JPH0333395A - Boring mechanism for sampling hot spring - Google Patents

Abstract

PURPOSE:To excavate the ground with high efficiency by a method in which a hot spring sampling mechanism is attached to one end of a balance rod pivotally attached to the upper part of a tower and a weight is attached to the other end, and the balance rod is vertically operated by crank operation and hot spring is taken by the hot spring sampling mechanism. CONSTITUTION:A balance rod 4 is pivotally attached through a support shaft 5 to the upper part of the tower 3 of a base 2 fixed to the ground R, and a hot spring sampling mechanism 11 is connected to one end of the rod 4. A weight W is tung down from the other end of the rod 4. The rod 4 is vertically operated by the action of a crank 8 through a connecting lever 6 joined with the weight W, and moved in a flip-flop manner by means of the crank 8 to excavate the ground S by an excavator mechanism set in the mechanism 11. Hot spring is pumped up by a pump cylinder. The excavation and hot spring production can thus be attained with small energy.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a geothermal well drilling mechanism, but more specifically to a boring mechanism for hot spring extraction. [Prior art] There is no dedicated boring mechanism for hot spring sampling in the past.
No. 95) Toka, "Structure of a drilling machine" as shown in Figure 5
(Special Publication No. 54-34682) and “Method for automatically adjusting bit thrust to a constant level during excavation” (Special Publication No. 54-10)
No. 321) is used. In the conventional example shown in Fig. 4, when conducting a geological boring survey, geological conditions such as the consolidation density (strength), structure, and facies of underground clay layers and silt layers are measured in the horizontal direction underground. The present invention relates to a sampling position for examining changes in the temperature and a device therefor, and this device is composed of a test drilling mechanism main body 31 and a sample sampling machine HII 33. The main structure is a connecting pipe 34 that is successively connected and connected, and a sample collection device 3 that is connected to the connecting pipe 34.
5, and a sample collection tube 3 rotatably supported by the device 35.
9 and the device 3 coaxially on the outer peripheral side of the stock-taking tube 39.
5, and the device 35 includes a device for communicating with the conduit of the connecting pipe 34 and spouting pressurized water to the outside from between the sampling tube 39 and the outer tube 41. A passage 37, a valve body located in the passage 37 and moved upward by the pressure of pressure water, and a device 3 in conjunction with the valve body.
5 and a connecting bottle that detachably engages the sample collection tube 39, and the connecting tube 34, which is successively added and connected, and the device 35 connected thereto, have a connecting bottle that can be freely engaged with the sample collecting tube 39 without being displaced in the circumferential direction. The sample collection tube 39 has a connecting portion and a connected portion that are always connected in a fixed position relationship, and the sample collection tube 39 is further provided with a transfer portion for transferring a mark to the sample to be collected, and the connecting tube 34 The sample collecting device is provided with a confirmation mark that allows the direction of the transfer portion to be determined. Further, the drilling mechanism main body 3 which operates this sampling device is configured to perform drilling via a hydraulic cylinder. In addition, in the figure, 36 is a spool, 38 is a check valve, 40 is an idle block, and 42 is an outer pipe. When this conventional device was applied to a boring mechanism for collecting hot springs, the following method was used. First, in a state where the chuck tube provided in the test drilling mechanism body 31 is bounded upward by the hydraulic sill 32, the connecting tube 34 is connected to the inside of the chuck tube, and the guide vibe of the connected portion of the connecting tube 34 is connected to the connecting tube 34. The connecting pipe 34 and the device 35 are connected to each other by facing the connecting parts of the device 35, fitting the latter engaging protrusion into the former engaging recess, and screwing the sleeve nut into the male threaded part of the connecting part. Next, the connecting pipe 34 is lowered and the device 35 is inserted into the excavation hole. , device 3
When the tip edge of the sample collection tube 39 in 5 penetrates into the sampled soil, grasp the uppermost connecting tube 34 with a chuck, and then operate the hydraulic pump to pass the sample through the conduit of the connecting tube 34. When pressurized water is introduced into the device 35, the pressure water is blown out from between the sample sampling tube 39 and the excavation outer tube 41 to assist the excavation work, and also flows into the connecting bottle of the device 35 and the reversing block 40. The state of engagement with the engagement hole is released. Thereafter, by pressing the chuck tube of the drilling mechanism main body 31 downward while rotating it by the prime mover and the hydraulic cylinder 32, the connecting tube 34 held by the chuck tube 34 is naturally held there.
The device 35 at the lowest end and the outer cylinder 41 for excavation attached thereto rotate and descend, whereas the device 35 and outer cylinder 41 of the sampling cylinder 39 rotate by bearings. However, the sample collection cylinder 39 digs deeply into the soil to be sampled without rotating. Once a predetermined amount of hot water has been collected in the sample collection cylinder 39, hot spring water can be collected by connecting a hot water pipe. In addition, the conventional example shown in Fig. 5 (a) is concerned with the structure of the drilling machine, in particular, it adopts a hydraulic system for the bit striking mechanism to dramatically improve the striking force and number of strikes, and the rod The length can be spliced depending on the depth of the hole drilled. Furthermore, a hydraulic circuit and a pressure fluid circuit for eliminating recirculation are provided inside the rod, so that at least the hydraulic circuit communicates when the rods are connected, and when the rod is disconnected, the valve closes to prevent oil leakage. This is a drilling machine, and it is related to the hydraulic system of the drilling machine that uses the rod to connect the rod part.This device has a drilling iso horizontal body 51, a drilling impact mtJII57, In other words, by partitioning the inside of the outer pipe forming the outermost side of the connecting rod 55 along the axial direction, a pressure fluid circuit for powder wandering and a pressure fluid circuit for drilling impact are provided in the connecting rod 55. The connecting end of the connecting rod 55 is provided with an automatic valve that opens the hydraulic circuit only when the connecting rod 55 is in the connected state. The hydraulic circuit is connected to a drilling head 59 having an injection hole 60 for removing refilling, and the hydraulic circuit is connected to a hydraulic striking device 58.
The pressure fluid circuit for removing powder is connected to the injection hole 6 for removing powder.
0, each connected drilling machine has a structure. Furthermore, the conventional example illustrated in FIG. 5(b) relates to a method of automatically adjusting the bit thrust, which fluctuates while drilling a wellbore, to a constant level in a rotary driller.
Eliminating complicated manual operations, I! The purpose of the present invention is to provide a method in which it is possible to set an arbitrary bit thrust force during cutting, and after the setting, the bit thrust is automatically adjusted to a constant value, and when manual operation is required, switching to this is possible. In this way, the conventional examples are devices configured according to their respective uses and purposes, and none of them are suitable for boring for hot spring sampling. Problem 1 There is a problem to be solved by the present invention in trying to provide a dedicated boring mechanism for hot spring stock counts by adopting the features of each of the conventional devices. [Means for solving the problem] The present invention was developed in order to solve the above-mentioned problems, and the tower is installed on a base fixed to the ground.
A balance rod that moves both ends up and down is pivoted on the tower, a hot spring collection mechanism is attached to one end of the balance rod via a connecting rod, and a bug worm is attached to the other end, and a crank operation is arranged to move the balance rod up and down. A hot spring boring mechanism is provided with a hot spring boring mechanism body, a casing pipe having a water suction port at the tip of the water suction pipe, and a pump cylinder for operating a hot spring suction pump via an extraction cylinder inside the casing pipe. To provide a boring mechanism for hot spring stock numbering, which is composed of a hot spring stock taker eux, and is characterized in that the number of hot spring stocks is increased by repeating the hot spring stock takeaway side by vertical movement of a balance rod that is pivotally supported on the tower. The present invention also provides a boring mechanism for collecting hot springs, in which the balance rod is pivoted to a column fixed on a movable cart of a car, and a pulley is used to operate the pump cylinder of the hot spring collecting mechanism. be. [Example 1] An example of the present invention will be described below with reference to one drawing. Figures 1 and 2 show a hot spring stock collecting boring mechanism according to the present invention. Figure 1 shows the hot spring boring mechanism body 2, and Figure 2 shows the hot spring boring mechanism body 2 used in the hot spring boring mechanism body. The hot spring stock number mechanism is shown in Figure t'R. The hot spring boring mechanism main body 1 of the present invention fixes the base 2 of the tower 3 on the ground R as shown in FIG. 1(A). A balance rod 4 is rotatably mounted on the tower 3 via a support shaft 5. One end of this balance rod 4 is connected to a connecting rod 6 to collect hot springs.
The horizontal 11 are connected. Note that a joint 7 is pivotally attached to both ends of the connecting rod 6 by a support shaft 5. On the other hand, Tenbin t4!
A crank 8 has a weight W at the other end thereof, and one end of a connecting rod 6 is pivotally attached to the balance rod 4 via a support shaft 5. That is, the structure is such that the balance rod 4 of the Kato W system is moved up and down by the operation of a crank 8 which rotates a connecting rod 6 connected to the balance rod 4 by a drive source (not shown). In addition, FIG. 1(b) shows a case where the hot spring boring mechanism main body l is configured to be movable. In other words, a truck I of a car such as a bulldozer
A support 9 is assembled on the support 9, and the balance rod 4 is attached to its tip via the support shaft 5. A crank 8 with a drive source is also attached to the stand 151G, and the crank 8 and the balance rod 4 are connected to each other via the connecting rod 6.
are connected. FIG. 2 shows the hot spring sampling PAm used in the hot spring sampling...boring mechanism shown in FIG. 1, and II is the hot spring stock number mechanism. This hot spring collection structure II is the second
As shown in figure (a), casing pipe 1
A pump cylinder 13 that is operated by a pressure cylinder 14 inside 2 is installed inside. That is, when the hydraulic cylinder 14 is operated, the pump cylinder 13 is operated, so that hot spring water can be sucked up from the water intake port 16 of the water intake pipe 15 formed at the tip of the casing pipe 12. Note that the operating means of the hydraulic cylinder 14 and its operating state are as shown in the flowchart shown in FIG. 2 (b). Next, the operation of the hot spring sampling boring mechanism of the present invention will be explained with reference to FIGS. 1 and 2. First, install the hot spring boring mechanism main body l at the desired location, and place the top of the hot spring boring mechanism III#R11 at the tip of the connecting rod 6 of the rod 4.
5, then operate the crank 8 to lower the balance rod 4.
is moved up and down like a seesaw, and the underground S is excavated by a drilling mechanism (not shown) installed inside the hot spring extraction mechanism U. When the excavation is completed to the point where the hot spring comes out, the hydraulic cylinder 14 of the hot spring sampling mechanism shown in FIG. Once the geothermal water has been sucked by the pump cylinder 13 in this manner, the cranklough 8 is operated again to store the hot spring in the tank (not shown) and supply it via the hot spring pipe. At this time, the vertical movement of the balance rod 4 of the hot spring sampling mechanism H can be operated using a small amount of energy due to the crawling of the weight W suspended at the other end. FIG. 3 shows another embodiment of the hot spring sampling mechanism 0 shown in FIG. 2(a), and illustrates a case where means other than a hydraulic cylinder are used. In other words, water suction pipe 1
Pump cylinder 17 inside casing pipe 12 with 9
The structure is the same as that shown in FIG. 1, but a pulley 20 is used in place of the extraction cylinder 17. That is, the drain pipe +8 is attached to the other end of the pump cylinder 17, and the pulley 20 is attached to the other end.
Activate the pump cylinder 17. This cylinder 1
The operating means 7 is the balance rod 4 of the hot spring boring mechanism main body l.
This will be done through. [Effect of the invention 1] The present invention provides a tower that is installed on a base fixed to the ground, a scale rod that moves both ends up and down that is attached to the tower, and hot springs can be collected via a connecting rod at one end of the scale rod. A hot spring boring mechanism main body is provided with a mechanism and a weight attached to the other end, and a crank operation is provided for the vertical movement of the balance rod, and a casing pipe having a water suction port at the tip of the water suction pipe. and a hot spring sampling mechanism equipped with a pump cylinder that operates a hot spring suction pump via a hydraulic cylinder. Since the structure is such that hot springs can be collected using a hot spring, it is possible to excavate underground with low operating energy and high efficiency, and it is also possible to provide a boring mechanism dedicated to hot spring collection that can collect hot springs. Furthermore, since the present invention has a structure in which the balance rod is pivoted to a column fixed on a movable automobile trolley, it can be moved! The boring mechanism for collecting hot springs can be freely moved together with I. Therefore, it is economical and extremely convenient. Furthermore, since the present invention uses a pulley to operate the pump cylinder of the hot spring sampling mechanism, it is practical even with a simple structure. The boring mechanism for hot springs i and tl according to the present invention, which has many of the above-mentioned effects, is a boring mechanism that has not been seen in the past, so it is novel and suitable for collecting hot springs in hot spring areas that are expected to be developed in the future. This makes it possible to provide optimal equipment.

[Brief explanation of drawings]

1 and 2 are explanatory schematic diagrams showing the side of the boring mechanism for collecting hot springs of the present invention, FIG. 3 is a schematic diagram showing a part of the main parts of another embodiment of the present invention, and FIG. 4 and 5 are explanatory schematic diagrams showing related mechanisms that are conventionally known. l...Hot spring bowling III horizontal body 3...
・・Yagura 4・・・・Balancing rod】0・・・・
-・Bolly number...Hot spring sampling mechanism 13...Pump cylinder 14-...Hydraulic cylinder W-...Loading 31...Test drilling mechanism main body 33 ...Sample stock counting mechanism 51, 61...Drilling mechanism main body 57.64...
...Drilling impact mechanism 62...Sliding brake device 6 63...Fluid pressure transducer 20...Pulley

Claims (3)

[Claims] (1) A tower is placed on a base fixed to the ground, a balance rod that moves up and down at both ends is attached to the tower, a hot spring collection mechanism is attached to one end of the balance rod via a connecting rod, and the other end is attached. A hot spring boring mechanism main body is provided with a weight attached to it, and a crank operation is provided for the up and down movement of the balance rod, and a casing pipe having a water suction port at the tip of the water suction pipe, and a hydraulic cylinder is installed in the casing pipe. It consists of a hot spring sampling mechanism equipped with a pump cylinder that operates a hot spring suction pump, and the hot spring sampling mechanism is operated to collect hot springs by vertical movement of a balance rod that is pivoted on the tower. Features a boring mechanism for collecting hot springs. (2) The boring mechanism for collecting hot springs according to claim 1, wherein the balance rod is pivoted to a support that is fixed to a movable cart of an automobile. (3) The boring mechanism for hot spring sampling according to claims (1) and (2), wherein a pulley is used to operate the pump cylinder of the hot spring sampling mechanism.