CN110560797A - double-head tapping device for special-shaped pipe - Google Patents

Abstract

The application relates to a double-end tapping device for a special-shaped pipe. The application the tooth device is attacked to special-shaped pipe double-end include: the fixture comprises a supporting platform, a fixture base, a first tapping assembly and a second tapping assembly, wherein the fixture base is fixed on the supporting platform, and a first limiting groove and a second limiting groove are respectively formed in two ends of the fixture base along the length direction; first attack tooth subassembly and second and attack the tooth subassembly and fix respectively on supporting platform to arrange in respectively the length direction's of anchor clamps base both ends make first attack tooth subassembly with the second is attacked the tooth subassembly and can be followed respectively the both ends of anchor clamps base are processed. The application the tooth device is attacked to special-shaped pipe double-end have the advantage that machining efficiency is high.

Description

Double-head tapping device for special-shaped pipe

Technical Field

The application relates to a pipe fitting tapping device, in particular to a special-shaped pipe double-end tapping device.

Background

The special-shaped pipe tapping device in the prior art only provides single-end tapping of a special-shaped pipe, especially aims at processing of the special-shaped pipe with coaxial two ends and different middle axes, cannot tap simultaneously, and only can tap one end of a pipe fitting and then tap the other end of the pipe fitting after the position of the pipe fitting is adjusted. Thus, the processing efficiency is affected.

Disclosure of Invention

based on this, the present application aims to provide a double-head tapping device for a special pipe, which has the advantage of improving the processing efficiency.

A double-head tapping device for a special-shaped pipe comprises a supporting platform, a clamp base, a first tapping assembly and a second tapping assembly, wherein the clamp base is fixed on the supporting platform, and a first limiting groove and a second limiting groove are respectively formed in two ends of the clamp base along the length direction; first attack tooth subassembly and second and attack the tooth subassembly and fix respectively on supporting platform to arrange in respectively the length direction's of anchor clamps base both ends make first attack tooth subassembly with the second is attacked the tooth subassembly and can be followed respectively the both ends of anchor clamps base are processed.

The application tooth device is attacked to dysmorphism pipe double-end, through the length direction both sides at the anchor clamps base set up respectively and attack the tooth subassembly, when placing the both ends of dysmorphism pipe on the anchor clamps base respectively, the both ends of dysmorphism pipe are spacing respectively on first spacing groove and second spacing groove, attack the processing of tooth subassembly and second and add at first attack the tooth subassembly, can accomplish the tooth of attacking at dysmorphism pipe both ends simultaneously to production efficiency has been improved.

Further, the first tapping assembly comprises a first tapping cutter, a first limiting lifting mechanism and a first limiting block, the first tapping cutter is arranged on one side of the first limiting groove, and a cutter edge of the first tapping cutter faces the first limiting groove; the first limiting block is arranged above the first limiting groove and is connected with the supporting platform through the first limiting lifting mechanism; the second tapping assembly comprises a second tapping tool, a second limiting lifting mechanism and a second limiting block, the second tapping tool is arranged on one side of the second limiting groove, and a tool edge of the second tapping tool faces the second limiting groove; the second limiting block is arranged above the second limiting groove and is connected with the supporting platform through the second limiting lifting mechanism. The first limiting block presses the special-shaped pipe downwards under the driving of the first limiting lifting mechanism and presses the special-shaped pipe on the first limiting groove; similarly, under the drive of the second limit lifting mechanism, the second limit block presses the special-shaped pipe downwards and presses the special-shaped pipe on the second limit groove, so that the special-shaped pipe is installed and fastened, and tapping processing is facilitated. The first tapping cutter and the second tapping cutter tap the two ends of the special-shaped pipe respectively, so that the machining efficiency is guaranteed.

Further, the first tapping tool comprises a first tool support, a first floating chuck and a first chuck driving mechanism, the first floating chuck is transversely connected to the first chuck driving mechanism, and the first chuck driving mechanism is connected with the first tool support and fixed on the supporting platform through the first tool support; the opening of the first floating chuck faces the first limiting groove;

the second tapping cutter comprises a second cutter support, a second floating chuck and a second chuck driving mechanism, the second floating chuck is transversely connected to the second chuck driving mechanism, and the second chuck driving mechanism is connected with the second cutter support and fixed on the supporting platform through the second cutter support; the opening of the second floating chuck faces the second limiting groove. The floating chuck is adopted as the chuck, so that the tool bit has a radial swing angle when rotating circumferentially, and compared with the traditional fixed chuck, the stability and the processing precision of tapping can be improved.

further, the first tapping tool further comprises a first screw tap which is sleeved on the first floating chuck, and an opening of the first screw tap faces the first limit groove;

The second tapping tool further comprises a second screw tap which is sleeved on the second floating chuck, and an opening of the second screw tap faces the second limiting groove. The screw cone is sleeved on the chuck to be used as a tool bit, so that the special-shaped pipe is tapped.

Furthermore, the device also comprises a position calibration mechanism which is arranged on one side of the second limit groove and is fixed with the supporting platform;

The position calibration mechanism comprises a transverse moving mechanism and a baffle, the baffle is fixedly connected with the transverse moving mechanism, and the baffle is arranged between the second limiting groove and the second tapping component; the transverse moving mechanism is fixed with the supporting platform and can drive the baffle to transversely move. The position calibration mechanism is used for aligning when the special-shaped pipe is placed on the clamp base. The transverse moving mechanism drives the baffle to do transverse reciprocating motion, and the baffle is used for abutting against the end head of the special-shaped pipe, so that the special-shaped pipe can be automatically aligned, and automatic processing is facilitated.

furthermore, the tapping machine further comprises oil filling mechanisms, wherein the oil filling mechanisms are arranged on the supporting platform, and the two oil filling mechanisms respectively correspondingly supply the knife edge of the first tapping component and the knife edge of the second tapping component. When the oiling mechanism is used for tapping, oil is sprayed on the cutter head, so that the normal work of the cutter head is ensured.

The oil removing mechanism comprises an air blowing pipe and an air compression mechanism, an outlet of the air compression mechanism is connected with one end of the air blowing pipe, and the other port of the air blowing pipe is arranged on one side of the first limiting groove or one side of the second limiting groove. The oil removing mechanism is used for removing oil in the special-shaped pipe, compressed air is generated through the air pressure mechanism, then the compressed air is blown out through the air blowing pipe, enters from one end of the special-shaped pipe and then flows out from the other end of the special-shaped pipe, and the oil in the pipe is taken away, so that oil is removed.

Further, the device also comprises a storage mechanism, wherein the storage mechanism is connected with the supporting platform; the material storage mechanism comprises a material storage frame and a material pushing cylinder, wherein the material pushing cylinder is arranged below the material storage frame, and a piston rod of the material pushing cylinder can extend to the position above the material storage frame. The storage mechanism is used for stacking the materials of the special-shaped pipes so as to facilitate automatic transportation. The material is stacked in the storage frame, then through the propelling movement that pushes away the material cylinder, pushes out the storage frame with the special pipe one by one, makes things convenient for subsequent snatching and shifting.

Further, the device also comprises a transverse transfer mechanism, wherein the transverse transfer mechanism is arranged above the supporting platform and is connected with the supporting platform; the transverse transfer mechanism comprises a lifting grabbing manipulator, a transverse sliding rail and a transverse fixing support, and the transverse fixing support is fixedly connected with the supporting platform and is arranged above the supporting platform; the transverse sliding rail is fixed on the transverse fixing support and is positioned above the clamp base; the lifting grabbing manipulator is movably connected with the transverse sliding rail. The transverse transfer mechanism can grab, transport, transversely transfer and unload materials.

further, the automatic tapping machine further comprises a controller, wherein the first tapping component, the second tapping component, the transverse moving mechanism, the oiling mechanism, the air compression mechanism, the material pushing cylinder, the lifting grabbing manipulator and the transverse sliding rail are respectively and electrically connected with the controller. By arranging the controller, automatic operation and automatic processing of the device can be realized.

for a better understanding and practice, the present application is described in detail below with reference to the accompanying drawings.

Drawings

fig. 1 is a schematic perspective view of an exemplary double-headed shaped pipe tapping device according to the present application;

fig. 2 is a front view of an exemplary dual head shaped pipe tapping device of the present application;

FIG. 3 is a side view of an exemplary dual head shaped pipe tapping device of the present application;

fig. 4 is a perspective view of an exemplary lateral transfer mechanism of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

the utility model provides a tooth device is attacked to special-shaped pipe double-end is through spacing and fastening at special-shaped pipe both ends to process simultaneously from the both ends of special-shaped pipe respectively, thereby reduced the complex operation that single-ended processing and adjustment brought, can also guarantee the machining precision requirement. The utility model provides a tooth device is attacked to special-shaped pipe double-end, the processing of the long special-shaped steel pipe of application that can be better, when steel pipe length is more than 40cm, the effect is more obvious. And, mainly apply to the tapping of the internal thread of the steel pipe.

Fig. 1 is a schematic perspective view of an exemplary dual-head shaped pipe tapping device according to the present application. Referring to fig. 1, a double-head tapping device for a special pipe comprises a supporting platform 10, a fixture base 13, a first tapping assembly and a second tapping assembly, wherein the fixture base 13 is fixed on the supporting platform 10, and two ends of the fixture base along a length direction are respectively provided with a first limiting groove and a second limiting groove; the first tapping component and the second tapping component are respectively fixed on the supporting platform 10 and are respectively arranged at two ends of the clamp base 13 in the length direction, so that the first tapping component (not marked in the figure) and the second tapping component (not marked in the figure) can be respectively machined from two ends of the clamp base 13. In order to better clamp the special-shaped pipe 90 on the clamp base 13, the first limiting groove and the second limiting groove are arc-shaped respectively, and the size of the first limiting groove and the size of the second limiting groove are matched with the outer diameter of the special-shaped pipe 90.

In some preferred embodiments, the first tapping assembly includes a first tapping tool 11, a first limit lifting mechanism 152 and a first limit block 151, the first tapping tool 11 is disposed at one side of the first limit groove, and the cutting edge of the first tapping tool is directed to the first limit groove; the first limiting block 151 is arranged above the first limiting groove and is connected with the supporting platform 10 through the first limiting lifting mechanism 152;

The second tapping assembly comprises a second tapping tool 12, a second limiting lifting mechanism 162 and a second limiting block 161, the second tapping tool 12 is arranged on one side of the second limiting groove, and the edge of the second tapping tool faces the second limiting groove; the second limiting block 161 is disposed above the second limiting groove and connected to the supporting platform 10 through the second limiting lifting mechanism 162.

In some further embodiments, the first tapping tool 11 comprises a first tool support 113, a first floating collet 112, and a first collet driving mechanism (not shown), the first floating collet 112 being laterally connected to the first collet driving mechanism, the first collet driving mechanism being connected to the first tool support 113 and fixed to the support platform 10 by the first tool support 113; the opening of the first floating clamp 112 faces the first limit groove;

The second tapping tool 12 comprises a second tool support 123, a second floating chuck 122 and a second chuck driving mechanism (not shown in the figure), wherein the second floating chuck 122 is transversely connected to the second chuck driving mechanism, and the second chuck driving mechanism is connected to the second tool support 123 and fixed on the supporting platform 10 through the second tool support 123; the opening of the second floating clamp 122 faces the second limiting groove.

In some further embodiments, the first tapping tool 11 further comprises a first tap 111, the first tap 111 is sleeved on the first floating collet 112, and the opening of the first tap 111 faces the first limit groove; the second tapping tool 12 further comprises a second tap 121, the second tap 121 is sleeved on the second floating collet 122, and an opening of the second tap 121 faces the second limiting groove. In the present embodiment, the tool bit is a tap.

In some preferred embodiments, the device further comprises a position calibration mechanism 14, wherein the position calibration mechanism 14 is arranged on one side of the second limit groove and is fixed with the support platform 10; the position calibration mechanism 14 comprises a transverse moving mechanism 142 and a baffle 141, the baffle 141 is fixedly connected with the transverse moving mechanism 142, and the baffle 141 is arranged between the second limit groove and the second tapping component; the lateral moving mechanism 142 is fixed to the support platform 10 and can drive the baffle 141 to move laterally. In some further embodiments, the baffle 141 is angled relative to the knife edge so that it cuts obliquely into the end of the profile tube 90 during movement of the baffle 141 to adjust the position of the profile tube 90. This process acts like a triangular block moving laterally to adjust the height of a vertically disposed rod.

Fig. 2 is a front view of an exemplary dual head shaped pipe tapping device of the present application. With reference to fig. 2, in some preferred embodiments, the present invention further includes oil filling mechanisms disposed on the supporting platform 10, and the two oil filling mechanisms respectively supply the knife edge of the first tapping assembly and the knife edge of the second tapping assembly. The oiling mechanism comprises an oil pump (not shown in the figure) and an oil delivery pipe 21, and further comprises an oil tank (not shown in the figure), wherein the oil pump outputs oil in the oil tank through the oil delivery pipe 21, a port of the oil delivery pipe 21 is placed at a tool bit, for example, above the first screw tap 111, and when the first screw tap 111 machines the special-shaped pipe 90, the oil can enter the tool bit and the special-shaped pipe 90, so that the lubricating effect is achieved, and the screw tap is prevented from being damaged.

with reference to fig. 1, in some preferred embodiments, the oil removing device further includes an oil removing mechanism, where the oil removing mechanism includes an air blowing pipe 31 and an air compressing mechanism (not shown in the figure), an outlet of the air compressing mechanism is connected to one end of the air blowing pipe 31, and another port of the air blowing pipe 31 is disposed on one side of the first limiting groove or one side of the second limiting groove. In the example shown in fig. 1, after the first tap 111 finishes processing the special pipe 90, the end of the special pipe 90 may be connected to one end of the blow pipe 31, or one end of the blow pipe 31 may be connected to the special pipe 90, and then the air is blown into the special pipe 90 through the blow pipe, and the oil in the special pipe 90 is blown out through the high-pressure air flow. Even more, the blown oil collects in an oil sump placed on the support platform 10 for recovery. The air compression mechanism can be connected with the controller, and the controller is used for controlling the automatic work of the air compression mechanism.

Fig. 3 is a side view of an exemplary dual head shaped pipe tapping device of the present application. Referring to fig. 3, in some preferred embodiments, a stocker 40 is further included, and the stocker 40 is connected to the support platform 10;

The material storage mechanism 40 comprises a material storage frame 41 and a material pushing cylinder 42, the material pushing cylinder 42 is arranged below the material storage frame 41, and a piston rod of the material pushing cylinder 42 can extend out of the upper portion of the material storage frame 41. The storage frame 41 is provided with a movable groove, and a piston rod of the pushing cylinder 42 can penetrate through the movable groove, so that the single special-shaped pipe 90 can be pushed up, and the special-shaped pipes 90 can be pushed one by one. The material pushing cylinder 42 can be controlled by a controller, so that the materials are automatically pushed one by one.

In some preferred embodiments, the device further comprises a transverse transfer mechanism 50, wherein the transverse transfer mechanism 50 is arranged above the support platform 10 and connected with the support platform 10;

Fig. 4 is a perspective view of an exemplary lateral transfer mechanism 50 of the present application. Referring to fig. 4 in conjunction with fig. 2 and fig. 3, the transverse transfer mechanism 50 includes a lifting grabbing robot, a transverse slide rail 51 and a transverse fixing bracket (not shown), and the transverse fixing bracket is fixedly connected to the supporting platform 10 and is disposed above the supporting platform 10; the transverse slide rail 51 is fixed on the transverse fixing bracket and is positioned above the clamp base 13; the lifting grabbing manipulator is movably connected with the transverse sliding rail 51. In some embodiments, the lift gripper robot includes a lift cylinder 52 and a gripper assembly disposed longitudinally on the lift cylinder 52 for gripping the material. The claw assembly comprises a claw cylinder 53, a cylinder fixing plate 54, a hinge plate 55, a first claw 56 and a second claw 57, the claw cylinder 53 is fixed on a piston rod of the lifting cylinder 52 through the cylinder fixing plate 54, and the claw cylinder 53 is driven to lift through the lifting cylinder 52; the piston rod end of the claw cylinder 53 is fixed with a hinged plate 55, the hinged plate 55 is fixed with a cylinder fixing plate 54, a first claw 56 and a second claw 57 are respectively hinged with the hinged plate 55, and one end of the first claw 56 and one end of the second claw 57 are respectively hinged with the claw cylinder 53. Furthermore, the first and second claws 56 and 57 are arranged to face each other and can be opened and closed relative to each other. In some embodiments, the lateral slide rail 51 may be a motorized slide, enabling automatic movement under the control of a controller.

the working principle of the exemplary lifting grabbing manipulator is that the lifting cylinder 52 drives the gripper assembly to lift integrally, and the piston rod of the gripper cylinder 53 reciprocates to drive the first gripper 56 and the second gripper 57 to rotate around the hinge point on the hinge plate 55, so that the gripper assembly can grab or put down the material. The transverse slide rail 51, the lifting cylinder 52 and the claw cylinder 53 can be controlled by a controller, so that the automatic transverse movement and the automatic grabbing and putting down of the materials are realized.

In some preferred embodiments, the device further comprises a controller, and the first tapping assembly, the second tapping assembly, the lateral moving mechanism 142, the oiling mechanism, the air compressing mechanism, the material pushing cylinder 42, the lifting grabbing manipulator and the lateral slide rail 51 are electrically connected to the controller respectively. In some embodiments, the controller is a PLC.

The working principle of the exemplary special-shaped pipe double-head tapping device of the application is as follows:

The special pipes 90 are stacked one by one on the storage frame 41 and automatically operated under the control of the controller. The material pushing cylinder 42 pushes one special-shaped pipe 90, the claw hand assembly grabs the special-shaped pipe 90 and transversely moves along the direction of the transverse sliding rail 51, then the claw hand assembly places the special-shaped pipe 90 on the clamp base 13, and two ends of the special-shaped pipe 90 are respectively limited on the first limiting groove and the second limiting groove. The lateral movement mechanism 142 of the position calibration mechanism 14 then pushes the stop plate 141 out, and abuts and adjusts the position of the profile tube 90 so that the lateral position of the profile tube 90 is accurate. Under the drive of the limit lifting mechanism, the first limit block 151 and the second limit block 161 are pressed downwards and press the special-shaped pipe 90 in the limit groove. At this point, the positioning of the special-shaped pipe 90 is completed, and the machining is ready to start. During processing, the first chuck driving mechanism drives the first screw tap 111 to extend out and be sleeved in one end of the special-shaped pipe 90, the second chuck driving mechanism drives the second screw tap 121 to extend out and be sleeved in the other end of the special-shaped pipe 90, and the two ends can simultaneously perform tapping of internal threads. In the machining process, the floating chuck rotates along with the floating chuck and has a transverse swinging distance, so that the machining precision is ensured. And during tapping, the oil removing mechanism supplies oil to the screw tap. After the machining is completed, the first tap 111 and the second tap 121 are retracted to be separated from the special-shaped pipe 90, and the two limit blocks are separated from the special-shaped pipe 90. Then, the shaped pipe 90 can be grasped by the transverse transfer mechanism 50 and placed in alignment with the blow pipe, then deoiled, and finally the finished shaped pipe 90 is discharged.

The utility model provides a tooth device is attacked to special-shaped pipe double-end, full automation operation has reduced manual operation's work load, has improved production efficiency. The double ends of the special pipe 90 are automatically and synchronously processed, so that the operation steps are reduced, and the production efficiency is improved. The automatic tapping and automatic oiling device has the advantages that automatic tapping is realized, oil is automatically removed after machining is completed, abrasion of the screw tap is reduced, and the service life of the screw tap is prolonged. The floating chuck can provide a transverse swing distance for the chuck, can deviate a certain distance, and ensures the tapping quality. In addition, a high-precision screw tap can be adopted, and the tapping quality is further ensured by driving through a servo motor.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (10)

1. The utility model provides a tooth device is attacked to special-shaped pipe double-end which characterized in that: the tapping fixture comprises a supporting platform, a fixture base, a first tapping assembly and a second tapping assembly, wherein the fixture base is fixed on the supporting platform, and a first limiting groove and a second limiting groove are respectively formed in two ends of the fixture base along the length direction; first attack tooth subassembly and second and attack the tooth subassembly and fix respectively on supporting platform to arrange in respectively the length direction's of anchor clamps base both ends make first attack tooth subassembly with the second is attacked the tooth subassembly and can be followed respectively the both ends of anchor clamps base are processed.

2. The shaped pipe double-headed tapping device according to claim 1, wherein: the first tapping component comprises a first tapping cutter, a first limiting lifting mechanism and a first limiting block, the first tapping cutter is arranged on one side of the first limiting groove, and a cutter edge of the first tapping cutter faces the first limiting groove; the first limiting block is arranged above the first limiting groove and is connected with the supporting platform through the first limiting lifting mechanism;

The second tapping assembly comprises a second tapping tool, a second limiting lifting mechanism and a second limiting block, the second tapping tool is arranged on one side of the second limiting groove, and a tool edge of the second tapping tool faces the second limiting groove; the second limiting block is arranged above the second limiting groove and is connected with the supporting platform through the second limiting lifting mechanism.

3. The shaped pipe double-headed tapping device according to claim 2, wherein: the first tapping cutter comprises a first cutter support, a first floating chuck and a first chuck driving mechanism, the first floating chuck is transversely connected to the first chuck driving mechanism, and the first chuck driving mechanism is connected with the first cutter support and fixed on the supporting platform through the first cutter support; the opening of the first floating chuck faces the first limiting groove;

The second tapping cutter comprises a second cutter support, a second floating chuck and a second chuck driving mechanism, the second floating chuck is transversely connected to the second chuck driving mechanism, and the second chuck driving mechanism is connected with the second cutter support and fixed on the supporting platform through the second cutter support; the opening of the second floating chuck faces the second limiting groove.

4. the shaped pipe double-headed tapping device according to claim 3, wherein: the first tapping tool further comprises a first screw tap which is sleeved on the first floating chuck, and an opening of the first screw tap faces the first limiting groove;

the second tapping tool further comprises a second screw tap which is sleeved on the second floating chuck, and an opening of the second screw tap faces the second limiting groove.

5. The shaped pipe double-head tapping device according to any one of claims 1-4, wherein: the position calibration mechanism is arranged on one side of the second limiting groove and is fixed with the supporting platform;

the position calibration mechanism comprises a transverse moving mechanism and a baffle, the baffle is fixedly connected with the transverse moving mechanism, and the baffle is arranged between the second limiting groove and the second tapping component; the transverse moving mechanism is fixed with the supporting platform and can drive the baffle to transversely move.

6. The shaped pipe double-headed tapping device according to claim 5, wherein: the oil filling mechanism is arranged on the supporting platform, and the two oil filling mechanisms respectively correspondingly supply the knife edge of the first tapping component and the knife edge of the second tapping component.

7. The shaped pipe double-headed tapping device according to claim 6, wherein: the oil removing mechanism comprises an air blowing pipe and an air compression mechanism, an outlet of the air compression mechanism is connected with one end of the air blowing pipe, and another port of the air blowing pipe is arranged on one side of the first limiting groove or one side of the second limiting groove.

8. the shaped pipe double-headed tapping device according to claim 7, wherein: the storage mechanism is connected with the supporting platform;

The material storage mechanism comprises a material storage frame and a material pushing cylinder, wherein the material pushing cylinder is arranged below the material storage frame, and a piston rod of the material pushing cylinder can extend to the position above the material storage frame.

9. The shaped pipe double-headed tapping device according to claim 8, wherein: the horizontal transfer mechanism is arranged above the supporting platform and is connected with the supporting platform;

The transverse transfer mechanism comprises a lifting grabbing manipulator, a transverse sliding rail and a transverse fixing support, and the transverse fixing support is fixedly connected with the supporting platform and is arranged above the supporting platform; the transverse sliding rail is fixed on the transverse fixing support and is positioned above the clamp base; the lifting grabbing manipulator is movably connected with the transverse sliding rail.

10. The shaped pipe double-headed tapping device according to claim 9, wherein: the automatic tapping machine is characterized by further comprising a controller, wherein the first tapping component, the second tapping component, the transverse moving mechanism, the oiling mechanism, the air compression mechanism, the material pushing cylinder, the lifting grabbing manipulator and the transverse sliding rail are respectively and electrically connected with the controller.