CN110539040A - Tap tapping machine for copper joint choke plug of pressure gauge - Google Patents

Abstract

The invention relates to a tapping machine for a copper joint choke plug of a pressure gauge, which comprises a machine tool frame and is characterized in that: the device comprises a feeding device arranged on one side of a machine tool frame, a conveying device matched with the feeding device, a thrust device arranged at the front end of the conveying device in the conveying direction and a tapping device arranged on the machine tool frame and used for processing a choke plug; the thrust device comprises a thrust plate, a pneumatic device is arranged on one side of the thrust plate, a V-shaped opening is formed in the other side, opposite to the pneumatic device, of the thrust plate and used for fixing a bulkhead, a push plate used for pushing the bulkhead after machining is further arranged on the thrust plate, the pneumatic device drives the thrust plate to move in a reciprocating mode in the direction perpendicular to the conveying direction of the conveying device, and the bulkhead is machined fixedly to be machined and/or collected after machining is pushed. The full-automatic tapping drill for the threads of the damping hole of the choke plug of the copper joint of the pressure gauge is realized, manual operation is completely replaced, labor force is saved, work efficiency is improved, and stability of product quality is guaranteed.

Description

Tap tapping machine for copper joint choke plug of pressure gauge

Technical Field

the invention belongs to the field of machining, and particularly relates to a tapping machine for a choke plug of a copper connector of a pressure gauge.

background

The pressure gauge copper joint choke plug is a component of the pressure gauge copper joint, and the center of the pressure gauge copper joint choke plug is a tapped damping hole. The general processing technology is respectively drilling earlier, the back tapping, a processing on the drilling machine alone, and the technology is loaded down with trivial details, and is inefficiency, and the quality is unstable moreover, because the vexed head is small, often inlays the vexed head earlier on the joint wholly, in addition the brill is attacked, just so brings following problem: firstly, in the drilling and tapping process, a part of copper scrap and copper foam is retained in the cavity, and potential safety hazards are left; secondly, after the screw hole is machined, in the process of embedding the screw hole into the joint, rotary vibration is generated, an embedded choke plug is easy to loosen, secondary damage is generated, tolerance matching is seriously influenced, and the screw hole is machined separately, so that the quality is unstable, the efficiency is low, and the rejection rate is high.

the tap tapping machine for the copper joint choke plug of the pressure gauge, provided by the invention, realizes automatic feeding, automatic processing and automatic discharging, can automatically stop and alarm when a fault occurs, and has the advantages of stable and reliable quality and greatly improved efficiency and yield.

disclosure of Invention

The invention designs a full-automatic tapping machine for the pressure gauge copper joint bulkhead, which has greatly improved efficiency and yield.

In order to solve the technical problems, the invention adopts the following scheme: the utility model provides a manometer copper joint vexed head tapping machine, includes the rack, its characterized in that: the device comprises a feeding device arranged on one side of the machine tool frame, a conveying device arranged on the machine tool frame and matched with the feeding device, a thrust device arranged at the front end of the conveying device in the conveying direction, and a tapping device arranged on the machine tool frame and used for processing a choke plug;

The thrust device comprises a thrust plate, one side of the thrust plate is provided with a pneumatic device, the thrust plate is provided with a V-shaped opening for fixing a choke plug relative to the other side of the pneumatic device, a push plate for pushing the choke plug after machining is further arranged on the thrust plate, and the pneumatic device drives the thrust plate to move in a reciprocating mode in the conveying direction of the conveying device, so that the choke plug to be machined is fixed and/or the choke plug after machining is pushed to be collected.

Manometer copper joint bulkhead tapping machine, its characterized in that: pneumatic means includes the cylinder and sets up push rod on the cylinder, the tip of push rod is equipped with the connector, the connector is the T type, be provided with the cooperation on the thrust plate the connecting piece of push rod, be provided with the spread groove on the connecting piece and be used for the joint the connector.

manometer copper joint bulkhead tapping machine, its characterized in that: the feeding device comprises a vibrating disc for stacking and conveying choke plugs, spiral grooves are formed in the inner wall of the vibrating disc, adjusting chutes for arranging the choke plugs are formed in the spiral grooves, a discharge hole of each spiral groove is connected to a feed inlet of the conveying device, and guide rail brackets are arranged between the vibrating disc and the machine tool frame and used for supporting.

Manometer copper joint bulkhead tapping machine, its characterized in that: the conveying device comprises an electromagnetic thrust device arranged inside the machine tool frame and a sliding chute arranged above the electromagnetic thrust device;

The electromagnetic thrust device comprises a rack fixedly connected inside the rack, an electromagnetic coil is arranged above the rack, two ends of the electromagnetic coil are respectively provided with a spring steel sheet, the lower end of the spring steel sheet is fixedly connected to the rack, the upper end of the spring steel sheet is fixedly connected to an iron plate to support the iron plate, the upper part of the iron plate is connected with the chute, an iron block is arranged below the iron plate, and the electromagnetic coil is matched with the iron block to drive the iron plate to move.

manometer copper joint bulkhead tapping machine, its characterized in that: the sliding groove is a double-concave structure groove;

the frame of the machine tool is provided with a door for observing the electromagnetic thrust device inside the frame of the machine tool.

Manometer copper joint bulkhead tapping machine, its characterized in that: the collecting device comprises a material receiving groove matched with the push plate, an opening communicated with a material discharging hopper is formed in the front end of the material receiving groove, and a material receiving box is further arranged below the material discharging hopper;

the bottom of receiving the workbin is provided with the universal wheel, be provided with the handle on receiving the lateral wall of workbin.

Manometer copper joint bulkhead tapping machine, its characterized in that: a proximity switch is arranged on the machine tool frame at a position close to the push plate.

Manometer copper joint bulkhead tapping machine, its characterized in that: the tapping device comprises a tapping machine arranged on the machine tool frame, and a drill bit of the tapping machine reciprocates in a direction perpendicular to the plane of the machine tool frame.

Manometer copper joint bulkhead tapping machine, its characterized in that: the device further comprises a protection device, wherein the protection device comprises a pair of laser correlation devices, and the laser correlation devices are respectively arranged on the left side and the right side of the choke plug fixed by the V-shaped opening of the thrust plate.

Manometer copper joint bulkhead tapping machine, its characterized in that: the vibration disk adjuster is connected to the PLC master control box and is electrically connected with the vibration disk; the pneumatic device, the tapping device and the electromagnetic thrust device are respectively and electrically connected with the PCL master control box.

This manometer copper joint bulkhead tapping machine has following beneficial effect:

The full-automatic tapping and drilling of the thread of the damping hole of the copper connector choke plug of the pressure gauge are realized, manual operation is completely replaced, labor force is saved, and work efficiency is improved by more than seven times. In addition, the stability of the product quality is ensured, the precision and the consistency of the product quality are ensured by using a constant process and a constant tool, and the product percent of pass reaches more than 99 percent.

Drawings

FIG. 1: the structure schematic diagram of the tap tapping machine for the copper joint bulkhead of the pressure gauge is disclosed;

FIG. 2: the thrust device is structurally schematic;

FIG. 3: the invention discloses a structure schematic diagram of a conveying device of a choke plug;

FIG. 4: the invention discloses a schematic structure diagram of a choke plug arrangement chute;

FIG. 5: the chute of the present invention is illustrated.

Description of reference numerals:

1, a feeding device; 11 vibrating the disc; 12 a helical groove; 13 adjusting the chute; 2, a conveying device; 21, a chute; 22 a frame; 23 an electromagnetic coil; 24 spring steel sheets; 25 iron plate; 26 iron blocks; 3, a thrust device; 31 air cylinders; 32 a push rod; a connector 321; 33 connecting pieces; 331 connecting grooves; 34 a thrust plate; 341V-shaped opening; 342 a push plate; 35 a proximity switch; 4, a tapping device; 41 a tapping machine; 5 a collecting device; 51, a material receiving groove; a 52 discharge hopper; 53, a material receiving box; 531 universal wheels; 6 a control unit; 61PLC master control box; 62 vibrating the disk controller; 63 vibrating the pan adjuster; 7 machine tool frame; 71 a door; 8, plugging the head; 9 a rail bracket; 10 laser transmitter.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings, so that the technical solutions of the present invention can be understood and appreciated more easily.

As shown in fig. 1, the tapping machine for the copper connector bulkhead of the pressure gauge of the invention comprises a machine frame 7, a feeding device 1 arranged on one side of the machine frame 7, a conveying device 2 arranged on the machine frame 7 and matched with the feeding device 1, a thrust device 3 arranged at the front end of the conveying direction of the conveying device 2, a tapping device 4 arranged on the machine frame 7 and used for processing the bulkhead 8, and a collecting device 5 arranged in the forward pushing direction of the thrust device 3. In addition, a control unit 6 is provided in the body of the frame 7, and the feeder 1, the conveyor 2, the thrust brake 3, the tapping unit 4, and a protection device for warning are electrically connected to the control unit 6.

Referring to fig. 4, the feeding device 1 includes a vibrating tray 11 for stacking and feeding the to-be-processed bulkhead 8, a spiral groove 12 is upwardly formed along an inner wall of the opening above the vibrating tray 11, and an adjusting chute 13 for orderly arranging the to-be-processed bulkhead 8 is further formed on the spiral groove 12. The outlet of the spiral groove 12 is connected to the inlet of a chute 21 in the conveyor 2. The vibration plate 11 is supported by the guide bracket 9 with respect to the machine frame 7.

Referring to fig. 3 and 5, the conveyor 2 includes an electromagnetic thrust device disposed inside the frame 7, and a chute 21 disposed above the electromagnetic thrust device. Wherein, the electromagnetic thrust device comprises a frame 22 fixedly connected inside the frame 7, an electromagnetic coil 23 is arranged above the frame 22, and two sides of the electromagnetic coil 23 are respectively provided with a spring steel sheet 24. One end of the spring steel plate 24 is fixedly connected to the frame 22 through a bolt or a screw, and the other end thereof is fixedly connected to an iron plate 25. The bottom of the iron plate 25 is provided with an iron block 26 in a protruding manner, and the iron block 26 is arranged at the right end close to the electromagnetic coil 23. In addition, the top of the iron plate 25 is fixedly connected with a sliding chute 21, and the sliding chute 21 is of a double-concave structure, so that the choke plug 8 to be processed is automatically positioned. The electromagnetic coil 23 is electrically connected to the control unit 6, and a door 71 is further provided on the side of the machine frame 7 in order to facilitate the inspection and repair of the electromagnetic thrust device.

When the electromagnetic coil 23 works, the alternating current power supply is switched on, so that the magnetic field direction of the electromagnetic coil 23 is changed periodically, the electromagnetic coil 23 generates pulsating magnetic force, when the magnetic field intensity at the end part of the electromagnetic coil 23 is larger, namely the magnetic force is larger than the elastic force of the spring steel sheet 24, the electromagnetic coil 23 attracts the iron block 26, the spring steel sheet 24 deforms, so that the iron plate 25 drives the chute 21 to move forwards, and the bulkhead 8 to be processed arranged in the chute 21 moves forwards. Until the elastic force of the spring steel sheet 24 is larger than the magnetic force of the electromagnetic coil 23 to the iron block 26, the spring steel sheet 24 is gradually reset, and the choke plug 8 in the sliding groove 21 moves forwards. When the electromagnetic thrust device works, the steps are repeated, and the choke plug 8 to be processed is continuously conveyed to the next processing technology.

Referring to fig. 2, the thrust device 3 includes a thrust plate 34, a V-shaped opening 341 is provided on one side of the thrust plate 34 close to the chute 21 to fix the bulkhead 8 for tapping, and a push plate 342 matching with the chute is provided on a side of the V-shaped opening 341. The other side of the thrust plate 34 opposite the V-shaped opening 341 is provided with pneumatic means. The pneumatic device comprises a cylinder 31 and a push rod 32 arranged at the front end of the cylinder 31, the front end of the push rod 32 is a connector 321, and the connector 321 is T-shaped. The thrust plate 34 is provided with a connecting piece 33, the connecting piece 33 is provided with a connecting groove 331 matched with the push rod 32, the T-shaped connector 321 of the push rod 32 is clamped into the connecting groove 331, and the cylinder 31 drives the push rod 32 to reciprocate in the vertical direction of the sliding groove 21 to drive the thrust plate 34 to reciprocate so as to fix or loosen the choke plug 8. The choke plug 8 that the tapping was accomplished continues the antedisplacement, and the blown down tank is close to near push pedal 342 and is provided with proximity switch 35, and choke plug 8 is close to proximity switch 35 rear cylinder 31 and promotes push pedal 342 and push into the blown down tank with choke plug 8, gets into through hopper 52 and receives workbin 53 and collect. The bottom of the material receiving box 53 is provided with a universal wheel 531, and the side wall of the material receiving box 53 is provided with a handle, so that the material receiving box 53 can be moved conveniently. The proximity switch 35 is an infrared sensor and/or a pressure sensor.

The tapping device 4 is fixedly connected to the frame 7, wherein the tapping machine 41 is disposed above the vertical pushing device to tap the bulkhead 8 fixed in the V-shaped opening 341.

The control unit 6 is arranged on the machine frame 7 and comprises a PLC master control box 61, a vibration disk 11 controller and a vibration disk 11 regulator, wherein the vibration disk 11 regulator is connected to the PLC master control box 61 and is electrically connected with the vibration disk 11. The pneumatic device, the tapping device 4 and the electromagnetic thrust device are respectively and electrically connected with the PCL master control box. And the vibration disk 11 adjuster is used for adjusting the vibration frequency of the vibration disk 11 so as to control the speed of the transmission of the choke plug 8. The vibration disk 11 controller is connected with the vibration disk 11 regulator to synchronize the feeding speed of the choke plug of the feeding device 1 and the transportation speed of the choke plug of the conveying device 2.

The protection device is a pair of laser ejectors which are respectively arranged at the left side and the right side of the bulkhead 8 to be processed and fixed by the V-shaped opening 341 of the thrust plate 34, the two laser ejectors are mutually ejected, and when the machine fails or the screw tap is broken and clamped, the laser ejectors are automatically disconnected to play a protection role.

In addition, the vibration disc 11 used in the invention utilizes the electromagnetic vibration principle to automatically release the on and off of the alternating current to generate the same-frequency vibration, so that the machined part automatically enters the spiral groove 12, and the redundant parts automatically fall into a bin; the spiral groove 12 arranged in the vibrating disk 11 is arranged in a T shape, after the copper joint choke plug 8 of the pressure gauge falls into the groove, the choke plug 8 can be automatically arranged by utilizing the slope formed during spiral rising as the spiral groove 12 spirally rises; arranging a chute through a choke plug 8 arranged on a vibrating disc 11, and adjusting the choke plug 8 with an upward plane into a downward plane so as to adapt to a tapping program; the choke plug 8 sliding groove 21 is designed into a double concave shape, and the choke plug 8 entering the sliding groove 21 carries out automatic positioning; an electromagnetic thrust device is also arranged at the bottom of the sliding chute 21, and the thrust of the machined part is enhanced to be attached to the rail by utilizing the alternating current electromagnetic vibration principle, so that the orderly arrangement and reasonable interval of the machined part are ensured; a thrust plate 34 arranged at the front end of the cylinder 31 locks a machined part, ensures accurate positioning when the tapping machine 41 works downwards, and prevents the deviation of a screw hole; the processed choke plug 8 is pushed into the discharging chute 21 to enter the discharging hopper 52 continuously by the push rod 32 to do parallel reciprocating motion according to the designed stroke and time by a pneumatic device; the tapping machine 41 is arranged on the plane of a machine tool, the upper and lower strokes, the distance and the time are designed, the tapping machine and the pneumatic parallel push rod synchronously run, and one screw hole is machined after one up-and-down reciprocating motion is carried out; by utilizing a laser correlation principle, respectively mounting a laser correlation device at the position of the drilling machine screw tap at the left and right relative distance, and automatically disconnecting the machine by the correlation principle when the machine breaks down or the screw tap breaks and is clamped; the discharge hopper 52 is a rectangular oblique hopper, and automatically slides into the receiving box 53 by utilizing a free falling body; the bottom of the material receiving box 53 is provided with universal wheels 531, and a handle can be pulled for transportation; the vibration disk 11 adjuster is specially used for adjusting the vibration frequency of the vibration disk 11 and is connected with the PLC master controller; the vibration disk 11 controller is connected with the vibration disk 11 adjuster to synchronize the vibration frequency operation speed, and is connected with the PLC master controller to start uniformly and operate synchronously; the electromagnetic thrust device is arranged in the machine frame 7, and the electromagnetic thrust device door 71 is opened to facilitate observation, inspection and maintenance; the PLC master control box is provided with a manual and automatic dual-purpose switch, a power switch, a starting switch, a stopping switch, a tap switch, a locking and clamping switch, a power indicator lamp and an alarm indicator lamp, and the whole machine is synchronously controlled; the drilling machine can select the corresponding model according to the power.

Specifically, the power supply is turned on, the PLC master control box 61 is adjusted, and the feeding speed of the feeding device 1, the transportation speed of the choke plug 8 of the conveying device 2 and the tapping speed of the tapping device 4 are set, so that all devices of the equipment work synchronously. The choke plug 8 to be processed is arranged in the spiral groove 12 in the storage bin of the vibrating disc 11 through the vibration of the vibrating disc 11 and conveyed forwards, the choke plug 8 to be processed with the wrong orientation falls into the storage bin at the position of the adjusting chute 13 to be rearranged, the choke plug 8 with the correct orientation enters the conveying device 2, the electromagnetic coil 23 in the electromagnetic thrust device generates a pulsating magnetic field after being electrified, when the magnetic field intensity is large, the iron block 26 is attracted to move, the spring steel sheet 24 is deformed, the iron plate 25 and the chute 21 on the iron plate 25 are driven to move, the choke plug 8 placed in the chute 21 is further driven to move forwards, when the magnetic field intensity is small, the elasticity of the spring steel sheet 24 is larger than the magnetic force, the spring steel sheet 24 and the iron plate 25 fixedly connected above the spring steel sheet 24 are reset, and the operation of conveying. Before the choke plug 8 is conveyed to the thrust plate 34, the cylinder 31 pushes forwards during working, the V-shaped opening 341 in the thrust plate 34 fixes the door 71, then the tapping device 4 works to perform tapping processing on the choke plug 8, the cylinder 31 drives the thrust plate 34 to retreat after finishing, the processed choke plug 8 moves forwards continuously to the proximity switch 35, the cylinder 31 pushes the thrust plate 34 during working, the push plate 342 in the thrust plate 34 pushes the processed choke plug 8 into the discharge chute and enters the material receiving box 53 through the discharge hopper 52 for collection, the choke plug 8 to be processed is fixed by the V-shaped opening 341 and is processed, and the steps are repeated after. In the invention, the feeding speed of the vibrating disc 11, the conveying speed of the electromagnetic thrust device, the motion period of the air cylinder 31 and the tapping speed of the tapping machine 41 are the same, namely the bulkhead 8 to be machined is machined after being fixed by the V-shaped opening 341, the air cylinder 31 is reset after the completion, the machined bulkhead 8 is arranged at the discharge chute, the bulkhead 8 to be machined is arranged at the V-shaped opening 341, and the air cylinder 31 works to push the thrust plate 34 to enable the machined bulkhead 8 to enter the material receiving box 53, so that the bulkhead 8 to be machined is fixed for machining.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The invention is described above with reference to the accompanying drawings, it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. The utility model provides a manometer copper joint vexed head tapping machine, includes rack (7), its characterized in that: the device comprises a feeding device (1) arranged on one side of the machine tool frame (7), a conveying device (2) arranged on the machine tool frame (7) and matched with the feeding device (1), a thrust device (3) arranged at the front end of the conveying direction of the conveying device (2) and a tapping device (4) arranged on the machine tool frame (7) and used for machining a choke plug (8);

thrust device (3) are including thrust plate (34), one side of thrust plate (34) is provided with pneumatic means, thrust plate (34) for pneumatic means's opposite side is provided with V type opening (341) and is used for fixed bulkhead (8), still be provided with push pedal (342) that are used for promoting bulkhead (8) after the processing on thrust plate (34), the pneumatic means drive thrust plate (34) is at the perpendicular to reciprocating motion on conveyor (2) direction of delivery to the fixed bulkhead (8) of waiting to process processes and/or promote bulkhead (8) after the processing and collect.

2. The tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: pneumatic means includes cylinder (31) and sets up push rod (32) on cylinder (31), the tip of push rod (32) is equipped with connector (321), connector (321) are the T type, be provided with the cooperation on thrust plate (34) connecting piece (33) of push rod (32), be provided with on connecting piece (33) spread groove (331) for the joint connector (321).

3. The tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: the feeding device (1) comprises a vibrating disk (11) for stacking and conveying choke plugs (8), wherein spiral grooves (12) are formed in the inner wall of the vibrating disk (11), adjusting inclined grooves (13) used for arranging the choke plugs (8) are formed in the spiral grooves (12), a discharge hole of each spiral groove (12) is connected to a feed hole of the conveying device (2), and a guide rail bracket (9) is arranged between the vibrating disk (11) and the machine frame (7) and used for supporting.

4. the tapping machine for the pressure gauge copper joint bulkhead according to claim 1 or 3, characterized in that: the conveying device (2) comprises an electromagnetic thrust device arranged inside the machine bed frame (7) and a sliding chute (21) arranged above the electromagnetic thrust device;

The electromagnetic thrust device comprises a rack (22) fixedly connected inside a rack (7), an electromagnetic coil (23) is arranged above the rack (22), spring steel sheets (24) are respectively arranged at two ends of the electromagnetic coil (23), the lower end of each spring steel sheet (24) is fixedly connected onto the rack (22), the upper end of each spring steel sheet is fixedly connected onto an iron plate (25) to support the iron plate (25), the upper part of the iron plate (25) is connected with the sliding groove (21), an iron block (26) is arranged below the iron plate, and the electromagnetic coil (23) is matched with the iron block (26) to drive the iron plate (25) to move.

5. The tap tapping machine for a copper tap of a pressure gauge according to claim 4, wherein: the sliding groove (21) is a double-concave structure groove;

The machine tool frame (7) is provided with a door (71) for observing the electromagnetic thrust device inside the machine tool frame (7).

6. the tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: the collecting device (5) is arranged in the forward pushing direction of the thrust device (3), the collecting device (5) comprises a material receiving groove (51) matched with the push plate (342), the front end of the material receiving groove (51) is provided with an opening communicated with a material discharging hopper (52), and a material receiving box (53) is arranged below the material discharging hopper (52);

the bottom of the material receiving box (53) is provided with universal wheels (531), and the side wall of the material receiving box (53) is provided with a handle.

7. the tapping machine for the pressure gauge copper joint bulkhead according to claim 1 or 6, characterized in that: a proximity switch is arranged on the machine tool frame (7) near the push plate (342).

8. The tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: the tapping device (4) comprises a tapping machine (41) arranged on the machine frame (7), and a drill of the tapping machine (41) is reciprocated in a direction perpendicular to the plane of the machine frame (7).

9. The tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: the device further comprises a protection device, wherein the protection device comprises a pair of laser correlation devices, and the laser correlation devices are respectively arranged on the left side and the right side of a choke plug (8) fixed on the V-shaped opening (341) of the thrust plate (34).

10. The tapping machine for the bulkhead of the copper joint of the pressure gauge according to claim 1, wherein: the vibration table is characterized by further comprising a control unit (6), wherein the control unit (6) is arranged on the machine frame (7) and comprises a PLC (programmable logic controller) master control box (61), a vibration disc (11) controller and a vibration disc (11) adjuster, and the vibration disc (11) adjuster is connected to the PLC master control box (61) and is electrically connected with the vibration disc (11); the pneumatic device, the tapping device (4) and the electromagnetic thrust device are respectively and electrically connected with the PCL master control box.