KR20130110175A - Combined down-the-hole hammer - Google Patents

Abstract

The present invention provides a combination down hole hammer comprising a coupling (1), an air distribution device (2), a flange (3) and an impactor (4). The coupling 1 is connected to the drill pipe 5 and the first air passage 10 is installed therein, and a plurality of impactors 4 are mounted on the flange 3 so that each impact 4 has a second air. The passage 40 is provided, and the impact drill 45 of each impactor 4 can rotate along its own axis. The air distribution unit 2 is connected between the coupling 1 and the flange 3 and the air collection chamber 21 connected to the first air passage 10 to the air distribution apparatus 2 and the air collection chamber. And a plurality of air distribution passages 22 for communicating 21 to the second air passages 40 of each impactor 4. According to the present invention, it is possible to provide a combination down hole hammer having high drilling efficiency because of low cost, reasonable structure, simple maintenance, simple mounting and disassembly, stable sealing, and efficient use of energy.

Description

Combination Down Hole Hammer {COMBINED DOWN-THE-HOLE HAMMER}

The present invention relates to a combination down hole hammer.

In general, foundation pile construction is drilled by a drilling machine to drill in the stratum, after which the reinforcing cage is placed in the hole, the concrete is poured, and when the concrete hardens, it becomes the foundation pile. However, in the case of hard strata, especially rock strata, it is difficult to drill with drills, so impact drills (also referred to as "down-hole hammers") are required to perform perforation drills. It is widely used for building foundation work.

Such known impactors (e.g., published on the pages of the Chinese Mining Equipment Instructions, Chapter 1, pages 66-68, published by the Scientific Publishing House) are also referred to in this field as integrated downhole hammers, as shown in FIG. The tapered screw adapter 61 ', the impact body 62' including the piston, and the striking drill 64 'provided with the hardened alloy head 63' are generally composed of a diameter? During construction, the down hole hammer is connected to the power head of the drilling machine via a hollow rod, and the power head drives and rotates the down hole hammer to supply compressed air from the air compressor to the impactor body through the drill pipe. Drive the piston and hit the drill repeatedly at a frequency to transfer the blow energy to the hardened alloy head of the drill, repeatedly hitting and crushing the rock, and the rock debris between the drill pipe and the hole wall together with the air discharged from the downhole hammer. It is discharged through the annular gap of and finally forms the pile hole.

The advantage is that it can be drilled efficiently in hard strata, especially rock layers, but as the foundation foundation business develops, a large number of large diameter foundation piles (φ500 to φ800 mm and> φ1000 mm) are needed. There is a problem.

1. The processing requirements of large diameter integrated down hole hammers are high, difficult to manufacture, frequent quality problems, and high cost.

2. It is bulky, heavy, uncomfortable to repair, and if the alloy head of any drill breaks down during operation, it must be disassembled and repaired, and the construction period is extended and the cost is high.

3. It is large in diameter, heavy in weight and connected by tapered screw adapter to rotate integrally, and it is inconvenient for installation and disassembly in the field because it can realize necessary sealing property only when there is very large torque.

In order to solve the above problems of the large diameter integrated down hole hammer, as shown in FIG. 17 in US Patent US4429439, five small diameter impactors are focused by a frame to form a large diameter down hole hammer, and the tapered screw adapter is drill pipe. And a focused down hole hammer connected to the air supply passage to distribute compressed air to each of the small impactors through the transverse air passage to drive each of the small impactors to perform the perforation drilling operation.

However, the following problems exist in the focused down hole hammer.

1. When compressed air is supplied to the impactor through the transverse air passage, the bending angle reaches a right angle, so the pressure loss is large and the efficiency is low.

2. According to the small diameter impactor arrangement, the impact area of the intermediate impactor covers the same impact conditions under the same rotational conditions as the surrounding impactors, but the impact frequency is different. It cannot be used effectively and the efficiency is low.

3. When the focused down hole hammer rotates and drills, the circumferential linear speeds of the outer and inner portions of the impact drill on the small diameter impactor disposed on the outer circumference are different and the movements thereof are different. The wear and tear are also different, and the wear and tear of the outer hardened alloy head is faster than the inside, so the work is not uniform, and the overall service life is low.

4. The diameter of the focusing down hole hammer is large, heavy, and connected by taper screw adapter to rotate integrally, and only with a very large torque can realize the necessary sealing property of the focusing down hole hammer in the field. Inconvenient for mounting and disassembly.

5. If wear and tear on the outside of the blow drill occurs, all small diameter impactors placed on the outer periphery must be disassembled and rotated again by 180 degrees, which can solve the problem of non-uniformity of wear and tear. Inconvenient to affect the speed of construction.

It is an object of the present invention to provide a combination down hole hammer that can solve at least one of the problems existing in the art.

According to the present invention, a coupling is connected to the drill pipe and is provided with a first air passage therein, a flange, and a second air passage is mounted to the flange and each of which has a second air passage, and each hitting drill can rotate around its own axis. A plurality of impactors, and a plurality of air distribution passages connected between the coupling and the flange and communicating with the first air passages and the plurality of air distribution passages respectively for communicating the second air passages of the impactor. It provides a combination down hole hammer comprising a.

In addition, the impactor has an impactor body mounted inside the flange and provided with a piston chamber for mounting the striking piston therein, and a strike mounted at the bottom of the piston chamber and axially movable and circumferentially rotatable on the impactor body. Includes a drill.

In addition, the striking drill includes an intersecting striking head and a guide shaft, a restrictive recess extending axially on top of the guide shaft, a restricting ring installed on the restricting recess, and the guide shaft inserted into the piston chamber. In addition, the limit ring is limited by the positioning table installed on the inner wall of the piston chamber and the guide cover mounted on the lower end of the piston chamber, and the guide cover is installed on the guide shaft.

Also, the axis of at least one second air passage in the second air passage of each impactor is parallel to the axis of the first air passage and communicates with the at least one second air passage of the plurality of air distribution passages and the air assembly chamber. The axis of the air distribution passage is a curve that smoothly transitions.

In addition, an air conditioner is installed in at least one air distribution passage.

In addition, each air distribution passage is connected to the top of the corresponding second air passage through the reduced transition pores, respectively, and the air conditioner is a damping control ring installed in each transition pore.

In addition, the coupling includes a columnar connector forming a first air passage, and a mounting hole is installed in the drill pipe in accordance with the columnar connector, and the columnar connector and the drill pipe are connected by hinge pins passing therethrough, A sealing structure is installed between the cylindrical connector and the mounting hole.

In addition, at least two hinge pins are formed on the outer wall of the columnar connector, and a first concave hole extending in the horizontal direction is provided on the outer wall of the columnar connector, and the drill pipe is disposed in the horizontal direction. A second recessed hole extending and intersecting with the mounting hole is installed, and the hinge pin penetrates through the first recessed hole mounted in the second recessed hole.

In addition, the flange includes a cylindrical case, an upper plate connected to the upper part of the cylindrical case, and a bottom plate connected to the lower part of the cylindrical case, and for positioning the upper and lower plates respectively for mounting the impactor. A hole is installed and includes a columnar adapter at the top of the impactor, the columnar adapter having a bore that forms part of the second air passage, the bore being connected to the air distribution passage and located at the outer periphery of the columnar adapter. A determination annular groove is provided, and the cylindrical adapter protrudes from the positioning hole of the upper plate, and is positioned by a positioning ring provided in the positioning annular groove.

In addition, the positioning ring is a double door positioning ring, and a limiting cover is provided outside the positioning ring, and an upper portion of the limiting cover is limited by the limiting ring and the snap spring.

Further, a sealing groove is provided on the outer circumference of the cylindrical adapter, and the sealing groove is located above the positioning annular groove.

In addition, each impactor is harmonized to the base plate through a keyway and a connecting key, and a sealed dustproof structure is installed between the base plate and the impactor, and the upper end of the cylindrical case is hermetically sealed to the bottom surface of the air distribution unit, and the bottom of the air distribution unit. A transition plate having a hole is provided between the face and the top plate.

According to the combination type down hole hammer and the construction method thereof, the following effects and advantages can be realized.

1. A large number of small diameter impactors form a large diameter combined downhole hammer, which is reasonable in structure, simple in manufacturing process, simple in repair, and low in cost.

2. In case of drilling and rotating the combined down hole hammer by the power head, the impact drill of each impactor rotates jointly and rotates around its own axis so that the wear and tear of the hardened alloy head of the impact drill is uniform. It can improve efficiency and service life.

3. Compressed air transferred into the second air passage of each impactor as it is a curve in which the axis of the air distribution passage communicating the at least one second air passage among the plurality of air distribution passages and the air collecting chamber is smoothly transitioned. Pressure loss is small and efficient.

4. Based on the output rotational speed of the power head of the drilling machine and the parameters of the air supply system of the drilling machine, the airflow in the air chamber of the combined downhole hammer is adjusted to the set value to rationalize the airflow flowing inside the impactor. Can be used and energy can be effectively used to improve drilling efficiency.

5. Combination down hole hammer and drill pipe are inserted and fixed by hinge pin and sealing ring using columnar connector, so installation and disassembly is simple and sealing of air passage can be improved.

The drawings constituting a part of the present invention are intended to help the understanding of the present invention, and the embodiments and the descriptions shown in the present invention are not intended to limit the present invention.
1 shows a front structure of a first embodiment of the present invention;
2 is a front cross-sectional structure of the first embodiment of the present invention;
3 is a plan view of a first embodiment of the present invention;
4 is a bottom view of the first embodiment of the present invention;
5 is a view showing a connection structure between a drill pipe and a first embodiment of the present invention;
6 is a view showing a connection structure of a spiral drill pipe with a first embodiment of the present invention;
7 is a front cross-sectional view of the second embodiment of the present invention;
8 is a bottom view of a second embodiment of the present invention;
9 is a view showing the front structure of the impactor of the second embodiment of the present invention;
10 to 15 show the working process of the combined down-hole hammer according to the present invention;
16 is a view showing the configuration of a down-hole hammer according to the prior art;
17 is a view showing the front structure and the G-direction structure of the combination down hole hammer according to the prior art.

Here, the features described in the embodiments and the embodiments of the present invention can be combined with each other under mutually inconsistent circumstances.

1 to 6, a first preferred embodiment of the combined downhole hammer of the present invention will be described.

As shown in FIG. 1, the combined down hole hammer includes a coupling 1, an air distribution device 2, a flange 3, and an impactor 4. As shown in FIG. 2, the coupling 1 is connected to the drill pipe 5 and a first air passage 10 is installed therein. The first air passage 10 communicates with the air flow path of the drill pipe 5. The air distribution device 2 is connected between the coupling 1 and the flange 3. Many impactors 4 are mounted on flanges 3, and each impactor 4 is provided with a second air passage 40. The impactor 4 comprises a main body 42 and a blow drill 45 on which a hard alloy head 44 is installed. As shown in the figure, the air collecting chamber 21 which communicates with the 1st air passage 10 to the air distribution apparatus 2, and the air collecting chamber 21 are made into the 2nd air passage of each impactor ( A plurality of air distribution passages 22 communicating with 40). The coupling 1, the air distribution device 2, and the flange 3 are connected as follows. At the lower end of the coupling (1), a first flange (12) connected to the upper end of the air distribution device (2) through a bolt (27) or a screw is installed, and the bolt 37 or at the lower end of the air distribution device (2). A second flange 24 is installed, which is connected to the upper end of the flange 3 via screws, and a sealing ring 25 between the coupling 1 and the air distribution device 2 to ensure the sealing of the air passage. To be fitted.

As shown in Fig. 2, in this embodiment, the number of impactors 4 is five, one of which is disposed in the middle, and the other four impactors are arranged uniformly in an annular shape around the intermediate impactor. The second air passage of the intermediate impactor 4 coincides with the axis of the first air passage 10, and the axis of the second air passage of the other four impactors 4 corresponds to the axis of the first air passage 10. Parallel, the second air passage in the middle and the air distribution passage of the air collecting chamber 21 are linearly connected, and the surrounding four second air passages and the axis of the air distribution passage 22 of the air collecting chamber 21 To form a large curvature air passage structure, thereby effectively reducing the loss caused when the compressed air is classified into four surrounding impactors. When compressed air is classified as an impactor around the focused down-hole hammer, compressed air enters the air passage of each impactor through the lateral air passage, and the bending angle of the lateral air passage and the air passage of each impactor at right angles is perpendicular to each other. Up to pressure loss Can be solved and the low efficiency problem, the pressure loss of the compressed air that is sent into the second air passage of each of the peripheral impactor because less it is possible to improve the installation efficiency of the down-hole hammer.

As shown in FIG. 2, an air conditioner 26 is installed in the intermediate air distribution passage 22, and compressed air is adjusted by adjusting air supply parameters (including air pressure and air flow rate) to the impactor at the central position. It can save energy by improving utilization rate.

1, 2 and 3, the coupling 1 further includes a columnar connector 11 forming a first air passage, and the mounting hole in the drill pipe 5 is adapted to the columnar connector. 51 is installed, the columnar connector 11 and the drill pipe 5 are connected by hinge pins 13 penetrating through them, and the sealing structure between the columnar connector 11 and the mounting hole 51 ( 14) is installed, convenient for mounting and disassembly of the combined down hole hammer and the drill pipe (5), the air passage can be sealed tightly, the down hole hammer and drill pipe (5) is tapered screw adapter in the existing technology It is connected in such a way that the entire downhole hammer must be rotated during the connection, and a very large torque can be used to realize the sealing property between the downhole hammer and the drill pipe and solve the inconvenience of mounting and dismounting in the field. In addition, the sealing structure 14 is a sealing ring installed at the top of the columnar connector 11 so that the sealing effect of the air passage is better and the cost is reduced, and the edge portion at the top of the columnar connector 11 is chamfered. It is preferred to be formed into a structure.

Preferably, at least two hinge pins 13 are provided. In this embodiment, the hinge pins 13 are arranged symmetrically in two identical horizontal planes. The cross section of the columnar connector 11 is hexagonal and the mounting hole 51 is preferably hexagonal. It is preferable to form anti-rotation surfaces on each side of the columnar connector 11 to prevent rotation of the corresponding drill pipe 5 of the columnar connector. A first concave hole extending in the horizontal direction is provided on the outer wall of the cylindrical connector 11, a second concave hole extending in the horizontal direction in the drill pipe 5, and intersecting with the mounting hole 51 is provided, the hinge pin 13 is mounted in the second concave hole, and realizes the purpose of connecting the cylindrical connector 11 and the drill pipe 5 to penetrate the first concave hole. It is also convenient for processing.

As shown in FIG. 2, the flange 3 includes a cylindrical case 36 and an upper plate 35 connected to an upper portion of the cylindrical case 36, and a base plate 34 connected to a lower portion of the cylindrical case 36. do. Positioning holes for mounting the impactor 4 are provided in the upper plate 35 and the lower plate 34, respectively. The cylindrical adapter 41 is provided at the upper end of the impactor 4 (that is, the upper end of the impactor body 42), and the cylindrical adapter 41 has an internal hole constituting a part of the second air passage, Is connected to the air distribution passage 22, a positioning annular groove is provided on the outer circumference of the columnar adapter 41, and the columnar adapter 41 protrudes from the positioning hole of the upper plate 35, and is positioned The position is determined by the positioning ring 61 provided in the annular groove for determination. A sealing ring 9 is mounted at the end of the columnar adapter 41 to ensure the sealability of the air passage.

The upper end of the cylindrical case 36 is sealed and coordinated with the lower surface of the air distribution device 2, and a transition plate 31 having a hole is provided between the lower surface of the air distribution device 2 and the upper plate 35. The positioning ring 61 is preferably located in a hole on the transition plate 31 to enhance the stability of the structure of the combined down hole hammer. In addition, each impactor 4 is preferably harmonized through the base plate 34, the keyway 32 and the connection key 43. It is preferable that a sealed dustproof structure 33 is provided between the base plate 34 and the impactor 4. It is preferable that this sealed dustproof structure 33 is a dustproof ring provided in the positioning hole of the said base board 34, for example.

7 to 9 show a second preferred embodiment of the present invention, wherein the first preferred embodiment and the impactor 4 are six, and the axis of the second air passage 40 of the six impactors 4 is They are all parallel to the first air passage 10, and the air distribution passages 22 communicating the air collecting chamber 21 and the second air passages 40 of each impact are all large air curvature structures. different.

As shown in FIG. 7, each of the air distribution passages 22 is connected to the top of the corresponding second air passage 40 through the reduced transition pores 20, respectively. The air conditioner 26 is a damping control ring installed in each transition pore 20. Based on the magnitude of the working pressure of each impactor 4 in practical application, rational distribution of airflow is rationally selected by selecting damping control rings of different specifications for the damping control rings 26 of the respective air distribution passages 22. And the energy can be effectively used to improve the drilling efficiency.

As shown in FIG. 9, the impactor 4 includes an impactor body 42 and a blow drill 45. The impactor body 42 is mounted inside the flange 3 and is provided with a piston chamber for mounting the striking piston 410 inside the impactor body 42. The striking drill 45 is mounted inside the piston chamber from the bottom, and the striking drill 45 is axially movable and circumferentially rotatable to the impactor body 42. As a result, when the power head drives the combined down-hole hammer to perform perforation while rotating, the impact drill 45 of each impactor 4 rotates around its own axis while rotating, thereby hardening on the impact drill 45. The wear and tear of the alloy head 44 is uniform and can improve working efficiency and service life.

Specifically, the striking drill 45 represents the striking head 451 and the guide shaft 49 connected to each other, and the hardened alloy head 44 is mounted to the striking head 451. A restriction recess 401 extending in the axial direction is installed on the upper portion of the guide shaft 49, and a restriction ring 48 is installed in the restriction recess 401. The guide shaft 49 is inserted into the piston chamber from the lower end, and the limit ring 48 is limited by the positioning table installed on the inner wall of the piston chamber and the guide cover 47 mounted to the lower end of the piston chamber, The guide cover 47 is installed on the guide shaft 49. It is preferable that the confinement ring 48 is a Side By Side confinement ring.

In this embodiment, the positioning ring 61 mounted in the positioning annular groove 411 of the columnar adapter 41 is a positioning ring of both gates, and is limited to the outside of the positioning ring 61. The cover 62 is provided, and the upper part of the limiting cover 62 is limited by the limiting ring 63 and the snap spring 64. It is preferable that a sealing groove 412 is provided on the outer circumference of the cylindrical adapter 41, and the sealing groove 412 is positioned above the positioning annular groove 410 to ensure the sealing of the air passage.

Hereinafter, a construction method of the combined down hole hammer according to the present invention will be described with reference to FIGS. 10 to 15.

1. The drilling head equipped with the power head 7, the air supply system 8 and the drill pipe 5 is moved to the construction position by a combination of two hinge pins 13 and a sealing ring 14. The hole hammer 100 and the drill pipe 5 are inserted and fixed to maintain the sealability (see FIG. 10).

2. Start the power head (7) of the drilling machine to drive the drill pipe (5) and the combination down hole hammer 100, rotate clockwise to match the hole position, then start the air supply system (8) to compress Supplying air, driving each impactor 4 of the combined downhole hammer 100, lowering the power head 7, driving the combined downhole hammer 100, and rotating the high frequency underground while rotating The perforation drill 45 of each impactor 4 is self-rotating while co-rotating and the debris is carried out through the annular gap between the drill pipe 5 and the hole wall together with the exhaust airflow of the impactor 4. It is discharged to the ground (see FIG. 11).

3. Drill to a predetermined depth and drain the debris sufficiently (see FIG. 12).

4. Lifting the power head 7 upwards also raises the combined down hole hammer 100 to the ground (see FIG. 13).

5. Move the drilling machine to one side, place the reinforcing cage in the hole, pour the concrete and cure for a certain time to become the base foundation pile (see Figs. 14, 15).

6. Repeat the above steps by moving the drilling machine to the next construction position (see FIG. 15).

5 and 6, in addition to the hollow cylindrical drill pipe 5 in step 1, a hollow spiral drill pipe 5 may be used.

Before inserting and fixing the combined down hole hammer 100 and the cylindrical drill pipe 5 or the spiral drill pipe 5 by the two hinge pins 13 and the sealing ring 14 in step 2, drilling Based on the output rotational speed of the power head 7 of the machine and the parameters of the air supply system 8 of the drilling machine, the adjusting device 26 in the air collecting chamber 21 of the combined downhole hammer 100 is set. By adjusting the value, rational distribution of the airflow can be made, and energy can be effectively used to improve the drilling efficiency.

According to the test, according to the combination down hole hammer according to the present invention, by combining the spiral drill pipe and the combination down hole hammer, the debris discharge effect is good and deeper holes can be drilled at the same air supply, and the construction efficiency is higher and more. It is economical. It is applied to hard strata, especially rock layers, so that construction of foundation piles of large diameters (φ500 to φ800 mm and> φ1000 mm) can be efficiently performed.

As described above, according to the present invention, a combination down hole hammer having a low cost, reasonable structure, simple maintenance, simple mounting and disassembly, stable sealing, efficient use of energy, and high drilling efficiency can be used. Can provide.

The foregoing is a preferred embodiment of the present invention, but not intended to limit the present invention. Those skilled in the art can bring about various transitions to the present invention. And all modifications, equivalents, improvements and the like which are within the spirit and principle of the present invention are within the scope of the present invention.

Claims (12)

A coupling 1 connected to the drill pipe 5 and having a first air passage 10 installed therein;
Flange 3;
A plurality of impactors (4) mounted to the flange (3), each having a second air passage (40) installed therein and each striking drill (45) capable of rotating around its own axis; And
The air collecting chamber 21 and the air collecting chamber 21 which are connected between the coupling 1 and the flange 3 and communicate with the first air passage 10 are respectively formed of the impactor 3. Combination down-hole hammer, characterized in that it comprises an air distribution device (2) is provided with a plurality of air distribution passages (22) for communicating with the air passage (40). The impactor (4) according to claim 1, wherein the impactor (4)
An impactor body 42 mounted inside the flange 3 and having a piston chamber for mounting the blown piston 410 therein;
And a percussive drill (45) mounted at the bottom of the piston chamber and axially rotatable and circumferentially rotatable in the impactor body (42). The method of claim 2, wherein the blow drill 45 comprises a blow head 451 and a guide shaft 49 are interconnected,
A restriction recess 401 extending in the axial direction is installed on the upper portion of the guide shaft 49, and a restriction ring 48 is installed in the restriction recess 401.
The guide shaft 49 is inserted into the piston chamber, and the limit ring 48 is attached to the positioning table installed on the inner wall of the piston chamber and the guide cover 47 mounted to the lower end of the piston chamber. Limited by
Combination down hole hammer, characterized in that the guide cover 47 is installed on the guide shaft (49). 2. The plurality of air distributions of claim 1, wherein an axis of at least one second air passage of the second air passages 40 of each impactor 3 is parallel to the axis of the first air passage 10. Combination down-hole hammer, characterized in that the curve of the axis of the air distribution passage for communicating the at least one second air passage in the passage (22) and the air collecting chamber smoothly transitions. 2. Combination down hole hammer according to claim 1, characterized in that an air conditioner (26) is installed in at least one of said air distribution passages (22). 6. The air distribution path as claimed in claim 5, wherein each of said air distribution passages (22) is connected to a corresponding portion of said second air passage (40), respectively, through the reduced transition pores (20),
Combination down hole hammer, characterized in that the air conditioning device (26) is a damping control ring installed in each of the transition pores (20). 2. The coupling (1) according to claim 1, wherein the coupling (1) comprises a columnar connector (11) forming the first air passage,
The drill pipe 5 is provided with a mounting hole 51 in accordance with the cylindrical connector, the columnar connector 11 and the drill pipe 5 is connected by a hinge pin 13 through them. ,
A combination down hole hammer, characterized in that a sealing structure (14) is provided between the columnar connector (11) and the mounting hole (51). 8. The hinge pin (13) according to claim 7, wherein at least two hinge pins (13)
The anti-rotation table is installed on the outer wall of the columnar connector 11,
A first concave hole extending in the horizontal direction on the outer wall of the columnar connector 11, extending in the horizontal direction in the drill pipe 5, and crossing the mounting hole 51; 2 A concave hole is provided, and the hinge pin (13) is mounted to the second concave hole and the combination down hole hammer, characterized in that penetrates through the first concave hole. According to claim 1, wherein the flange (3) is a cylindrical case 36, an upper plate (35) connected to the upper portion of the cylindrical case 36, and a bottom plate (34) connected to the lower portion of the cylindrical case 36 And a hole for positioning the upper plate 35 and the bottom plate 34 for mounting each of the impactors 4,
A cylindrical adapter 41 is provided at an upper end of the impactor 4, and the cylindrical adapter 41 has an inner hole forming a part of the second air passage, and the inner hole has the air distribution passage 22. And an annular groove 411 for positioning on the outer circumference of the columnar adapter 41, the columnar adapter 41 protrudes from the positioning hole of the upper plate 35, and the position A combination down hole hammer, characterized in that the position is determined by a positioning ring (61) provided on the annular groove (411) for determination. 10. The positioning ring (61) according to claim 9, wherein the positioning ring (61) is a double door positioning ring, and a limiting cover (62) is provided outside the positioning ring (61), and the upper limit of the limiting cover is a limiting ring. Combination down hole hammer, characterized in that limited by (63) and snap spring (64). 11. The combination downhole hammer according to claim 10, wherein a sealing groove (412) located above the positioning annular groove (410) is provided on an outer circumference of the cylindrical adapter (41). The method according to claim 11, wherein each of the impactor 4 and the base plate 34 is harmonized through the keyway 32 and the connecting key 43,
A sealed dustproof structure 33 is installed between the bottom plate 34 and the impactor 4,
The upper end of the cylindrical case 36 is sealed and fitted to the lower surface of the air distribution device 2, and the transition plate 31 having a hole between the lower surface of the air distribution device 2 and the upper plate 35. Combination down hole hammer, characterized in that is installed.

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