KR20050074677A - Double transfer line for concrete pump car having superiority abrasion resistance - Google Patents

Abstract

Disclosed is a double feed pipe for a concrete pump car, which is not only resistant to impact and grinding wear, but also has excellent durability, which can satisfy consumer demands, as well as excellent wear resistance, which can extend service life. The transfer pipe according to the present invention includes an inner steel pipe manufactured by carburizing heat treatment in a conventional carburizing atmosphere; An outer steel pipe into which the inner steel pipe is forcibly pressed into the inner diameter side; And a filler that is applied between the inner steel pipe and the outer steel pipe to reduce the indentation load and absorb the shock generated in the inner steel pipe.

Description

Double transfer line for concrete pump car having superiority abrasion resistance}

The present invention relates to a double conveying pipe for a concrete pump car excellent in wear resistance, and more particularly, a heat-treated inner steel pipe, an outer steel pipe surrounding the inner steel pipe and the inner steel pipe and the outer steel pipe consisting of a conveying pipe portion and the inner steel pipe and the outer steel pipe By providing a filling part filled in the pump, it is not only resistant to impact abrasion and grinding, but also excellent in durability, satisfying the needs of consumers, and having excellent wear resistance, which can extend the service life of the pump pump and its manufacture. It is about a method.

In general, a concrete pump truck is a equipment for pumping concrete to a high-rise building at the construction site. The concrete pump truck is composed of a cylinder for pushing concrete and a conveying pipe for transporting concrete in a slurry state with pressure. These parts are always worn out by transporting concrete slurry mixed with hard materials such as sand and stone, and high impact is achieved by pushing concrete at high pressure. In addition, it is a very important functional part that can damage the life of the transfer pipe due to the flow of the slurry by high pressure.

In order to prevent the damage of the above-mentioned conveying pipe, as the material of the conveying pipe, a low ductile low carbon steel pipe having high ductility is used, and the low carbon steel pipe has a high hardness (HV 250) due to its very low hardness (HV 250) without heat treatment. Abrasive wear is generated, and impact wear is generated inside the transfer pipe due to the concrete being transported at high pressure, thereby reducing the service life of the transfer pipe. There was a problem that corrosion occurs by.

In order to solve this problem, a heat-treated transfer pipe is being developed. However, it is difficult to heat-treat the inner steel pipe by using a plurality of transfer pipes, and it is difficult to manage dimensions by heat-treatment deformation, and it is difficult to assemble the inner and outer sides. In particular, when the inner steel pipe is heat-treated, the length of the inner steel pipe is long, so deformation due to the heat treatment occurs, so it is difficult to set the press-fitting tolerances of the two steel pipes when the outer steel pipe is press-assembled. That is, the separation should not occur in the state in which the inner steel pipe and the outer steel pipe are assembled, so that the leaving force after the press-fit should be kept above the grain boundary value. In addition, when the inner steel pipe is forcedly pressed into the inside of the outer steel pipe, the indentation load is large, and thus the size of the indentation equipment is essential.

The present invention has been made to solve the conventional problems as described above, the object of the present invention, the heat treatment of the inner steel pipe, the outer steel pipe surrounding the inner steel pipe and the inner steel pipe and the inner steel pipe consisting of a conveying pipe part and the inner steel pipe By providing filling parts filled between the outer steel pipes, it is not only resistant to impact and grinding wear, but also excellent in durability, which satisfies the needs of consumers, and has excellent wear resistance for extending the service life. To provide.

In order to achieve the object of the present invention as described above, the present invention,

In the double feed pipe for concrete pump cars,

An inner steel pipe manufactured by carburizing heat treatment in a general carburizing atmosphere;

An outer steel pipe into which the inner steel pipe is forcibly pressed into the inner diameter side; And

It is applied between the inner steel pipe and the outer steel pipe to reduce the indentation load and provides a double transfer pipe for a concrete pump car excellent in wear resistance made of a filler that absorbs the shock generated in the inner steel pipe.

Preferably, the inner steel pipe is manufactured to have a hardness of HV 600 or more while carburizing heat treatment of carbon steel having a carbon concentration of 0.30 to 0.65% by weight in a carburizing atmosphere having a carbon concentration of 1.0% or more.

More preferably, the chromium carbide may be formed on the surface after the usual carburizing heat treatment of the carbon chromium steel containing the highly corrosion-resistant chromium (Cr) component to transport the medium consisting of highly corrosive sea water or high temperature corrosive components have.

As described above, according to the present invention, it is not only resistant to impact abrasion and grinding wear, but also excellent in durability, thereby satisfying the needs of consumers and extending the service life.

Hereinafter, with reference to the accompanying drawings will be described for a double transport pipe for a concrete pump car excellent in wear resistance according to an embodiment of the present invention.

1 is a cross-sectional view showing a double feed pipe for a concrete pump car according to the present invention.

Referring to FIG. 1, a double feed pipe 100 for a concrete pump car according to the present invention includes an inner steel pipe 110, an inner steel pipe 110, and an inner steel pipe 110 press-fitted with an inner steel pipe 110 and an outer steel pipe 110. Filler 130 is applied between the 120.

First, the inner steel pipe 110 is produced by carburizing heat treatment of carbon steel having a carbon concentration of 0.30 to 0.65% by weight in a conventional carburizing atmosphere having a carbon concentration of 1.0% or more. In addition, the inner steel pipe 110 is manufactured to have a hardness of HV 600 or more. Preferably, the inner steel pipe 110 is formed of a large amount of chromium carbide on the surface of the carbon chromium steel containing a high corrosion resistance chromium (Cr) component after the usual carburizing heat treatment to form a highly corrosive sea water or high temperature corrosive components The medium consisting of can be transferred. An inner steel pipe 120 and the filler 130 is disposed in the inner steel pipe 110 manufactured as described above.

The outer steel pipe 120 is made of a conventional steel pipe having a hardness of about 250 HV. The inner diameter of the outer steel pipe 120 is formed larger than the diameter of the inner steel pipe 110 so that it can be smoothly fitted to the outer diameter of the inner steel pipe (110). Preferably, the outer diameter of the inner steel pipe 110 and the inner diameter of the outer steel pipe 120 is a conventional loose fit or suppression tolerance range.

On the other hand, the filler 130 is applied to the outer diameter portion of the inner steel pipe 110 to reduce the friction when the outer steel pipe 120 is press-fitted to the inner steel pipe 110. Filler 130 is provided with a grease or curable resin. The filler 130 may not only absorb the impact load generated in the inner steel pipe 110, but may also reduce the indentation load of the outer steel pipe 120.

Figure 2 is a table showing the indentation load of the outer steel pipe in the state that the filler is applied to the inner steel pipe.

Referring to FIG. 2, as a result of measuring the indentation loads of the inner steel pipe 110 and the outer steel pipe 120, the indentation load is higher than that in which the filler 130 is not applied, compared to the one not coated. About three times smaller. However, when the viscosity of the filler 130 is 460 cst or less at 40 ° C., the grease is not filled between the inner steel pipe 110 and the outer steel pipe 120 due to lack of sufficient surface tension, and is discharged at room temperature, thereby being sufficient as the filler 130. It does not play a role and only plays a role of reducing the indentation load during indentation. Therefore, when the inner steel pipe 110 is press-fitted, the viscosity of the grease applied to the outer circumferential surface of the inner steel pipe should satisfy at least 460 cst or more. Grease can be used regardless of the base oil. This grease not only absorbs shock, but also secures corrosion resistance in a corrosive environment such as concrete or seawater, thereby preventing rust occurring in the contact portion of the inner steel pipe 110 and the outer steel pipe 120.

On the other hand, the curable resin as the filler 130 is a basic curable resin, when pressed into the inner side of the outer steel pipe 120, the flame or furnace heated in a press-fitted state at about 150 ~ 200 ℃ to cure the curable resin after indentation The curable resin is cured in the gap between the inner steel pipe 110 and the outer steel pipe 120. Such a curable resin serves as a lubricant during the indentation of the inner steel pipe 110 to reduce the indentation load, as well as the impact generated from the inner steel pipe 110 is fixed in the gap between the inner steel pipe 110 and the outer steel pipe 120. Absorbs and prevents foreign substances from entering into the press-fitting gap of inner and outer steel pipes.

3 is a cross-sectional view showing a state in which the connection ring is assembled to the transfer pipe shown in FIG.

Referring to FIG. 3, the connection ring 140 has a conventional flange shape for connecting a plurality of transfer pipes 100. The connection ring 140 is butt welded to the outer steel pipe 120 in a state that is forcibly fitted to the outer diameter of both ends of the inner steel pipe 110. The coupling ring 140 coupled as described above is press-assembled to the outer diameter of the inner steel pipe 110 so that even if a welding part with the outer steel pipe 120 is broken or cracks are generated, the inner steel pipe 110 compensates for this and thus transfers concrete. Leakage can be prevented.

Figure 4 is a result table showing the results of the soil wear test according to the hardness of the inner steel pipe, and Figure 5 is a schematic diagram of the soil wear tester.

4 and 5, the tosa wear test is a test result based on the ASTM standard for evaluating the wear resistance of the counterpart against the silica sand (Si02, HV 2000).

When sand is injected between the specimen and the rubber wheel through the nozzle is a test device 10 to evaluate the amount of wear of the inner steel pipe 110 while the weight mounted on the lever is applied to the specimen. At this time, the wear amount is divided by the wear volume of the inner steel pipe 110 by the specific gravity of the inner steel pipe 110 to express the amount of reduced thickness as the wear thickness. Here, when the carbon concentration of the material of the inner steel pipe 110 is as small as 0.15 as shown in the soil-to-wear test results according to the hardness of the inner steel pipe 110, the amount of wear due to soiling is doubled due to the hardness difference according to the presence or absence of carburizing heat treatment. There is a slight difference, and even in the same carburizing heat treatment condition, Example 2 having a relatively high carbon concentration of the material showed less wear at similar hardness than Example 2. In addition, in Example 4, when the carbon concentration of the material was 0.35% and the carbon atmosphere was increased to 1.0-1.2 during carburization, the amount of sediment wear decreased sharply compared to the hardness, resulting in less than 10 times the amount of sediment wear compared to the non-heat treated example. In Examples 4 and 5, when the carbon concentration atmosphere was increased to 1.0 to 1.2, the hardness was increased and the amount of tosa wear was relatively decreased.

As described above, the transfer pipe 100 according to the present invention is a filler 130 is applied between the carburizing heat-treated inner steel pipe 110, the outer steel pipe 120, the inner steel pipe 110 and the outer steel pipe 120. By having a, by reducing the friction force during indentation has the advantage of reducing the indentation load can be designed to reduce the capacity of the indentation equipment, by including the filler 130, by absorbing the impact load generated in the inner steel pipe 110 There is an advantage that can mitigate the impact acting on the delivery pipe (100).

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art can be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims You will understand.

1 is a cross-sectional view showing a double feed pipe for a concrete pump car according to the present invention,

2 is a table showing the indentation load of the outer steel pipe in the state that the filler is applied to the inner steel pipe,

3 is a cross-sectional view showing a state in which the connection ring is assembled to the transfer pipe shown in FIG.

4 is a result table showing the results of the soil wear test according to the hardness of the inner steel pipe, and

5 is a schematic diagram of the soil wear test apparatus.

Explanation of symbols on the main parts of the drawing

100: transfer pipe 110: inner steel pipe

120: outer steel pipe 130: filler

140: connection ring

Claims (7)

In the double feed pipe for concrete pump cars, An inner steel pipe manufactured by carburizing heat treatment in a general carburizing atmosphere; An outer steel pipe into which the inner steel pipe is forcibly pressed into the inner diameter side; And It is applied between the inner steel pipe and the outer steel pipe to reduce the indentation load, and a double transfer pipe for a wear resistance concrete pump car, characterized in that made of a filler for absorbing the shock generated in the inner steel pipe. According to claim 1, wherein the inner steel pipe is characterized in that the carbon steel having a carbon concentration of 0.30 ~ 0.65% by weight in the carburizing heat treatment in a conventional carburizing atmosphere having a carbon concentration of 1.0% or more, characterized in that it is manufactured to have a hardness of HV 600 or more. Double feed pipe for concrete pump cars with excellent wear resistance. The method of claim 1, wherein the inner steel pipe is chromium is added to the surface after the usual carburizing heat treatment of carbon chromium steel containing a highly corrosion-resistant chromium (Cr) component to transport the medium consisting of highly corrosive sea water or high temperature corrosive components Double transport pipe for a concrete pump car with excellent wear resistance, characterized in that the vice can be formed. The double feed pipe for a concrete pump car having excellent wear resistance according to claim 1, wherein the filler is one of a grease or a curable resin. 5. The double feed pipe for concrete pump cars as claimed in claim 4, wherein the grease satisfies at least 460 cst of viscosity. According to claim 4, wherein the curable resin is heat-cured at 150 ~ 250 ℃ double transfer pipe for a concrete pump car having excellent wear resistance, characterized in that the basic hardening resin cured in the gap between the inner steel pipe and the inner steel pipe. The concrete having excellent wear resistance according to claim 1, wherein the outer diameters of both ends of the inner steel pipe for connecting the plurality of the conveying pipes are welded to the outer steel pipe in a state in which a connection ring having a normal flange shape is forcibly fitted. Double feed pipe for pump cars.