the manhole open when the water flow in the manhole is excessive. The reverse flow opening and closing means 300 includes a ring-shaped reverse flow opening and closing means frame 302 and a plurality of shell segments 301 hinged to an inner circumferential surface of the reverse flow opening and closing means frame 302, The shell segment 301 is supported by the shell segments 301 and the side parts adjacent to each other, and is upwardly around the hinged part in a state where the side parts of the shell segment 301 abut each other. Rotation is possible, but the downward movement is characterized in that impossible.

1 (a) and 1 (b) show the top and side surfaces of a conventional manhole cover assembly, respectively.
Figure 2 shows a manhole cover according to the first embodiment of the present invention, (a) is a perspective view from the upper side, (b) is a perspective view from the lower side, and (c) is a side view.
3 is a perspective view showing a support frame of the manhole cover assembly according to the first embodiment of the present invention.
4 illustrates a process of opening the manhole cover assembly according to the first embodiment of the present invention.
Figure 5 shows a manhole cover according to a second embodiment of the present invention, (a) is a perspective view from the upper side, (b) is a perspective view from the lower side, and (c) is a side view.
6 is a perspective view showing a support frame of the manhole cover assembly according to the second embodiment of the present invention.
7 illustrates a process of opening the manhole cover assembly according to the first embodiment of the present invention.
8 (a) and 8 (b) are perspective views of the manhole cover according to the third and fourth embodiments of the present invention, respectively.
9 is a perspective view showing a state in which the manhole cover according to the third embodiment of the present invention is opened by backflow.
10 is an exploded perspective view of a manhole cover according to a third embodiment of the present invention.
Figure 11 shows a modification of the manhole cover according to the first embodiment of the present invention, (a) is a perspective view from the upper side, (b) is a perspective view from the lower side, and (c) is a side view.

First Example

2 shows a manhole cover 100 according to a first embodiment of the invention. The upper surface of the manhole cover 100 is not different from the conventional manhole cover. However, the manhole cover sliding portion 101 is formed on the bottom surface of the manhole cover 100. When the manhole cover sliding portion 101 is viewed from the side, a thick portion and a thin portion are formed as shown in FIG. It can be seen that a slope is formed. Hereinafter, the thickest portion will be referred to as the first region 107 and the thinnest portion will be referred to as the second region 108.

 And as shown in Figure 2 (b) is the insertion groove 102 is formed in the thickest portion of the manhole lid sliding portion 101, which is a hole into which the insertion protrusion 203 which will be described later.

The upper surface of the manhole cover 100 shown in FIG. 2 is manufactured in a flat shape, but as shown in FIG. 11, the upper surface of the manhole cover may be formed in a curved surface. At this time, the manhole cover center portion, which is greatly affected by external force (load of vehicles and pedestrians), may have a larger thickness than the periphery of the manhole cover.

3 shows a support frame 200 according to the first embodiment, which is a structure for supporting the manhole cover 100 from the bottom, and is fixed to the manhole structure. The support frame 200 is formed at a lower portion of the manhole cover 100 to support the weight of the manhole cover 100 to support the weight of the manhole cover 100, and is formed in a shape to surround the support sliding 201 and the manhole cover 100. The side support 202 is configured to support the side of the manhole cover 100 to restrain movement during rotation.

The support sliding portion 201 is formed to be inclined in a form corresponding to the manhole cover sliding portion 101. The third region 207, which is the highest portion (the thickest portion) of the support sliding portion 201, has a side surface. It is formed to have almost the same height as the upper surface of the support portion 202.

Since the support sliding part 201 has an inclination corresponding to the manhole cover sliding part 101, the first area 107, which is the thickest part of the manhole cover sliding part 101 in the closed state, is supported by the support sliding part 201. It is located in the portion corresponding to the fourth region 208 which is the thinnest portion of.

An insertion protrusion 203 is formed in the third region 207, which is the thickest portion of the support sliding portion 201, and the support 205 formed at the lower end of the upper insertion protrusion 203 is supported by the compression spring 204. Since the insertion protrusion 203 is forced upward. By the way, since the support 205 of the insertion protrusion 203 is caught by the restraint part 206, the insertion protrusion 203 is prevented from sticking out. Therefore, the insertion protrusion 203 protrudes out of the support sliding portion 201 in a state in which no external force is applied, but when the external force is applied, the insertion protrusion 203 is positioned so that the top end thereof is at the level of the support sliding portion 201. The degree of protrusion is adjusted.

In the closed state, that is, the state in which the first region 107 of the manhole lid sliding portion 101 is positioned to correspond to the fourth region 208 of the support sliding portion 201 is pressed by the manhole lid sliding portion 101 so as to be inserted. The protrusion 203 hardly protrudes, but at the moment when the insertion groove 102 formed in the manhole cover 100 reaches a position corresponding to the insertion protrusion 203, that is, the first region 107 is the third region 207. The insertion protrusion 203 protrudes and is inserted into the insertion groove 102 at a moment corresponding to the position of the insertion protrusion 203, thereby providing a center of rotation in the movement of the manhole cover 100.

Figure 4 shows the opening and closing structure of the manhole cover structure according to the first embodiment of the present invention. As shown in the closed state, the manhole cover 100 is rotated 90 °, the manhole cover 100 is rotated 180 °, and the manhole cover 100 is rotated around the insertion projection 203 as , (a) is a perspective view of the above four states, (b) is a side view of the four states above, (c) is shown in the above four states with the side support 202 removed for convenience of explanation. will be.

When the manhole cover 100 is rotated in the clockwise direction in a manner such as inserting an “L” type rod into the hole of the manhole cover or grabbing a handle formed in the manhole, the manhole cover sliding part formed in the manhole cover 100 ( 101 slides in contact with the support sliding portion 201 formed in the support frame 200. Since the manhole cover sliding part 101 and the support sliding part 201 are inclined, when the manhole cover 100 is rotated about the central axis of the manhole cover 100 itself, the manhole cover 100 itself has a predetermined height. Is lifted up. When the manhole cover 100 rotates 180 °, the insertion groove 102 formed in the manhole cover 100 reaches a position where the insertion protrusion 203 attached to the support frame 200 is formed, and the insertion protrusion ( 203 is raised by the force of the spring 204 is inserted into the insertion groove (102).

Once the insertion protrusion 203 is inserted into the insertion groove 102, the manhole cover 100 is moved to the center of rotation of the upper insertion protrusion 203, the manhole cover in the form as shown in the fourth figure of FIG. 100 moves. Of course, one skilled in the art will understand that the closure of the manhole hole will be in the reverse order of the procedure described above.

In the first exemplary embodiment, the manhole cover 100 is moved in such a manner that the manhole cover sliding part 101 and the support sliding part 201 come into contact with each other and slide. However, in order to reduce frictional force, the manhole cover sliding part ( Rollers or balls may be formed on the bottom of 101 or rollers or balls may be formed on the top of the support sliding portion 201.

2nd Example

5 shows a manhole cover 110 according to a second embodiment. As in the first embodiment, the inclined manhole cover sliding part 111 is formed, and the insertion groove 112 is formed in the thickest part of the manhole cover sliding part 111.

However, unlike the first embodiment, the first region 117, which is the thickest part of the manhole cover sliding part 111, and the second region, which is the thinnest part, are disposed at a 90 ° interval from the center of the manhole cover 110. 118) is repeated, thereby forming the two thickest parts and the two thinnest parts.

6 shows a support frame 210 according to a second embodiment. Also, as in the first embodiment, since the support sliding part 211 is formed in a form corresponding to the manhole cover sliding part 111, the third area 217 which is the thickest area and the fourth area 208 which is the thinnest area. ) Will be created. An insertion protrusion 213 is formed in the third region 217, which is the thickest portion of the support sliding portion 211. Since the structure and function of the insertion protrusion 213 are not different from the insertion protrusion 203 of the first embodiment, a detailed description thereof will be omitted.

Figure 7 shows the opening and closing structure of the manhole cover structure according to the second embodiment of the present invention. The three horizontally arranged views are shown in a closed state, a state in which the manhole cover 110 is rotated by 90 °, and a state in which the manhole cover 110 is rotated about the insertion protrusion 213, (a) Is a perspective view of the above four states, (b) is a side view of the above four states.

In the first embodiment, the opening of the manhole cover 100 is performed in a state in which the manhole cover 100 is rotated 180 °, whereas in the second embodiment, the opening of the manhole cover 101 is 90 ° in the manhole cover 101. It is made in a rotated state.

As described above, it can be seen that the rotation angle for opening the manhole cover can be changed by changing the period in which the thickest and thinnest portions of the manhole cover sliding parts 101 and 111 and the support sliding parts 201 and 211 are formed. However, by shortening the above cycle will be able to rotate the manhole cover only a little, but the rotation requires a large amount of force.

The third Example

8 illustrates a manhole cover according to a third embodiment of the present invention. Specifically, FIG. 8 (a) illustrates a configuration in which the opening and closing means 300 for backflow is provided in the manhole cover according to the first embodiment. (b) shows a configuration in which the opening and closing means for back flow 300 is provided in the manhole cover according to the second embodiment.

The reverse flow opening / closing means 300 is a means for discharging the reverse flow to the outside of the manhole in order to prevent the manhole cover itself from being thrown out by the water pressure in the manhole when excessive water is present in the manhole due to a heavy rain or the like. The reverse flow opening and closing means 300 has a shell structure in which the shell structure is divided, and an embodiment in which four shell segments 301 are formed in contact with each other is illustrated, but the number thereof is not particularly limited. .

9 illustrates a state in which the shell segment 301 of the opening / closing means 300 is lifted by the reverse flow. When the shell segment 301 is lifted by the hydraulic pressure in the manhole, a backflow is discharged to the outside of the manhole while space is generated between the shell segments 301 which are in contact with each other, and the shell segments adjacent to each other when the hydraulic pressure is lowered. 301 is closed by contacting each other.

Looking specifically at the opening and closing means 300 for the back flow with reference to Figure 10, the hinge sphere 303 is rigidly coupled to one side of the plurality of shell segments 301, the hinge 303 is the opening and closing means frame for the back flow It is inserted into the hinge insertion hole 304 formed in 302. And when the restraining ring 305 is coupled to the opening and closing means frame 302 for the reverse flow by the fixing bolt 306, the shell segment 301 can move upward by a predetermined angle, but can not move downward This operation can be easily understood in view of the fact that the plurality of shell segments 301 form a shell structure in contact with each other. In the embodiment of FIG. 10, the hinge sphere 303 is formed in a spherical shape, but it will be apparent to those skilled in the art that any shape that can serve as a hinge may be possible.

100, 110: manhole cover 101, 111: manhole cover sliding portion
102, 112: Insertion groove 107, 117: First area
108,118: second area 200,210: support frame
201,211: support sliding part 202,212: side support part
203, 213: insertion protrusion 204: compression spring
205: support 206: restraint part
207,217: third region 208,218: fourth region
300: opening and closing means for the back flow 301: shell segment
302: opening and closing means frame for the back flow 303: hinge
304: hinge insertion hole 305: restraining ring
306: fixing bolt

Claims (8)

Including a manhole cover (100,110) and the support frame (200,210) for supporting the manhole cover (100,110) from the bottom,
The manhole cover sliding parts 101 and 111 are formed along the circumference of the manhole cover 100 and 110, and the manhole cover sliding parts 101 and 111 have a thickness greater than that of other parts. By being formed, the manhole cover sliding parts 101 and 111 have first regions 107 and 117 which are the thickest portions in the manhole cover sliding parts 101 and 111 and second regions 108 and 118 which are the thinnest areas.
The support frames 200 and 210 support sliding in a shape corresponding to the manhole cover sliding parts 101 and 111 so as to contact the lower surfaces of the manhole cover sliding parts 101 and 111 to support the manhole cover sliding parts 101 and 111. As the parts 201 and 211 are formed, the support sliding parts 201 and 211 may have the third areas 207 and 217 which are the thickest parts of the support sliding parts 201 and 211 and the fourth areas 208 and 218 which are the thinnest areas. ,
When the manhole cover 100, 110 is rotated about the central axis of the manhole cover 100, 110 itself, the manhole cover sliding parts 101 and 111 may slide along the support sliding parts 201 and 211.
When the manhole is completely closed, the first areas 107 and 117 of the manhole cover sliding parts 101 and 111 are positioned at positions corresponding to the fourth areas 208 and 218 of the support sliding parts 201 and 211. And a first region (107,117) of the lid sliding portion (101,111) is placed in a position corresponding to the third region (207,217) of the support sliding portion (201,211).
The method according to claim 1, wherein the first region (107, 117) and the second region (108, 118) of the manhole cover sliding portion (101, 111) is characterized in that formed at intervals of 180 ° relative to the center of the manhole cover (100, 110), Manhole cover assembly.
The method according to claim 1, wherein the first region (107, 117) and the second region (108, 118) of the manhole cover sliding portion (101, 111) is characterized in that the 90 ° interval with respect to the center of the manhole cover (100, 110), Manhole cover assembly.
The method of claim 1, wherein the first region (107, 117) is formed with insertion grooves (102, 112), the third region (207, 217) is formed with insertion projections (203, 213), the insertion projections (203, 213) is the lower portion of the elastic body And a manhole cover assembly characterized in that it is supported by.
5. The insertion protrusions 203 and 213 of claim 4, wherein the insertion protrusions 203 and 213 are positioned when the first regions 107 and 117 of the manhole cover sliding portions 101 and 111 are positioned at positions corresponding to the third regions 208 and 218 of the support sliding portions 201 and 211. Inserted into the insertion groove (102, 112), the manhole cover assembly (100, 110) is a manhole cover assembly, characterized in that the rotation of the insertion projection (203, 213) inserted into the insertion groove (102, 112) as a central axis of rotation.
The manhole cover assembly of claim 1, wherein the support frame (200, 210) further includes side supports (202, 212) that support the sides of the manhole cover (100, 110).
The method of claim 1, wherein the manhole cover 100 is formed with a back flow opening and closing means 300, the back flow opening and closing means 300 is opened when the water in the manhole is excessive to prevent excessively high water pressure in the manhole Manhole cover assembly, characterized in that.
The method of claim 6, wherein the reverse flow opening and closing means 300 is a ring-shaped flow opening and closing means frame 302 and a plurality of shell segments 301 hinged to the inner peripheral surface of the reverse flow opening and closing means frame 302 Including,
The shell segment 301 is supported by the shell segments 301 and the side portions adjacent to each other, and the hinge segments are formed in the state where the side portions of the shell segment 301 are supported by the mutual contact. The manhole cover assembly, characterized in that rotation is possible upward, but downward rotation is impossible.

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