JPS6356399B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a submersible pump for an excavator such as a reverse circulation drill.

(b) Prior Art An example of a submersible pump for an excavator will be explained using a reverse circulation drill shown in FIG. 3 as an example. 1 is a base installed on the ground, base 1
A rotary table 2, which is an excavation torque supply device, is fixed on the top. This rotary table 2
A Kerry bar 3 is engaged in the center of the rotary table 2 so that it can receive excavation torque as the rotary table 2 rotates. It is configured to drive a drill pipe 4, a crossover sub 5, a stabilizer 6, a submersible pump 7, and a bit 8 which are sequentially connected to the lower end of the Kelly bar 3. In the illustrated example, the submersible pump 7 is a pump unit with a stabilizer. And on the top of Kerryba 3 there is a swivel joint 9.
A hydraulic rotary joint 10 is connected to the upper part of the swivel joint 9 to guide pressure oil supplied through a hydraulic hose 12 from a hydraulic pump unit 11 installed on the ground to the submersible pump 7. A suspension 9a is attached to the swivel joint 9, and a crane 12 moves the bits 8 including the swivel joint 9.
The drill string is suspended up to. There is a suction port in the center of the lower end of the bit 8, and the excavated earth and sand is sucked up together with water by the submersible pump 7, passes through the inner cylinder of each drill string, and is connected to the delivery hose 1 attached to the swivel joint 9.
3 to the precipitation layer 14. The supernatant liquid is then sucked up by the circulating water supply pump 15 and returned to the borehole. By repeating this process, a pit is excavated.

The detailed structure of the conventional submersible pump 7 described above will be explained with reference to FIGS. 4 and 5. A circular casing 17 is arranged in the center, and the bit 8 is connected to the lower part of the casing 17 via a suction casing 16. Inside the casing 17,
Two blades 1 to allow large chunks of earth and sand to pass through.
The impeller 18 to which the impeller 8a is attached is fixed to a drive shaft 19 of a hydraulic motor (not shown). The drive shaft 19 is supported by a lower housing 23 via a bearing 22 and an upper housing 24 via a bearing (not shown), and the lower housing 23 is fixed to the casing 17.
The casing 17 has one discharge port 17a to prevent clogging with earth and sand due to a decrease in flow velocity.
is provided. The discharge port 17a is connected to a discharge pipe 25 leading to the stabilizer 6, and a weight balance pipe 26 is connected to a flange 17b located on the symmetrical side of the discharge port 17a. 20,
21 is a seal that prevents muddy water from entering the bearing 22.

The conventional submersible pump configured in this way has a discharge port 17 of a casing 17, as shown in FIG.
Since a extends in the connection direction of the casing 17, the maximum diameter of the submersible pump is a dimension _D2 that is larger than the outer diameter _D1 of the casing 17. For this reason, when drilling a vertical hole with a circular cross section, the entire submersible pump rotates, so the maximum diameter of the submersible pump D ₂
The minimum hole diameter that can be drilled is determined by: Therefore, in order to excavate a hole with a smaller diameter, it is necessary to relatively reduce the outer diameter _D1 of the casing 17, and accordingly, the outer diameter of the impeller 18 must also be reduced. Submersible pump for excavator
As mentioned above, the suction diameter is large and 2
An impeller 18 with single blades 18a is used, and if the outer diameter of such an impeller 18 is made small, the length of the blades will become extremely short due to the structure, which has the disadvantage of reducing the head and efficiency of the submersible pump. .

(c) Problems to be Solved by the Invention The present invention has been made in view of the above-mentioned problems, and its purpose is to solve the problem of small diameter submersible pumps without reducing the outer diameter of the casing of the submersible pump. An object of the present invention is to provide a submersible pump for an excavator that can excavate a vertical hole.

(d) Means for Solving the Problems In order to achieve this object, the present invention includes a soil suction port, a two-blade impeller capable of passing large lumps of soil, and a circular casing. In a submersible pump for an excavator that is arranged concentrically, the housing that rotatably supports the drive shaft of the impeller and the circular casing are arranged so that the outer end of the impeller and the inner end of the discharge port of the circular casing are substantially aligned. It is characterized in that the connection position is located at the inner upper part of the impeller, and the discharge port of the circular casing is formed so as to be bent along the outer periphery of the circular casing and in the direction of the drive shaft of the impeller.

(e) Example Hereinafter, an example of the present invention will be described in more detail with reference to FIGS. 1 and 2. In FIGS. 1 and 2, the same reference numerals as in FIGS. 4 and 5 represent the same or equivalent components. In the center of the inside of the circular casing 27, there is a 2
An impeller 18 having blades 18a is provided,
The impeller 18 is driven by a drive shaft 19 of a hydraulic motor (not shown). The earth and sand suction port, the impeller 18, and the circular casing 27 are arranged concentrically, and the suction port side is connected to the bit 8 via the suction casing 16. impeller 18
The connection position between the housing (lower housing 23) that rotatably supports the drive shaft 19 of the impeller 18 and the circular casing 27 is located inside the impeller 18 so that the outer end of the circular casing 27 almost coincides with the inner end of the discharge port of the circular casing 27. placed at the top. The discharge port 27a side of the circular casing 27 is provided at only one location in order to prevent clogging with earth and sand due to a decrease in flow velocity. It is designed to be taken out. Therefore, the flow path leading to the discharge port 27a is designed not to protrude beyond the outer diameter _D1 of the casing 27, as shown in FIG. Further, in order to reduce pressure loss, the flow path to the discharge port 27a is smoothly curved.

Therefore, since the maximum diameter of the submersible pump is set to be the same as the outer diameter _D1 of the circular casing 27,
The minimum hole diameter that can be drilled is the outer diameter of the circular casing 27
It will be determined by D ₁ . Therefore, a vertical hole with a smaller diameter can be excavated accordingly.

(f) Effect of the Invention As described above, according to the present invention, the minimum hole diameter that can be excavated is determined by the outer diameter of the casing of the submersible pump. It becomes possible to drill holes with the same diameter.
Additionally, since there is no need to reduce the outer diameter of the impeller, there is also the advantage that the performance of the submersible pump does not deteriorate.

[Brief explanation of the drawing]

1 and 2 show an embodiment of the present invention, in which FIG. 1 is a plan view showing the casing of a submersible pump, FIG. 2 is a partially sectional side view of the submersible pump,
FIG. 3 is an overall side view showing the state in which a pit is being excavated by the excavator according to the present invention, and FIGS. 4 and 5 are FIGS. 1 and 2 showing the conventional submersible pump structure. It is a figure equivalent to the figure. 8... Bit, 18... Impeller, 19... Drive shaft, 25... Discharge pipe, 27... Circular casing, 27a... Discharge port.

Claims (1)

[Claims] 1. A submersible pump for an excavator in which an earth and sand suction port, a two-blade impeller capable of passing large lumps of earth and sand, and a circular casing are arranged concentrically, and the outer end of the impeller and the circular casing are arranged concentrically. In order to almost match the inner end of the discharge port,
The connection position between the housing that rotatably supports the drive shaft of the impeller and the circular casing is arranged at the upper inner side of the impeller, and the discharge port of the circular casing is arranged along the outer periphery of the circular casing and along the impeller. A submersible pump for an excavator, characterized by being formed so that it can be bent in the direction of the drive shaft and taken out.