KR100446060B1 - Hand-operated Drilling Device For Long Hole - Google Patents

Abstract

PURPOSE: A manual-type elongated hole-boring machine is provided to make the work conditions excellent through simplification of structure and to reduce the cost. CONSTITUTION: A manual-type elongated hole-boring machine bores an elongated hole by rotating a boring drill(134) connected to a transmitting rod(132) through a rotating pump(130) while moving a guide rail(105) via a moving pump(100). A valve body(110), adjusting the advance and retreat by making compressed air come in and out the moving pump, is formed to the rear of the moving pump. An adjusting bush adjusting the direction of the compressed air is rotatably formed to the inside of the valve body. An adjusting lever is combined to one end of the adjusting bush to enable adjustment by rotation. A compressed air inlet is formed to a side of the valve body to supply compressed air. An advancing pneumatic hole is formed along an advancing passage and is connected to an advancing pneumatic pipe of the moving pump to supply the compressed air via a compressed air input port and an input hole of the adjusting bush.

Description

Hand-operated Drilling Device For Long Hole}

The present invention relates to a manual long hole drilling machine for drilling a long hole required for a gang, etc. In more detail, in the work of drilling a mine of the coal mine complex, depending on the existing rock drilling machine to form a sloping hole inclined due to post-blasting work Compared to the method of digging out the gang, the blast hole required for the blasting work can be drilled quickly and horizontally with the long hole being vertically adjustable, and it is also possible to easily discharge the crushed rocks due to the blast hole formation. The present invention relates to a manual perforator which reduces the weight and enables the operation of a small number of people.

A general tunnel is an underground structure that is used as a passage or space built under the surface of the ground and has a cross-section of more than 2㎡. The tunnels include railway tunnels, road tunnels, There are water tunnels, wire and communication tunnels, underground power plant tunnels, underground parking tunnels, oil storage tunnels, and mine tunnels.

According to the classification by the size of tunnel section, small section tunnel has excavation area less than 12㎡, and there are water tunnel, wire and communication tunnel, mining tunnel, etc. There are road tunnels and subway tunnels, and large section tunnels have an excavated area of more than 40㎡, including underground power plant tunnels, underground parking tunnels, and oil storage tunnels.

Excavation method of each tunnel as described above includes blasting method using explosive force of gunpowder, mechanical excavation method by excavation machine, hydraulic excavation method by hydraulic power, but in general, rock properties such as strength of rock, weathering degree, crack state Most of them are selected by blasting method using explosive power of gunpowder.

In general, the drilling equipment used in the small cross-section excavation method is a resin type rock drill (Leg drill) has a problem in terms of the performance of the rock drill to improve the drilling efficiency by drilling a horizontal drilling of large diameter long holes.

On the other hand, the jumbo drill developed to allow horizontal large diameter drilling is equipped with a feeder on a boom stage that is moved by a hydraulic cylinder, and a hydraulic rock drill is attached thereon to drill the boom and the feeder with a hydraulic cylinder. Although there are excavation equipments that are not produced in Korea that can be drilled while advancing the hydraulic rock drill mounted on the upper side of the feeder, these pointboard reels have a straight horizontal tunnel with a minimum excavation area of 15㎡ or more. There is a disadvantage in that it can not be used for excavation of mine tunnels because of its limited use only in the digging of tunnels such as subway construction.

The reason for the above is that even in the case of using a point board reel with a deep geothermal rise in the ground surface of the workplace, the temperature of the workplace is increased by about 5 to 7 ° C., which makes the operation almost impossible.

Horizontal large-diameter long hole perforator developed to solve such a problem as shown in Figure 1 and the bogie 10 is installed to be movable on the rail provided from the entrance of the shaft; A first guide rail 20 fixedly installed at a predetermined interval in the width direction with respect to the longitudinal direction of the upper surface of the trolley 10; An up and down adjustment member 30 fixedly installed at a front and back side predetermined position of the first guide rail 20; A second guide rail 40 connected and fixed to an upper side of the upper and lower control member 30; A diffraction link 50 installed on both sides of the first guide rail 20 and the second guide rail 40 so as to be folded up and down; A pneumatic cylinder (60) connected to and installed at a predetermined position on the diffraction link (50) and rotatably mounted on one end of the trolley (10) to raise and lower the second guide rail (40); It is installed on the second guide rail 40 so as to move horizontally and is installed on the second guide rail 40 to puncture the drilling mak (workshop) surface in the pit, the hammer drill (H) and the hollow A support (71) for connecting and installing the drill rod (D), a rack (not shown) fixedly installed on the second guide rail 40 between the support (71), and engaged with the rack horizontally back and forth A feeder (not shown) to be transported, a rotary motor 74 fixedly installed on the feeder to rotate the drill rod D, and connected to a spindle of the rotary motor 74 to drill the drill rod D. Drilling means (not shown) formed of a flushing head 75 for fixing the connection and a propulsion motor 76 installed on one side of the rotary motor 74 to drive the feed table horizontally on the rack; A first air supply tank (T1) for supplying a high-pressure air pressure supplied from a mobile rotary screw compressor (C) provided from an air inlet installed at one side to the hammer drill (H) to discharge impacts and crushed materials; A second air supply tank (T2) connected to an air inlet installed at one side and supplied with compressed air supplied from an outside of the shaft to drive the pneumatic cylinder (60) and the rotary motor and the propulsion motor of the drilling means; A lubrication supply tank (T3) installed on the second air supply tank (T2) air supply line (A2) to supply lubricating oil to the rotary motor (74) and the propulsion motor (76); A water supply tank (T4) installed on the air supply line (A1) of the first air supply tank (T1) to inject high pressure water; A lubrication supply tank T5 installed at a predetermined position on the air supply line A1 for smooth operation of the hammer drill H and supplying lubricating oil; It is composed of a control lever (L) installed on the air supply line (A2) of the second air supply tank (T2) to control the air supply.

However, the above-described boring boring machine has a problem that the body is large and the narrow tunnel has limitations in use due to the limitation of the working space and the weight is relatively large, and the working conditions are deteriorated and expensive.

Therefore, as shown in FIG. 2 developed to solve the above problems, the long hole perforator has a simplified structure by supplying compressed air to the valve body 210 formed on the upper portion of the moving pump 200. The pinion gear is rotated together with the rack gear 204 through the driving gear of the reciprocating guide rail 205, and the drilling drill 234 connected to the transmission rod 232 through the rotary pump 230 rotates the long hole. It is configured to be perforated.

However, the valve body having the structure as described above is located at the upper end of the moving pump so that the adjustment lever 226 of the valve body capable of adjusting the supply direction of the pneumatic pressure is not the rear of the moving pump 200 but the upper portion of the moving pump 200. Since the working position is not stable because it is adjusted in the operation and bring the inefficiency of the conventional valve body 210 separately purchased or manufactured to attach to the moving pump 200, so the advance by the connecting pipe 230 separately While connecting the pneumatic hole 214 and the forward pneumatic pipe 206 has a disadvantage in that the cumbersome and complicated structure to connect the reverse pneumatic hole 216 and the reverse pneumatic pipe 207 by the connecting pipe 230.

In addition, there is a disadvantage that the working range of the drill must be narrow due to the work characteristics adjusted by the manual type.

Therefore, the present invention was developed in view of the above circumstances, and the structure is simplified to provide a low cost manual long hole drilling machine, which has good working conditions without being restricted by the working space even in a narrow tunnel. .

In addition, the adjustment lever of the valve body that can adjust the supply direction of the pneumatic pressure is adjusted from the rear of the moving pump, not the upper part of the moving pump, so that the working position is stable and the working range of the drilling is deepened. It is possible to perform the drilling operation at the position, and to provide a manual long hole drilling machine by which the valve body of the present invention is connected to the front and rear vacuum pressure pipes of the moving pump without the need for a separate connection pipe, simplifying the structure and simplifying the fabrication. The purpose is.

1 is an overall configuration diagram of a conventional horizontal perforation machine.

Figure 2 is an overall configuration diagram of a conventional manual punching machine.

FIG. 3 is a partial configuration diagram of a moving pump of the manual long boring machine of FIG. 2.

Figure 4 is an overall configuration of a manual long hole puncher according to the present invention.

5 is a structural state in which the valve body is coupled to the rear of the moving pump according to the present invention.

Figure 6a, Figure 6b is a cross-sectional view of the main back and forth state of the valve body according to the present invention.

7 is a cross-sectional view of the driving gear and the drive shaft of the moving pump according to the present invention integrally formed.

Explanation of symbols on the main parts of the drawings

100: moving pump 101: drive shaft

102: drive gear 103: pinion gear

104: rack gear 105: guide rail

106: forward pneumatic pipe 107: backward pneumatic pipe

110: valve body 111: compressed air inlet

112: input passage 113: forward passage

114: forward pneumatic 115: reverse groove

116: backward air pneumatic 120: adjusting bush

121: compressed air inlet 122: input hole

123: access partition 124: discharge hole

125: compressed air outlet 126: adjustment lever

130: rotary pump 132: transfer rod

134: drill

In the manual punching machine of the present invention for achieving the above object, in the punching machine which can punch the long hole by rotating the drilling drill connected to the transfer rod through the rotary pump while moving the guide rail through the moving pump, the movement A valve body for adjusting the forward and backward movement of the compressed air into and out of the pump is formed at the rear of the moving pump to improve the operational convenience and the working range of the long hole drill, and the direction of the compressed air can be adjusted inside the valve body. One end of the adjustment bush is rotatably formed to protrude to the outside, the adjustment lever is coupled to form the adjustment through rotation to one end of the adjustment bush and the valve body is compressed to one side to supply compressed air An air inlet is formed, and the supplied compressed air passes through the compressed air inlet and the inlet of the adjusting bush. As the forward pneumatic air is penetrated along the forward passage to supply compressed air connected to the forward pneumatic pipe of the pump, the backward pneumatic hole penetrates along the backward groove formed in the recess to connect compressed air to the reverse pneumatic pipe of the moving pump to supply compressed air. Formed,

In addition, the adjustment bush is formed through the compressed air inlet through one side of the tubular shape, the compressed air outlet is formed through the other side, and the compressed air outlet is formed through the inlet is formed in communication with the compressed air inlet is cut off by the entrance partition inside. It is characterized in that the discharge hole is formed in communication with the through.

And the adjustment bush is characterized in that the adjustment lever is formed in a perpendicular direction to the side protruding from the valve body so as to simplify the adjustment structure.

And the inside of the moving pump or the rotary pump is characterized in that the drive gear formed integrally with the drive shaft is rotatably installed to face each other so as to be rotated by the compressed air.

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

As shown in Figure 4, the manual long hole perforator according to the present invention is a rotary pump 130 while moving along the guide rail 105 through the moving pump 100 according to the supply of compressed air through the valve body 110 formed in the rear end It is configured to perforate the long hole by rotating the drill drill 134 connected to the transfer rod 132 through). Figure 4 shows the overall configuration of a manual long hole puncher according to the present invention.

Therefore, the valve body 110 for adjusting the forward and backward movement by moving the compressed air in and out of the moving pump 100 has the valve in the front and rear vacuum pressure pipe 107 formed above and below the rear of the moving pump 100 for operational convenience. The front and rear vacuum pneumatic holes 116 of the body 110 are connected to each other. 5 shows a structural state in which the valve body 110 is coupled to the rear of the moving pump 100.

6A and 6B are cross-sectional views of a state in which the adjustment bush 120 is coupled to the valve body 110, and the adjustment bush 120 may rotate in the valve body 110 to adjust the direction of the compressed air. One end is formed to protrude to the outside, and the adjustment lever 126 is coupled to the adjustment bush 120 at a right angle so that adjustment through rotation is performed at one end of the adjustment bush 120.

In addition, the adjustment bush 120 is formed through the compressed air inlet 121 through the tubular lower portion is formed through the compressed air outlet 125 through the upper, the compressed air inlet 121 and the compressed air outlet (125) An access partition 123 is formed obliquely inside to cut off.

In addition, while the inlet hole 122 penetrates the one side of the adjustment bush 120 to communicate with the compressed air inlet 121, the outlet hole 124 is in communication with the compressed air outlet 125. Is formed through the other side of the adjustment lever 120 to the compressed air outlet 125 toward the compressed air discharge port 125 so that the discharge of the compressed air is smoothly protruded from the valve body 110, the adjustment lever ( 126) is formed.

In addition, the valve body 110 has a compressed air inlet 111 is formed on one side to supply the compressed air, the input passage 112 is opened so that the supplied compressed air can be introduced into the inside, the input passage 112 Adjusting the bushing in the position adjacent to the inlet passage 112 of the valve body 110 so that the compressed air inlet 121 is injected into the compressed air inlet 121 of the adjustment bush 120 120 is rotatably fitted.

In addition, a forward passage 112 is opened to allow the compressed air introduced into the compressed air inlet 121 to flow into the moving pump 100 through the inlet 122, and a forward pneumatic pipe of the mobile pump 100 ( The forward pneumatic air 114 is penetrated to be connected to 106 so that compressed air can be supplied along the forward path 112.

In addition, a reverse groove 115 is formed in a recess from the side of the adjustment bush 120 in which the injection hole 122 is formed so as to flow into the moving pump 100, and a reverse pneumatic pipe of the moving pump 100 ( The reverse pneumatic hole 116 is penetrated to be connected to 107 so that compressed air can be supplied along the reverse groove 115.

On the other hand, the inside of the moving pump 100 or the rotary pump 130, the drive gear 102 formed integrally with the drive shaft 101 is rotatably installed to face each other so that the compressed air can be supplied and rotated therebetween. . 7 is a cross-sectional view of the driving gear 102 and the drive shaft 101 of the moving pump 100 according to the present invention integrally formed.

In other words, the drive shaft 101 and the drive gear 102 integrally formed are formed to face each other, the drive shaft 102 integrally formed with the drive gear 102 of one side is downward in the case of the moving pump 100 as shown in the figure Protrudingly formed and coupled with the pinion gear 103 (not shown) to be movable in engagement with the rack gear 104, in the case of the rotary pump 130, one end of the drive shaft 101 protrudes to the side Coupling is formed with the transfer rod 132 connected to the drilling drill 134.

Looking at the operation process of the manual long hole puncher according to the present invention as shown in Figure 6a and 6b as follows.

Compressed air through the valve body 110 formed at the rear end is supplied to the moving pump 100 to move along the guide rail 105, and compressed air is supplied to the rotary pump 130 to drill the drill rod connected to the transfer rod 132. By rotating 134, the long hole can be drilled.

Therefore, when the adjustment lever 126 is moved to the state in which the moving pump 100 receives the compressed air in the forward direction, that is, the adjustment lever 120 so that the injection hole 122 of the adjustment bush 120 communicates with the forward passage 112. 126), it is possible to advance the manual long hole puncher of the present invention as a whole.

In addition, the compressed air is supplied through the compressed air inlet 111 to pass through the inlet passage 112 to the compressed air inlet 121 of the adjustment bush 120 and discharged to the inlet 122 along the entrance partition 123. While the compressed air is moved along the forward passage 112 again, the compressed air is discharged to the forward pneumatic air 114 of the valve body 110, and at the same time, the compressed air is supplied to the forward pneumatic pipe 106 of the moving pump 100.

In addition, the compressed air supplied to the forward pneumatic tube 106 moves to the inside of the moving pump 100 to one side where the drive gear 102 rotates and moves forward to the drive gear 102 formed integrally with the drive shaft 101. By being supplied, the drive gear 102 rotates in the forward direction.

In addition, by rotating the pinion gear 103 integrally coupled with the drive shaft 101 from the rack gear 104 engaged at the bottom thereof, it is possible to move the manual long hole drilling machine of the present invention along the guide rail 105 in the forward direction. do.

In addition, the compressed air, which was supplied inside the moving pump 100 through the forward pneumatic tube 106, rotates the drive gear 102 and then moves in the opposite direction to be supplied and is discharged through the reverse pneumatic tube 107 so that the reverse groove ( It is discharged to the outside through the compressed air discharge port 125 of the adjusting bush 120 along the access partition 123 while moving to the discharge hole 124 through 115.

In addition, it is advanced to fix the manual long hole drilling machine of the present invention to the position to work, and supply the compressed air to the rotary pump 130 to rotate the drive gear 102 as in the case of the mobile pump 100, the drive gear 102 By rotating the drilling drill 134 with the transmission rod 132 connected to) it is possible to drill the hole of the desired depth.

On the other hand, to stop the drilling operation to move the manual long hole drilling machine of the present invention in the reverse direction, the insertion hole 122 of the adjustment bush 120 in the reverse direction in the forward direction to the reverse groove 115 of the valve body 110 Adjusting lever 126 is turned to position.

In addition, the compressed air is supplied through the compressed air inlet 111 to be introduced into the compressed air inlet 121 of the adjusting bush 120 through the inlet passage 112 and discharged to the inlet 122 along the entrance partition 123. While the compressed air moves along the reverse groove 115 again, the compressed air is discharged to the reverse pneumatic hole 116 of the valve body 110 and at the same time, the compressed air is supplied to the reverse pneumatic pipe 107 of the moving pump 100.

In addition, the compressed air supplied to the reverse pneumatic pipe 107 is moved to the inside of the moving pump 100 to the other side that the drive gear 102 is rotated back to the drive gear 102 integrally formed with the drive shaft 101. The drive gear 102 is rotated in the reverse direction by being supplied.

And by rotating the pinion gear 103 integrally coupled with the drive shaft 101 from the rack gear 104 that is engaged in the lower portion at the same time to move the manual long hole drilling machine of the present invention along the guide rail 105 in the reverse direction. do.

In addition, the compressed air that was supplied to the inside of the moving pump 100 through the reverse pneumatic tube 107 rotates the drive gear 102 and then moves in the opposite direction to be supplied and is discharged through the forward pneumatic tube 106 to advance the forward passage ( It is discharged to the outside through the compressed air outlet 125 of the adjusting bush 120 along the access partition 123 while moving to the discharge hole 124 through 112.

In the detailed description of the present invention as described above, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

As described above, the manual hole drilling machine of the present invention is simplified, and thus, even in a narrow tunnel, it is possible to provide a low-cost manual drilling hole drilling machine without any limitation of the work space.

In addition, the valve body 110 is connected to the front and rear vacuum pipes of the moving pump without the need for a separate connection pipe, so that the adjustment lever of the valve body that can adjust the supply direction of the pneumatic pressure is not the upper part of the moving pump. It is possible to adjust at the rear of the work place, so that the working position is stable and the range of perforation work is widened, bringing the efficiency of work, and the effect of making the structure and the structure simple.

In addition, the driving gear installed inside the moving pump and the rotary pump may be integrally formed with the driving shaft, thereby providing a manual long hole drilling machine which can be assembled without requiring a separate assembly and the rotational force can be reliably transmitted.

Claims (4)

delete In the long hole drilling machine capable of drilling the long hole by rotating the drilling drill 134 connected to the transfer rod 132 through the rotary pump 130 while moving the guide rail 105 through the moving pump 100, The valve body 110 for adjusting the forward and backward movement of the compressed air in and out of the moving pump 100 is formed at the rear of the moving pump 100 so as to lengthen the operation radius of the operation and the long hole drill, the valve The inside of the body 110, the adjustment bush 120 that can adjust the direction of the compressed air is rotatably formed so that one end is formed to protrude to the outside, the adjustment is made by rotating on one end of the adjustment bush 120 Adjusting lever 126 is formed to be coupled, the valve body is a compressed air inlet 111 is formed on one side to supply compressed air, the supplied compressed air compressed air inlet 121 of the adjustment bush 120 And the forward pneumatic hole 114 is formed along the forward path 112 so as to be connected to the forward pneumatic pipe 106 of the moving pump 100 to supply compressed air after passing through the inlet hole 122. Connected to the reverse pneumatic pipe (107) of 100). Reverse pneumatic ball 116 along a concave groove formed in the reverse 115 to supply compressed air is formed through, The adjustment bush 120 is formed through the compressed air inlet 121 is formed in the tubular one side through the compressed air outlet 125 is formed in the other side, is cut off by the entrance partition 123 inside the compressed air inlet Manual long hole drilling machine, characterized in that the through-holes 122 are formed in communication with the 121 and the discharge hole 124 is formed in communication with the compressed air outlet (125). The method of claim 2, The adjustment bush 120 is a manual long hole puncher, characterized in that the adjustment lever 126 is formed in a perpendicular direction to the side protruding from the valve body 110 to simplify the structure and to facilitate adjustment. The method of claim 2, The inside of the movable pump 100 or the rotary pump 130 is a manual type, characterized in that the drive gear 102 formed integrally with the drive shaft 101 so as to be rotated by compressed air rotatably installed facing each other Long hole drilling machine.