KR200300605Y1 - Apparatus for pumping concrete of pump vehicle - Google Patents

Abstract

The present invention relates to a pumping device of a concrete pump car, the discharge pipe 38 is in communication with each of the hopper 10 and the pumping cylinder 20 through the pumping cylinder 20 from the hopper 10 through the pumping cylinder (20) And a pair of concrete transfer cylinders 30 and ring stopper 36 of the concrete transfer cylinders 30 which are provided with a ring stopper 36 at a predetermined distance to the inner diameter, and selectively block a predetermined length. A spool 40 having a spool rod 42 coupled thereto, and an O-ring 52 coupled to an upper portion of the concrete transfer cylinder 30 and having an oil filled therein and wiping the surface of the spool rod 42. A piston rod 64 coupled to the upper portion of the pipe 50 and the connecting pipe 50 and coupled to the spool rod 42 therein is installed in the piston 62 to allow the spool ( 40 includes a working cylinder 60 for elevating and Since it can be continuously discharged to the discharge pipe 38 through the transfer cylinder 30 will be to minimize the remaining amount of concrete.

Description

Pumping device for concrete pump car {Apparatus for pumping concrete of pump vehicle}

The present invention relates to a pumping apparatus for a concrete pump car, and more particularly, to a pumping apparatus for a concrete pump car that can be pumped concrete from the pump car and placed in the work place through the discharge pipe.

In general, the concrete pump car is to accommodate the concrete transported by the ready-mixed truck and stirred, and then pumped to the place to be poured into the concrete receiving pipe through the pumping device.

The pumping device of the pump car is provided with a pair of cylinders, the piston method for transporting concrete while repeating the intake and pressure in accordance with the up and down operation, the S-pipe method for transporting the concrete while moving the S-shaped pipe left and right, rotary It is divided into a squeeze method which transfers concrete while compressing the discharge tube by driving. Such a pumping device is preferably configured not to leave the remaining amount of concrete so as not to lose raw materials as well as to prevent environmental pollution.

By the way, the piston pumping device is to reduce the concrete strength because a large amount of grease is used to reduce the frictional force, and the length of the pumping device is difficult to use in a limited space, especially the amount of concrete after pouring There was a difficult problem in dealing with this. The S-pipe type pumping device is more advanced than the piston type, but this method also has a problem in that a large amount of grease is used to reduce friction and the remaining amount of concrete remains after the work. The pumping device of the squeeze method has a problem in that it is difficult to extrude when the concrete becomes concrete because the discharge tube is operated by rotating the discharge tube, and the towing tube is worn by the rotary and thus has to be frequently replaced.

The present invention is to improve the problems of the conventional pumping device described above, can be used irrespective of the viscosity of the concrete can be used for a long time, consumable parts, while pumping concrete pump car that can minimize the remaining amount of concrete The purpose is to provide a device.

In order to achieve the above object, the present invention is in communication with the hopper and the pumping cylinder, respectively, the concrete is discharged from the hopper through the pumping cylinder to the discharge pipe connected to the lower side, a pair of ring stopper is installed at a certain distance to the inner diameter The concrete transfer cylinder of the spool, and the ring stopper passage of the concrete transfer cylinder to selectively block the spool rod having a certain length is coupled, coupled to the concrete transfer cylinder is filled with oil inside the surface of the spool rod Including a connecting pipe provided with a polishing O-ring, and a piston rod coupled to the upper portion of the connecting pipe and coupled to the spool rod therein is installed in the piston to raise and lower the spool according to the hydraulic supply direction. Consists of.

The connecting pipe is composed of a first connecting pipe filled with oil, and a second connecting pipe connecting the first connecting pipe and the operation cylinder by a flange, and the upper and lower ends of the second connecting pipe for disassembly / assembly. A cutaway flange is formed.

Between the upper end of the transfer cylinder and the first connection pipe is further comprised of a bushing tube with an O-ring and packing built-in, oil is embedded, and a cover member covering the bushing tube.

According to the pumping device of the concrete pump car according to the present invention, a pair of concrete transfer cylinder connected to the connecting pipe and the operating cylinder in turn in the hopper and the pumping cylinder is installed in communication, as the pumping cylinder and the operating cylinder is operated The spool is configured to selectively block the concrete conveying passage so that the concrete enters the pumping cylinder from the hopper via the one transfer cylinder and is discharged through the discharge pipe through the other concrete transfer cylinder.

1 is a view showing a pumping apparatus for a concrete pump car according to the present invention,

Figure 2 is a longitudinal cross-sectional view of the pumping device according to the present invention,

3 is an operating state diagram of a pumping apparatus according to the present invention,

(a) is a state in which the concrete is transferred from the suction port to the pressure port,

(b) is a state in which the concrete is transferred from the pressure port to the discharge pipe,

4 is a hydraulic configuration of the pumping device according to the present invention.

Explanation of symbols on the main parts of the drawings

10: hopper 12: hydraulic tank

14 pump 16 main controller

18,19: 1st, 2nd solenoid valve 20: pumping cylinder

30: concrete transfer cylinder 32: suction port

34: pressure port 36: ring stopper

38: discharge tube 39: connecting member

40: Spool 42: Spool Load

44: bushing pipe 45: O-ring

46: packing 48: cover member

50: connector 52: first connector

54: O ring 56: Oil supply port

58: second connector 60: the working cylinder

62: piston 64: piston rod

65: first inlet 66: first hose

67: second inlet 68: second hose

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

1 is a view showing a pumping apparatus for a concrete pump car according to the present invention, Figure 2 is a longitudinal cross-sectional view of the pumping apparatus according to the present invention.

1 and 2, the pumping device of the concrete pump car according to the present invention is in communication with each of the hopper 10 and the pumping cylinder 20, the concrete from the hopper 10 via the pumping cylinder 20 A pair of concrete transfer cylinders 30 are discharged to the discharge pipe 38 communicated to the lower side and a ring stopper 36 is provided at a predetermined distance to the inner diameter, and a ring stopper 36 passage of the concrete transfer cylinder 30 is provided. To selectively block the spool rod 42 having a certain length is coupled to the spool 40 is coupled to the upper portion of the concrete transfer cylinder 30 is filled with oil therein to clean the surface of the spool rod 42 A connecting pipe 50 having an O-ring 45 and a piston rod 64 coupled to an upper portion of the connecting pipe 50 and coupled to the spool rod 42 therein are installed at the piston 62. The operation cylinder 60 which raises and lowers the spool 40 according to the supply direction of hydraulic pressure is included. To consist.

The concrete transfer cylinder 30 is provided in the inlet 32 formed in the upper portion in communication with the hopper 10 is arranged side by side behind the hopper 10, the pressure port 34 formed in the center of the pumping cylinder 20 It is installed in communication with). That is, the concrete transfer cylinder 30 is disposed side by side in the vertical direction between the hopper 10 and the pumping car. In addition, a discharge pipe 38 is mounted at the lower end of the concrete transfer cylinder 30 so that concrete is discharged from the hopper 10 to the discharge pipe 38 via the pumping cylinder 20. On the other hand, the ring stopper 36 is composed of an upper ring stopper (36a) and a lower ring stopper (36b), it is coupled to the inner diameter (30a) of the concrete transfer cylinder 30 by interference fit method. Here, a stepped portion 30b is formed in the inner diameter 30a of the concrete transfer cylinder 30 in which the upper ring stopper 36a is installed so that the upper ring stopper 36a does not move upward by the spool 40. It is. In addition, the lower portion of the concrete transfer cylinder 30 in which the upper ring stopper 36b is installed is connected to the connection member 39 to form a jaw so that the upper ring stopper 36b does not move downward by the spool 40. It is supposed to be.

As shown in FIG. 2, the spool 40 moves along the inner diameter 30a of the concrete transfer cylinder 30, and blocks the passage of the upper / lower ring stopper 36 to change the direction in which the concrete is transferred. It plays a role. That is, the spool 40 moves along the inner diameter of the transfer cylinder 30 along the hydraulic supply direction to the operation cylinder 60 by the spool rod 42 coupled to the piston rod 64, and an upper / lower ring stopper ( The passage of 36 is selectively blocked. Here, the tip of the spool rod 42 passes through the center of the spool 40 so as to fix the protruding portion with a bolt.

An O-ring 45 and a packing 46 are provided between the upper end of the transfer cylinder 30 and the connection pipe 50, and a bushing pipe 44 having oil embedded therein and a cover member covering the bushing pipe 44 ( 48) is further configured. Here, the bushing pipe 44 is coupled and fixed to the upper end of the transfer cylinder 30 by a bolt, and is coupled to the connecting pipe 50 via the cover member 48. The oil filled in the bushing pipe 44 is introduced from the connecting pipe 50. The O-ring 45 primarily scrapes the remaining amount of concrete buried in the spool rod 42, and the packing 46 secondaryly scrapes the remaining amount of concrete buried in the spool rod 42. .

The connecting tube 50 is composed of a first connecting tube 52 filled with oil, and a second connecting tube 58 connecting the first connecting tube 52 and the operation cylinder 60. Here, the first connecting pipe 52 and the second connecting pipe 58 are adapted to engage the flanges 52a and 58a with each other by bolts. The flange 58a of the second connecting pipe 58 is preferably manufactured in a partially cut type to facilitate disassembly and assembly. The first connecting pipe 52 is provided with an O-ring 54 to clean the surface of the spool rod 42 therein, and to fill oil in the pipe through the oil supply port 56. Here, the oil used for the first connecting pipe 52 may be used by putting waste oil.

The working cylinder 60 is coupled to the upper portion of the second connecting pipe 58, and a piston rod 64 coupled to the spool rod 42 therein is installed in the piston 62. The operation cylinder 60 has a first inlet 65 formed at an upper end thereof to receive oil through the first hose 66 to move downward, and a second inlet 67 formed at a lower side thereof so that the second hose can be moved. The oil is supplied through 68 so as to move upward. Therefore, the operation cylinder 60 is to raise and lower the spool 40 in accordance with the supply direction of the hydraulic pressure.

Referring to Figures 3a and 3b it will be described the process of transporting concrete by the pumping apparatus according to the present invention.

As shown in FIG. 3A, when the piston 22 of the pumping cylinder 20 operates to the right in the drawing and the hydraulic oil is supplied to the first hose 66 at the same time, the piston 62 is lowered so that the spool 40 By blocking the passage of the lower ring stopper (36a), the concrete is moved through the inlet 32 of the concrete transfer cylinder (30) is introduced to the pimping cylinder (20) while passing through the pressure port (34).

On the contrary, as shown in FIG. 3B, when the piston 22 of the pumping cylinder 20 operates to the left in the drawing and the hydraulic oil is supplied to the first hose 68 at the same time, the piston 62 is raised to raise the spool 40. ) Block the passage of the upper ring stopper (36b), the concrete introduced into the pumping cylinder 20 is discharged to the discharge pipe 38 through the pressure port (34).

4 is a hydraulic configuration diagram of the pumping apparatus according to the present invention, when the hydraulic pump 12 is operated, the hydraulic fluid from the hydraulic tank 12 passes through the hydraulic switching device 16, the pumping cylinder 20 and the operating cylinder ( 60) respectively. A first solenoid valve 18 is installed between the hydraulic switching device 16 and the supply line of the pumping cylinder 20, while a first solenoid valve 18 is provided between the hydraulic switching device 16 and the supply line of the operation cylinder 60. 2 Solenoid valve 19 is installed.

According to the configuration of the embodiment of the present invention, a pair of concrete transfer cylinder 30 in which the connecting pipe 50 and the working cylinder 60 are sequentially connected to the vertical while the hopper 10 and the pumping cylinder 20 are installed in communication. Direction, and the pumping cylinder 20 and the operation cylinder 60 are operated so that the spool 40 selectively blocks the concrete transportation passage, so that the concrete moves the one transfer cylinder 30 from the hopper 10. The pump is introduced into the pumping cylinder 20 and discharged continuously through the discharge pipe 38 toward the other concrete transfer cylinder 10.

As described above, according to the pumping device of the concrete pump car, the concrete is pumped through the transfer cylinder by indirectly using the suction / compression force of the pumping cylinder and the working cylinder without adopting a method of directly pushing and moving concrete as a component. By doing so, it is possible to minimize damage to the component. In addition, the concrete can be continuously discharged to the discharge pipe through the transfer cylinder, so that the remaining amount of concrete is not generated at all.

Claims (3)

In communication with each of the hopper 10 and the pumping cylinder 20, the concrete is discharged from the hopper 10 through the pumping cylinder 20 to the discharge pipe 38 communicated to the lower side, the ring stopper at a certain distance to the inner diameter A pair of concrete transfer cylinders 30 with 36 installed therein; A spool 40 to selectively block a ring stopper 36 passage of the concrete transfer cylinder 30 and to which a spool rod 42 having a predetermined length is coupled; A coupling pipe 50 coupled to an upper portion of the concrete transfer cylinder 30 and having an O-ring 45 for filling oil therein and wiping the surface of the spool rod 42; And A piston rod 64 coupled to the upper portion of the connection pipe 50 and coupled to the spool rod 42 therein is installed in the piston 62 to move the spool 40 up and down in accordance with a hydraulic supply direction. Working cylinder 60; Pumping device of a concrete pump car comprising a. The method of claim 1, The connecting pipe 50 is composed of a first connecting pipe 52 filled with oil, and a second connecting pipe 58 connecting the first connecting pipe 52 and the operation cylinder 60 by a flange. , Pumping device of a concrete pump car, characterized in that the upper and lower ends of the second connecting pipe 50 is formed with a cut-away flange (58a) for disassembly / assembly. The method according to claim 1 or 2, An O-ring 45 and a packing 46 are provided between the upper end of the transfer cylinder 30 and the first connection pipe 52, and a bushing pipe 44 having oil embedded therein, and an upper portion of the bushing pipe 44. Pumping device of a concrete pump car, characterized in that it further comprises a cover member 48 for covering.