KR101180451B1 - A connecting block for pipe and constructing method using it - Google Patents

Abstract

PURPOSE: A concrete block for protecting a pipe and a pipe conduit construction method using the same are provided to protect pipes against external impact and to prevent water leakage at pipe connection parts. CONSTITUTION: A concrete block for protecting a pipe comprises a lower block(110), an upper block(120), a fastening member, a chamber, and a sealing material(210). The lower block is supported by the ground(300) and pipes are placed on the lower block. The upper block is fastened to the lower block to fix the pipes. The fastening member fastens the lower block and the upper block. The chamber is formed by a primary recessed groove of the lower block and a secondary recessed groove of the upper block. The sealing agent is injected to the chamber through an injection hole(126) of the upper block.

Description

Concrete block for pipe protection and construction method using the same {A connecting block for pipe and constructing method using it}

The present invention relates to a concrete block for protecting a pipe and a method for constructing a pipeline using the same, in particular, to prevent flow of a pipe by buoyancy in a soft ground and a place where water is accumulated, to prevent leakage at a pipe joint, and It relates to a concrete block for protecting the pipe to shorten the air and a pipeline construction method using the same.

In addition, the present invention relates to a concrete block for protecting the pipe to protect the pipe from the impact transmitted to the outside of the pipe due to the upper concentrated load, ground subsidence, etc. and a pipe construction method using the same.

In general, in order to bury circular pipes such as concrete fume pipes, PVC pipes, PE pipes, and cast iron pipes in the basement, first excavate the ground along the pipes in which the circular pipes are laid and form a base to have an appropriate gradient, and then place the circular pipes thereon. After connecting in a row, the circular pipe is installed through the work of laying the sand and sand on the bottom, left, right, and top of the circular pipe, so there is a problem in that it is difficult to meet the pipe height in the design drawing.

On the other hand, as another method, after forming a base layer, the method of pouring side concrete on the side surface of a base concrete and a circular pipe is widely known.

However, the general circular pipe construction method as described above has a problem in that the construction cost increases due to the increase in air cost and increase in material costs such as labor cost and formwork due to placing in two stages.

A pipeline method for solving this problem is disclosed in Korean Patent No. 1045861 and shown in FIGS. 1A, 1B, and 1C. This is to install the weight member 2 on the outer peripheral surface of the pipe (8) at regular intervals, so as to solve the problem of long air by placing the foundation concrete as a pipe support member in the conventional pipeline construction site.

However, such a pipeline method is manufactured by integrating the weight member 2 on the outer circumferential surface of the tube 8 to prevent the protection and leakage of the tube at the joint portion where the tube 8 and the tube 8 are connected. There is a problem in that a separate protective concrete for sealing the joint by installing the formwork (7) has to be poured.

On the other hand, the tube holder 1 disclosed in Utility Model Registration No. 0431887 and shown in FIG. 2 is a synthetic resin material, and has a structure of fixing the tube 8 to the holder 1 with a steel plate 9, thereby making it lightweight. There is an advantage that the pipe work is easy, but there is no solution to prevent leakage at the pipe (8) joint.

Patent Registration No. 1045861 Utility Model Registration No. 0431887

The present invention was created to solve the above problems, while providing a concrete block for protecting pipes and a pipe construction method using the same to function as a pipe support to prevent reinforcement and leakage at the pipe joint. The purpose is.

It is another object of the present invention to provide a concrete block for protecting pipes and a pipeline construction method using the same so that an operator can know that the injection of the waterproofing agent is smooth and the injection of the waterproofing agent is completed.

The present invention to achieve the above object is to support the joints of the first pipe and the second pipe connected to each other in the concrete block for pipe protection installed on the ground,

A first seating surface formed concave so as to seat the lower surface of the first tube on an upper surface of the body, and a second seating surface recessed so as to seat the bottom surface of the second tube connected to the first tube; A lower block formed concave between the first seating surface and the second seating surface and having a first concave groove surrounding the lower side of the pipe joint;

The upper surface of the body is formed concave facing the first seating surface and the first cover surface in contact with the upper surface of the first tube, and is formed concave facing the second seating surface and the upper portion of the second tube A second cover surface which is in contact with the surface, a second recess groove which faces the first recess groove and is concave than the first and second cover surfaces and surrounds an upper side of the pipe joint portion, and the second from the top surface of the body. An upper block formed with an injection hole penetrating the concave groove;

A fastening member for fastening the lower block and the upper block;

A chamber formed by the first recessed groove and the second recessed groove;

And a sealing agent injected into the chamber through the injection hole.

In addition, the present invention is characterized in that the upper block is further formed with a confirmation hole that the air in the chamber is exhausted or the sealing agent injected through the injection hole leaks.

In addition, the present invention is formed with a coupling protrusion formed in the lower block in contact with the upper block, the coupling groove is coupled to the upper block is formed,

A fixing hole is formed in the lower block, and is coupled to the fixing hole and is provided with a fixing member for fixing the lower block to the ground.

In addition, the present invention is formed in the upper block a plurality of fastening holes penetrating the upper and lower surfaces,

The fastening member has a female screw formed on the inner circumferential surface and a flange formed at the lower end thereof and a female screw pipe embedded in the lower block at a position corresponding to each of the fastening holes;

It characterized in that it is provided with a fastening bolt screwed to the female threaded pipe through the fastening hole.

On the other hand, the construction method to achieve the above object,

a) compacting and arranging the ground on which the first and second tubes are to be installed;

b) installing the lower blocks on the ground at regular intervals;

c) the first tube and the second tube is seated on the first seating surface and the second seating surface of the lower block, respectively, the first tube and the second tube are combined, and the joints of the first tube and the second tube are combined. Positioning the center portion of the first recess groove;

d) mounting the upper block on an upper surface of each lower block, and fastening the fastening member to the fastening member;

e) filling a sealant in the chamber with an injector through an injection hole in the upper block;

f) stopping the injection when the sealing agent filled in the chamber leaks through the confirmation hole.

First, it is possible to shorten the air by manufacturing the concrete block 100 by precast construction, and also to prevent the leakage of fluid by sealing the joint portion 13 of the pipes.

In addition, by forming the chamber 200 corresponding to the pipe joint 13 in the concrete block 100, curing time of the sealing agent 210 despite the sealing operation of the pipe joint 13 in the field It is possible to shorten the air because it does not have to consider.

Second, by forming the confirmation hole 127 in the upper block 120 to allow the air in the chamber 200 to be discharged while the sealing agent 210 is being filled, the sealing agent 210 is smoothly injected and the filling is completed. Since the sealing agent 210 is leaked through the confirmation hole 127 at the time point, the operator can know that the sealing agent 210 is filled, thereby preventing the loss of the sealing agent 210 and surrounding contamination.

Third, the upper block 120 is preliminarily coupled by the coupling protrusion 114 and the coupling groove 124 so that the fastening hole 125 and the female threaded pipe 140 can be easily and exactly matched, so that the upper / lower block 120 The fastening operation time of the 110 can be shortened.

Figure 1a, bc is a perspective view for explaining a conventional pipeline;
2 is a perspective view illustrating another conventional pipeline method;
Figure 3a is a perspective view showing a connection state of the tube of the embodiment of the present invention,
Figure 3b is a perspective view showing a pipeline construction state using a concrete block of the embodiment of the present invention,
Figure 3c is a perspective view showing a pipeline construction state using a concrete block of another embodiment of the present invention,
Figure 4 is an exploded perspective view of the concrete block of the embodiment of the present invention,
5 is a cross-sectional view taken along line AA of FIG. 3B;
6 is a cross-sectional view of a concrete block showing a coupling state of the fixing member;
7 is a cross-sectional view of a concrete block showing a fastening state of the fastening member;
8a to 8c is an explanatory diagram showing a construction method of an embodiment of the present invention,
9 is a cross-sectional view showing a concrete block of another embodiment of the present invention.

For example, during pipeline construction in areas such as groundwater outflow or river areas, the installed pipes are likely to flow for buoyancy. The embodiment of the present invention allows the pipes to be stably installed at the design location in such a flooded area, and also to prevent leakage at the pipe joint and shorten the construction period.

Referring to FIGS. 3A and 3B, FIG. 3B forms a concrete block 100 formed of an upper block 120 and a lower block 110 in a lengthwise direction of the tubes 11 and 12 to form a tube 11. The joints 13 and the remaining portions of the 12 are to be protected by the concrete block 100. Therefore, as shown in FIG. 1C, it is possible to solve the hassle of having to install the formwork and protective concrete in the field and the lengthening of air due to the site casting of the protective concrete.

3c is to shorten the length of the concrete block 100 than in Figure 3b, so that it can surround the joint portion 13 of the tube, in this case between the concrete block 100 and the concrete block 100 The outer circumferential surface of the pipes (11) and (12) is cast with protective concrete to protect the pipes.

3a to 3c, the concrete block 100 of the embodiment of the present invention supporting the joint 13 of the first pipe 11 and the second pipe 12 connected to each other is installed on the ground 300. do.

The concrete block 100 is coupled to the lower block 110 and the upper block 120 at the joints of the pipes (11, 12) to space the pipes (11, 12) from the ground 300 and apply a load to buoyancy To prevent water leakage from the pipe joints.

The concrete block 100 is supported on the ground 300 and the lower block 110, the pipe (11, 12) is seated, and the upper block coupled to the lower block 110 to secure the pipe (11, 12) ( 120).

4 and 8A, the lower block 110 includes a first seating surface 111 that is concave so that the lower surface of the first tube 11 is seated on an upper surface of the body, and the first tube ( 11 is concave between the second seating surface 112 and the first seating surface 111 and the second seating surface 112 formed to be concave so as to seat the lower surface of the second tube (12) connected. It is formed with a first recess groove 113 surrounding the lower side of the pipe joint.

4 and 8B, the upper block 120 is formed on the upper surface of the body to be concave to face the first seating surface 111 and to be in contact with the upper surface of the first pipe 11. A surface 121, a second cover surface 122 that is concave to face the second seating surface 112, and is in contact with an upper surface of the second pipe 12, and the first recess groove 113. A second concave groove 123 opposed to the first and second cover surfaces 121 and 122 and surrounding the upper side of the pipe joint portion, and a second concave groove 123 from an upper surface of the body; ) Has a structure in which an injection hole 126 is formed.

Referring to FIG. 8B, a chamber 200 sealed by the first concave groove 113 and the second concave groove 123 is formed, and cement mortar is formed in the chamber 200 through the injection hole 126. Sealing agent 210 such as is injected to seal the periphery of the joint of the pipe (11) (12).

The lower block 110 and the upper block 120 are manufactured as a pre-cast in the factory and transferred to the pipeline construction site. Therefore, it is preferable to install a towing ring (not shown) on the lower block 110 and the upper block 120 for the convenience of towing and transport.

Meanwhile, referring to FIG. 7, the lower block 110 and the upper block 120 are fastened by a fastening member including a fastening bolt 130 and a female threaded pipe 140. The upper block 120 includes the fastening member. A plurality of fastening holes 125 through which the fastening bolt 130 penetrates are formed, and the female screw tube 140 in which the fastening bolt 130 is screwed is installed in the lower block 110.

The female screw tube 140 has a female screw formed on the inner circumferential surface thereof and a flange 141 is formed at the lower end thereof. The flange 141 prevents the female threaded tube 140 from being separated from the lower block 110.

Referring to FIG. 9, which shows another embodiment of the present invention, when the sealing agent 210 is injected into the upper block 120 through the injection hole 126, air in the chamber 200 may be exhausted so that the injection is desired. And the confirmation hole 127 is formed so that the operator can know that the sealant 210 is filled in the chamber 200.

That is, as shown in FIG. 9, the sealing agent 210 is filled into the chamber 200 by the injector 400 through the injection hole 126. In this case, the air in the chamber 200 is confirmed by the check hole 127. Since it is discharged through), the filling operation is desired, and when the filling is completed, the sealing agent 210 begins to leak through the confirmation hole 127 so that the operator can check and stop the injection.

On the other hand, when the pipeline construction is made in the flooded area, such as the area or the groundwater outflow, the pipes (11) (12) are able to escape from the construction design position by buoyancy, in the embodiment of the present invention to prevent this As shown in Figure 4 and 6 to form a fixing hole 115 in the lower block 110 to be fixed to the ground 300 by the fixing member 150.

In addition, as shown in Figure 4 and 6, when mounting the upper block 120 to the lower block 110, the fastening hole 125 and the female threaded tube 140 should be matched with each other, for this purpose Coupling protrusion 114 is formed by forming a coupling protrusion 114 in the lower block 110 in contact with the block 120 and the coupling protrusion 114 is coupled to the upper block 120. By being pre-coupled to the coupling groove 124, the fastening hole 125 and the female screw tube 140 can be easily matched.

Pipe construction method using the concrete block 100 of the embodiment of the present invention as described above is as follows.

First, after arranging the ground 300 on which the pipeline is to be installed, as shown in FIG. 8A, the lower blocks 110 made of precast are installed at predetermined intervals, and the first and second seating surfaces of the lower block 110 are installed. The first tube 1 and the second tube 12 are seated on the 111 and 112 to each other. In this case, the joint part 13 may be located at the center of the first recess groove 113, and the lower part of the joint part 13 forms a space by the first recess groove 113.

Subsequently, as shown in FIG. 6, the lower block 110 is fixed to the ground 300 using the fixing member 150.

Subsequently, as shown in FIG. 8B, the upper blocks 120 are seated on each lower block 110. In this case, as shown in FIGS. 6 and 7, the coupling protrusion 114 is pre-coupled to the coupling groove 124 so that the coupling hole 125 and the female screw tube 140 can be easily matched with each other, and the fastening bolt ( 130 and the lower screw 110 and the upper block 120 by screwing the female threaded pipe 140.

Subsequently, as shown in FIG. 8C, the sealing agent 210 is filled into the chamber 200 through the injection hole 126 by the injector 400. The filled sealant 210 seals around the joint 13 to prevent leakage of fluid flowing in the tubes 11 and 12.

Meanwhile, as shown in FIG. 9, when the confirmation hole 127 is formed in the upper block 120, the air in the chamber 200 is discharged while the sealant 210 is filled, thereby injecting the sealant 210. Since the sealing agent 210 is leaked through the check hole 127 at the time when the filling is completed and the filling is completed, the worker can know that the sealing agent 210 has been filled so that the loss of the sealing agent 210 and the surrounding pollution To prevent it.

As described above, the present invention can shorten the air by manufacturing and constructing the concrete block by precast, and also prevents the leakage of the fluid by sealing the joints 13 of the tubes.

That is, by forming the chamber 200 corresponding to the pipe joint 13 in the concrete block 100, the curing time of the sealing agent 210 despite the sealing operation of the pipe joint 13 in the field This can shorten the air since it does not need to be considered.

In addition, by forming the confirmation hole 127 in the upper block 120 to allow the air in the chamber 200 to be discharged while the sealing agent 210 is being filled, the injection of the sealing agent 210 is desired and the filling is completed. Since the sealing agent 210 is leaked through the confirmation hole 127 at the time point, the operator can know that the sealing agent 210 is filled, thereby preventing the loss of the sealing agent 210 and surrounding contamination.

In addition, the upper block 120 is pre-combined by the coupling protrusion 114 and the coupling groove 124 so that the fastening hole 125 and the female threaded pipe 140 can be easily and accurately matched to the upper and lower blocks 1100 ( It is possible to shorten the fastening operation time of 120).

11, 12 ... Building 1, Building 2 13 ...
100 ... concrete block 110 ... lower block (of concrete block)
120 ... (block of concrete) upper block 130 ... fastening bolt
140 ... female thread 200 ... chamber

Claims (5)

In the concrete block for protecting pipes installed on the ground supporting the joints of the first and second pipes connected to each other,
The first seating surface 111 is formed concave so that the lower surface of the first tube 11 is seated on the upper surface of the body, and the lower surface of the second tube 12 connected to the first tube 11 A first recess groove formed concave between the second seating surface 112 and the first seating surface 111 and the second seating surface 112 so as to be seated to surround the lower side of the pipe joint portion ( A lower block 110 including 113;
It is formed on the upper surface of the body to be concave facing the first seating surface 111, the first cover surface 121 in contact with the upper surface of the first pipe 11 and the second seating surface 112 A second cover surface 122 facing the upper surface of the second tube 12 and formed to be concave to face the first concave groove 113 and concave than the first and second cover surfaces, An upper block 120 having a second concave groove 123 surrounding the upper side of the pipe joint and an injection hole 126 penetrating through the second concave groove 123 from an upper surface of the body;
A fastening member for fastening the lower block 110 and the upper block 120;
A chamber 200 formed by the first recessed groove 113 and the second recessed groove 123;
The concrete block for protecting the pipe, characterized in that it comprises ;; a sealing agent 210 is injected into the chamber 200 through the injection hole (126). The method of claim 1, wherein the upper block 120 is further formed with a confirmation hole 127 in which air in the chamber 200 is exhausted or the sealant 210 injected through the injection hole 126 is leaked. A concrete block for protecting a pipe. The coupling protrusion 114 of claim 1 or 2, wherein the coupling protrusion 114 is formed on the lower block 110 in contact with the upper block 120, and the coupling protrusion 114 is coupled to the upper block 120. Groove 124 is formed,
A fixing hole 115 is formed in the lower block 110, and is provided with a fixing member 150 coupled to the fixing hole 115 to fix the lower block 110 to the ground 300. A concrete block for protecting a pipe. According to claim 3, The upper block 120 is formed with a plurality of fastening holes 125 penetrating through the upper surface and the lower surface,
The fastening member has a female screw formed on the inner circumferential surface and a flange 141 formed at a lower end thereof, and the female screw tube 140 embedded in the lower block 110 at a position corresponding to each of the fastening holes 125;
The concrete block for protecting the pipe, characterized in that it is provided with a fastening bolt 130 is screwed to the female threaded pipe 140 through the fastening hole (125). In the pipeline construction method using the concrete block for protecting pipes of claim 4,
a) compacting and arranging the ground 300 on which the first pipe 11 and the second pipe 12 are to be installed;
b) installing the lower blocks (110) on the ground (300) at regular intervals;
c) the first pipe 11 and the second pipe 12 are seated on the first seating surface 111 and the second seating surface 112 of the lower block 110, respectively; Combining the second pipe (12) and positioning the joints (13) of the first pipe (11) and the second pipe (12) at a central portion of the first recess groove (113);
d) mounting the upper block 120 on the upper surface of each lower block 110 and fastening the fastening member to the fastening member;
e) filling a sealant (210) in the chamber (200) with an injector (400) through an injection hole (126) in the upper block (120);
f) stopping the injection when the sealing agent (210) filled in the chamber (200) leaks through the check hole (127).

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