KR200440352Y1 - Prefabricated manhole - Google Patents

Abstract

The present invention relates to a prefabricated manhole block structure, and more preferably, when assembling and constructing a plurality of separated concrete pipes to be adjusted to the height of the manhole, sewage inside the manhole flows into the ground by the connection of the pipes to be assembled To maintain the watertightness to prevent the inflow of the groundwater or the groundwater into the manhole, and to apply the adhesive to the protrusions and indentations joining the joints with concavities and convexities so that a plurality of stacked and assembled concrete tubes do not flow from side to side to each other After that, the rhombus is inserted to increase the bonding force so that the upper and lower bodies and the rhombus are bonded and integrated.

The constitution includes a lower tube 20 to which the drain pipe 10 through which sewage flows, a connecting tube 30 stacked in plurality in accordance with a required height to the upper portion of the lower tube 20, and the connecting tube ( In the manhole structure, which is formed on the upper portion of the 30 and includes an upper tube 40 formed with an opening and closing hole 41 so that an operator can enter and exit, the connecting portion upper surface 21 of the stacked tube bodies 20, 30, and 40. , 31 and the lower surfaces 41 and 41, the protrusions 32 and 42 and the recesses 22 and 33 are formed in a trapezoidal shape, and the protrusions 32 and 42 and the recesses 22 and 33 are formed. In the center, the inclined surfaces are formed on both sides to form triangular grooves 221, 321, 331, and 421, each of which has an end face, and a rhombus with both ends faced in the grooves 221, 321, 331, and 421. 50) provides a prefabricated manhole block structure, characterized in that configured to be integrally assembled by inserting.

Manhole Structure, Pipe, Rhombus, Water Leakage Ring

Description

Prefabricated Manhole Block Structures {PREFABRICATED MANHOLE}

1, 2, and 3 are cross-sectional views showing a conventional manhole structure.

Figure 4 is an exploded perspective view showing a state in which the prefabricated manhole block structure of the present invention is stacked.

Figure 5 is an enlarged cross-sectional view of an enlarged portion of the prefabricated manhole block structure of the present invention is stacked.

* Explanation of symbols on the main parts of the drawings

10. Drain pipe 20, 30, 40, pipe

50. Rhombus 60, 70. Water leak ring

The present invention relates to a prefabricated manhole block structure, and more preferably, when assembling and constructing a plurality of separated concrete pipes to be adjusted to the height of the manhole, sewage inside the manhole flows into the ground by the connection of the pipes to be assembled To prevent water from flowing into the manhole or to prevent groundwater from flowing into the manhole, and at the same time, adhesives are applied to the protrusions and indentations joining the joints with concavities and convexities so that a plurality of stacked concrete tubes can be fixed without flowing from side to side. After coating, the rhombus is inserted to increase the bonding force so that the upper and lower tubes and the rhombus are bonded and integrated.

Generally, manholes are holes made by humans to inspect, connect, repair, or clean underground water pipes, sewer pipes, wiring, underground communication cables, and pavements buried underground. The point where the thickness or direction of the pipe changes and the long pipe are installed at a certain distance. The inlet is usually covered by a lid, which is formed of metal or concrete. The manholes are often circular, sometimes rectangular or oval.

In particular, in the case of sewage pipes used in addition to inspection, sewage is collected through inflow pipes to induce drainage to a predetermined direction of drain pipes or to remove unnecessarily accumulated foreign substances to help water flow smoothly and to prevent corruption by ventilation and ventilation in drain pipes. Used for the purpose.

As shown in Figure 1, the manhole for sewage pipes, the lower pipe 100 is connected to the drain pipe 130, the sewage flowing through, and a plurality of connection pipes are installed in accordance with the required height to the upper portion of the lower pipe 100 ( 110, and the upper tube 120 is formed on the upper portion of the connecting tube 110, the opening and closing 121 is formed so that the operator can enter.

The manhole having such a configuration should be kept airtight at the joints of the pipes 100, 110, and 120 because of high pressure applied by sewage, etc., but due to the large load of the concrete manhole structure and its inability to form, Since it is difficult to mold each tube into a structure for connecting each tube, it is usually employed to attach a cement mortar 140 or the like by simply stacking a plurality of tubes without a special coupling means, depending on the load of concrete.

For this reason, when the physical force is applied to the stacked manhole side after the construction process or the completion of construction, the pipe bodies 100, 110, and 120 forming the concrete manhole are generated to be spaced apart from each other. It causes the discharge of sewage and pollutes the surrounding natural environment.

In order to prevent this, there is a "structure of prefabricated manhole tube for formwork combined use" of Korean Patent Publication No. 1996-9271, but this prior art requires a lot of manufacturing cost and labor by adopting a structure for fastening upper and lower tubes as bolts. There is a discontinuity.

In order to solve the closed end, as shown in Figure 2, the lower surface of the plurality of tubular bodies (200, 210, 220) are formed with projections (211, 222), the upper surface is formed with insertion grooves (201, 212) After connecting the connecting parts of the tubular body to be laminated by each other, the bracket 230 is mounted on the connecting portion of the outer surface and fixed to be integral with the fastener 231.

However, the plurality of concrete pipe connection parts are supported by fastening the bracket 230 and the fastener 231 to be integrally fixed, but it is also inconvenient to fit the protrusions 211 and 222 formed in the connection part in a rectangular or circular shape. In the case of fitting, the rigidity due to breakage of the end is inferior, and fine gaps are generated due to processing limitations, so that the watertightness could not be maintained.

Thus, as can be seen in the "manhole structure" disclosed in Utility Model Registration No. 333762 of Figure 3, the packing 330 to prevent leakage and leakage in the connection to the plurality of concrete pipes 300, 310, 320 are laminated ) To maintain watertightness. However, the packing 330 is fixed by the load of the concrete manhole structure has a problem that the connection is broken by the high pressure generated in the case of the sewage pipe, and each concrete pipe (300, 310, 320) Although a method of drilling a plurality of through holes up and down concentrically and stacking the same through holes to insert the reinforcing bars 340 into the through holes of the plurality of structures, filling them with cement mortar, the load of the structure constituting the manhole is Due to the size of the concrete pipe (300, 310, 320) by moving the work to match the through hole is not easy, there was a problem such as longer working time in actual work.

The present invention was created in order to solve the above closed end, the rhombus-shaped groove in which a triangular shape is respectively coupled to the protrusion and the indentation to the center of the connection surface of the upper and lower surfaces in which a plurality of pipes forming the concrete manhole are stacked. By inserting a rhombus key to the purpose of increasing the coupling force so as not to flow from side to side by integrally fixing the connection between the tube and the tube.

In other words, the upper and lower surfaces are divided into two, respectively, to form a rhombic groove in the center of the connecting portion in which a plurality of concrete pipes are stacked. The surface treatment (shawl) allows the grooves formed on the protrusions to be naturally inserted along the inclined surfaces formed on both sides of the rhombus when the pipes are laminated, so that the upper and lower pipes can be assembled smoothly, and the outside of the left and right sides is smooth. It is to be united to unite to be protected from the force acting on.

In addition, the present invention by applying an adhesive to the outer peripheral surface of the protrusions and indentations of the upper and lower pipes in contact with the rhombus connecting the pipes to be laminated, so that the upper, lower pipes and rhombuses are integrally combined to prevent separation of the ground It is intended to be integrally fixed without.

In addition, the present invention is formed by inserting the inner and outer leakage preventing ring by forming the insertion groove in the upper surface of the tube and the lower surface of the tube to both sides into which the rhombus is inserted when stacking a plurality of concrete pipes, through the connecting portion inside the tube The purpose is to prevent the sewage outflow or groundwater flow into the pipe.

Referring to the configuration of the subject innovation having the above object based on the accompanying drawings as follows.

The present invention, as shown in Figures 4 and 5, the lower pipe body 20 is connected to the drain pipe 10, the sewage flowing through, and the connecting pipe body stacked in plurality in accordance with the required height to the upper portion of the lower pipe body 20 30, the upper tube 40 is laminated on the upper portion of the connecting tube 30, the opening and closing port 41 is formed so that the operator can enter and exit,

Protruding portions 32 and 42 and recesses 22 and 33 formed in a trapezoidal shape in the centers of the upper and upper surfaces 21 and 31 and the lower surfaces 41 and 41 of the tubular bodies 20, 30, and 40 are stacked. ,

A plurality of triangular grooves 221, 321, 331, and 421 formed in the centers of the protrusions 32 and 42 and the recesses 22 and 33, respectively, by forming inclined surfaces on both sides thereof and having end faces thereof;

A plurality of rhombuses 50 whose both ends are face-treated so as to be inserted into the grooves 221, 321, 331, and 421,

The tubular body and the rhombic key which are laminated by applying the adhesive 51 to the outer circumferential surfaces of the protrusions 32 and 42 and the concave inlets 22 and 33 which are in contact with the rhombus 50 are configured to be integrally coupled to each other. A prefabricated manhole block structure is provided.

In addition, the present invention is the projections 32 and 42 and the concave portion 22 of the upper surface (21, 31) and the lower surface (31, 41) of the connecting portion connecting the laminated concrete tube (20, 30, 40) 33, insertion grooves 61, 62 (71, 72) in the upper surface (21, 31) and the lower surface (31, 41), respectively, to insert the inner and outer leakage preventing rings (60, 70) on both sides It provides a prefabricated manhole block structure, characterized in that formed.
In the following description of the present invention, the "a plurality of triangular grooves (221, 321, 331, 421) end face is formed by forming the inclined surface to both sides, respectively" is "triangular grooves (221, 321, 331, 421) ", And a plurality of rhombus 50, both ends faceted so that the end is inserted into the faceted triangular groove (221, 321, 331, 421) will be referred to as abbreviated" rhombus key (50) " do.
In addition, the rhombus 50 of the present invention provides a prefabricated manhole block structure, characterized in that made of synthetic resin or metal.

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In addition, the present invention provides a prefabricated manhole block structure, characterized in that the inner and outer leakage preventing rings (60, 70) is formed of ethylene propylene rubber (EPDM).

Hereinafter, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

Figure 4 shows the configuration of the manhole structure of the present invention, the upper tube 40, the lower tube 20, the connecting tube 30 and the rhombus 50 inserted into the connecting portion of the tube (20, 30, 40) And is a separate cross-sectional view showing the inner and outer leakage preventing rings (60, 70) separated, Figure 5 is an enlarged cross-sectional view of an enlarged portion of the pipe body of the present invention is laminated.

The manhole structure of the present invention is the upper portion of the lower pipe body 20 is connected to the drain pipe 10 is a sewage flow, and the upper part formed the opening and closing port 41 for the operator to enter and check for cleaning or the inside of the pipe body The tube 40 is molded. And in order to match the height of the manhole is formed a connecting tube 30 stacked between the lower tube 20 and the upper tube (40). Assembling the plurality of tubular bodies 20, 30, 40 is a manhole structure construction.

By inserting a plurality of rhombus keys 50 into the connecting portions of the tubular bodies 20, 30, and 40 in order to enhance the coupling force to the connecting portion of the manhole structure to which the plurality of tubular bodies 20, 30, and 40 are stacked and connected. It prevents the flow of the left and right, and the tubular body (20, 30, 40) to be laminated by applying the adhesive 51 to the outer peripheral surface of the rhombus 50 is adhered to the upper and lower closely so as not to be separated up and down when ground subsidence It is to be combined integrally. In addition, in order to enhance watertightness, the inner and outer leakage preventing rings 60 and 70 are inserted into both sides of the protrusions 32 and 42 into which the rhombus 50 is inserted and the recesses 22 and 33.

In this way, as shown in FIG. 5 so that the rhombus 50 can be mounted in order to enhance the bonding force of the plurality of laminated concrete tubes 20, 30, 40, the lower surfaces of the laminated tubes 30, 40 ( 31 and 41 are formed with projections 33 and 43 in the center. At this time, in order to prevent breakage of the protrusions 33 and 43 at the time of coupling, both sides of the protrusions 32 and 42 are formed to have a narrow inclined surface, and the end of the inclined surface is formed of a trapezoid having a horizontal surface. In addition, the upper surface (21, 31) of the lower tube body (20, 30) to be inserted into the protrusions (32, 42) is narrower toward the bottom in the same shape as the protrusions (32, 42) The inclined surface is formed and the end forms trapezoidal recesses 22 and 33 which have a horizontal surface.

Therefore, trapezoidal recesses 22 and 33 formed on the upper surfaces 21 and 31 of the plurality of tubular bodies 20 and 30 are formed on the lower surfaces 31 and 41 of the plurality of tubular bodies 30 and 40 that are stacked. The protrusions 32 and 42 are inserted. In this case, a plurality of rhombus keys 50 may be inserted into the protrusions 32 and 42 and the indents 22 and 33 so as to integrally fix the stacked tubes 20, 30 and 40 so as not to flow by external pressure. To help. The rhombus 50 is preferably inserted four in all directions.

In order to stack the plurality of tubular bodies 20, 30, and 40 in this manner, the protrusions 32, 42 and the recesses 22, 33 are connected to the vertices of the rhombus, respectively, so that the inclined surfaces are formed at both sides. Four grooves 221, 321, 331, and 421 of triangular equal divisions are formed in all directions. At this time, the end edge of the triangle is treated with an inclined surface to prevent wear and damage.

In addition, the rhombus 50 for firmly fixing the plurality of tubular bodies 20, 30, and 40 respectively inserted and stacked into the triangular grooves 221, 321, 331, and 421, respectively, is also upper and lower. Inclined surface is formed on both sides so that the width becomes narrower, and the corner portion is sloped to prevent the upper and lower edge portions from being damaged. At this time, the corner key 50 is formed of durable synthetic resin or metal to withstand the external pressure (lateral pressure of the ground) of the left and right to prevent damage.

In addition, the tubular body (20, 30, 40) is laminated by applying the adhesive 51 to the outer peripheral surface of the protrusions 32, 42 and the concave portions (22, 33) of the upper tube, the lower tube in contact with the rhombus 50 And the rhombus 50 are bonded to each other to be integrally coupled so that they do not separate up and down during ground subsidence so that a gap does not occur in the connection portion.

And the projections 32, 42 and the concave portion 22 inserting the rhombus 50 in order to prevent the dirt stored in the inside of the plurality of the tubular body (20, 30, 40) to be stacked into the ground outside , 33 to form the insertion groove (61, 62) into the inner leakage preventing ring (60). On the contrary, the projections 32 and 42 and the concave in which the rhombus 50 is inserted in order to prevent the groundwater from being introduced into the ground through the connection of the plurality of pipes 20, 30 and 40 are stacked. The outer leakage preventing ring 70 is inserted to form another groove 71 or 72 to the outside of the 22 and 33. At this time, the shape of the leak prevention ring (60, 70) is included if it is a shape that can prevent the leak in a circular or square.

The inner (outside) leakage preventing rings 60 and 70 block the outflow and inflow of dirt or groundwater from the inside or the outside, respectively, by connecting portions of the plurality of pipe bodies 20, 30, and 40 stacked in this way. In addition, the leakage is prevented from the protrusions, the indentations, and the rhombus 50, which improves the coupling force of the upper, lower, left, and right sides of the tubular body 20, 30, and 40, and the outer (inner) leakage is again performed. Preventing rings (70, 60) is blocked three times to maintain the watertight.

Referring to the embodiment of the construction method of the manhole structure of the present invention as described above, first, the trench in the position to install the manhole. The lower tube 20 is installed to install a lower tube 20 connecting the drain pipe 10 after the excavation, and to stack a plurality of connecting tubes 30 to fit the height of the manhole to the upper portion of the lower tube 20. The inner leakage preventing ring 60 and the outer leakage preventing ring in the insertion grooves 61 and 71 formed in the inner and outer portions of the concave portion 22 into which the protrusion 32 can be inserted into the upper surface 21 of the 20. After inserting the 70, the rhombus 50 is inserted into the triangular groove 221 formed in the recess 22. At this time, before inserting the rhombus 51, the adhesive 51 is applied to the outer circumferential surface of the projecting portion 32 of the connecting tube 30 laminated with the outer circumferential surface of the concave inlet 20.

Then, the connecting tube 30 is stacked above the lower tube 20. At this time, when the connecting pipe 30 is stacked above the lower pipe 20, the groove 321 of the protrusion 32 formed on the lower surface 31 of the connecting pipe 20 is in contact with the inclined surface of the rhombus 50 At this time, when the center is located and seated, the lower tube 20 and the connecting tube 30 as well as the rhombus 50 are attached to each other in close contact with each other, and formed on both sides of the protrusions 32 by the adhesive agent 51. The insertion grooves 62 and 72 are also stacked while being inserted into the inner leakage preventing ring 60 and the outer leakage preventing ring 70.

The upper tube 40 is seated above the connecting tube 30 again in the same manner as described above. At this time, the inner leakage prevention ring 60 in the insertion grooves 61 and 71 formed in the inner and outer sides of the concave indentation portion 33, which can also insert the protrusion 42 into the upper surface 31 of the connecting pipe 30. After and the outer leakage preventing ring 70 is inserted, the rhombus 50 is inserted into the triangular groove 331 formed in the concave inlet (33). This also applies the adhesive 51 to the protrusion part 42 and the indentation part 33 in advance.

The upper tube 40 is then stacked over the connecting tube 30. When the upper tube 40 is stacked above the connecting tube 30, the groove 421 of the protrusion 42 formed in the lower surface 41 of the upper tube 40 contacts the inclined surface of the rhombus 50. At this time, when the center is located to be seated, the connecting pipe 30 and the upper pipe 40 as well as the rhombus 50 are integrally attached to each other in close contact with each other by the adhesive agent 51, and both sides of the protrusions 42. Insertion grooves (62, 72) formed in the inner leakage preventing ring (60) and the outer leakage preventing ring (70) while being inserted into the upper tube (40) over the connecting pipe 30, the manhole structure is constructed .

As discussed above, the present invention is equipped with a leakage preventing ring on the inner and outer parts of the concrete pipes stacked in accordance with the height of the manhole, respectively, the internal sewage and groundwater in the ground over the primary and secondary connections of the pipe By blocking the outflow or inflow through, it is possible to obtain the effect of increasing the watertightness to prevent environmental pollution.

Claims (4)

A lower tube connected to a drain pipe through which sewage flows, a connecting tube stacked in plural to suit the required height to the upper portion of the lower tube, and an upper tube formed on the upper portion of the connecting tube to open and close so that an operator can enter and exit. In the manhole structure consisting of, Protrusions and recesses formed in trapezoids in the centers of the upper and lower surfaces of the connection part of the pipe body; A plurality of triangular grooves formed at both ends of the protrusions and the concave indents by forming inclined surfaces on both sides thereof, respectively; A plurality of rhombuses whose both ends are face-treated so as to be inserted into the grooves; An adhesive applied to an outer circumferential surface of the protruding portion and the recessed portion in contact with the rhombus; Insertion grooves formed on both sides of the protrusions and the concave portions of the upper and lower surfaces of the connection part connecting the laminated concrete pipes; It is composed of the inner and outer leakage preventing ring is inserted into the insertion groove and molded of ethylene propylene rubber (EPDM), The prefabricated manhole block structure, characterized in that the tubular body and the rhombus laminated by applying an adhesive to the groove is in close contact and integrally coupled. delete The method of claim 1, The rhombus is a prefabricated manhole block structure, characterized in that made of synthetic resin or metal. delete

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