CN116175214A - Wire slot machining equipment and method thereof - Google Patents

Abstract

The invention relates to the technical field of wire slot processing, in particular to wire slot processing equipment and a method thereof; including lathe body, a plurality of mounting fixture and a plurality of adjustable support frame, every mounting fixture all includes the bottom plate, a pedestal, elevating system, the elevating platform, two curb plates and two clamping assembly, every adjustable support frame all includes the rack, actuating mechanism, two mounting panels, two rotation rings, two drive gears, two first threaded rods and support piece, start actuating mechanism, drive rotation rings and rotate on the mounting panel, make rotation rings when rotating, the threaded rod precesses in rotation rings's inside, thereby drive support piece through the threaded rod and go up and down, adjust support piece's position, in the position of adjusting support piece, start elevating system, make the elevating platform go up and down in the mounting groove, thereby adjust the position of elevating platform, adopt the wire casing of above-mentioned structure can adapt to different specifications, the suitability is stronger.

Description

Wire slot machining equipment and method thereof

Technical Field

The invention relates to the technical field of wire slot processing, in particular to wire slot processing equipment and a method thereof.

Background

In the process of processing the wire casing by utilizing the machine tool, a plurality of fixing fixtures are required to be installed on the machine tool, after the wire casing to be processed is clamped firmly by the plurality of fixing fixtures, the wire casing is processed by the machine tool, and because the wire casing to be processed is mostly arranged in a strip-shaped structure, the error is caused to the processing of the strip-shaped wire casing because of unstable integral structure in the processing process for avoiding the strip-shaped wire casing, a plurality of supporting structures are assembled at the two ends of the machine tool generally, so that the strip-shaped wire casing is supported in an auxiliary mode.

But the height of mounting fixture and bearing structure in current wire casing processing equipment is fixed setting, can not support and centre gripping to the rectangular form wire casing of different specifications, and the suitability is relatively poor.

Disclosure of Invention

The invention aims to provide a wire groove processing device and a method thereof, which solve the problems that the heights of a fixing clamp and a supporting structure in the wire groove processing device in the prior art are fixed, and the wire grooves with different specifications cannot be supported and clamped, so that the applicability is poor.

In order to achieve the above purpose, the invention provides a wire groove processing device and a method thereof, wherein the wire groove processing device comprises a machine tool body, a plurality of fixing clamps and a plurality of adjustable supporting frames, wherein the plurality of fixing clamps are uniformly arranged on the upper surface of the machine tool body at intervals, the plurality of adjustable supporting frames are respectively assembled at two ends of the machine tool body, the fixing clamps are used for clamping a wire groove to be processed, and the adjustable supporting frames are used for supporting the wire groove to be processed;

each fixing clamp comprises a bottom plate, a base, a lifting mechanism, a lifting table, two side plates and two clamping components, wherein the base is arranged on the upper surface of the bottom plate, a mounting groove is formed in one surface, far away from the bottom plate, of the base, the lifting mechanism is arranged in the mounting groove, the lifting table is arranged at the output end of the lifting mechanism, the two side plates are further arranged on the upper surface of the bottom plate, the two side plates are respectively positioned at the two ends of the base, and each side plate is provided with the clamping component;

every adjustable support frame all includes rack, actuating mechanism, two mounting panels, two rotation rings, two drive gears, two first threaded rods and support piece, the rack is located the tip of lathe body, one side of rack is provided with actuating mechanism, the both ends of the bottom of support piece all are provided with first bearing, the both sides of the upper surface of rack all are provided with the mounting panel, it is connected with to rotate on the mounting panel the rotation ring, the inside threaded connection of rotation ring has first threaded rod, first threaded rod is close to support piece's one end imbeds to the inside of first bearing, the outside of rotation ring is provided with drive gear, two drive gears all with actuating mechanism's output mechanical transmission.

Wherein, every elevating system all includes driving motor, installed part, transmission shaft and two screw thread posts, the interior bottom of mounting groove is provided with driving motor with the installed part, the both ends of the interior bottom of mounting groove all still are provided with the screw thread post, every all be provided with ball screw nut pair on the screw thread post, two be connected with between the ball screw nut pair the elevating platform, it is connected with to rotate on the installed part the transmission shaft, the middle part of transmission shaft is provided with first driven gear, the both ends of transmission shaft all are provided with the second driven gear, every the bottom of screw thread post all is provided with third driven gear, driving motor's output is provided with output gear, output gear with first driven gear mechanical transmission, every second driven gear respectively with corresponding third driven gear meshes mutually.

Each mounting piece comprises a mounting block, a supporting block and a connecting ring, one end of each supporting block is fixedly connected with each mounting block, the connecting ring is arranged at the other end of each supporting block, the mounting blocks are detachably connected with the corresponding bases and located at the inner bottoms of the corresponding mounting grooves, and the connecting rings are sleeved outside the corresponding transmission shafts.

Each clamping assembly comprises a second threaded rod, a clamping plate and a limiting column, the second threaded rod penetrates through the side plate and is in threaded connection with the side plate, one end, close to the base, of the second threaded rod is connected onto the clamping plate in a rotating mode through a second bearing, the side, close to the side plate, of the clamping plate is provided with the limiting column, and the limiting column penetrates through the side plate.

Each driving mechanism comprises a fixing plate, a motor and a driving shaft, the fixing plates are detachably connected with the placing frame and located on one side of the placing frame, the motor is installed on the upper surface of the fixing plates, the driving shaft is arranged at the output end of the motor, threaded portions are arranged at the two ends of the driving shaft, and each driving gear is meshed with one threaded portion.

Wherein each mounting plate is provided with a mounting hole, a rotating bearing is embedded in the mounting hole, and the rotating ring is embedded in the rotating bearing.

And each mounting plate is further provided with a protective shell, and the protective shells are covered outside the rotating ring and the corresponding threaded parts.

The invention also provides a wire groove processing method which is applied to the wire groove processing equipment and comprises the following steps:

placing the wire slot to be processed in the plurality of fixing clamps, and supporting the wire slot to be processed by utilizing the plurality of adjustable supporting frames;

the driving mechanism is started to drive the rotating ring to rotate on the mounting plate, so that the threaded rod is screwed in the rotating ring when the rotating ring rotates, and the supporting piece is driven to lift by the threaded rod, so that the position of the supporting piece is adjusted;

starting the lifting mechanism while adjusting the position of the supporting piece, so that the lifting table is lifted in the mounting groove, and the position of the lifting table is adjusted;

after the positions of the supporting pieces and the positions of the lifting tables are adjusted to the appointed area, the wire groove to be processed is clamped through the clamping assembly;

and after the clamping assembly is used for firmly clamping the wire slot with the machining, the wire slot to be machined is machined through the machine tool body.

The invention relates to a wire groove processing device and a method thereof, wherein the wire groove processing device comprises a machine tool body, a plurality of fixed clamps and a plurality of adjustable supporting frames, each fixed clamp comprises a bottom plate, a base, a lifting mechanism, a lifting table, two side plates and two clamping components, each adjustable supporting frame comprises a placing frame, a driving mechanism, two mounting plates, two rotating rings, two transmission gears, two first threaded rods and a supporting piece, a wire groove to be processed is placed in the plurality of fixed clamps, the wire groove to be processed is supported by the plurality of adjustable supporting frames, the driving mechanism is started to drive the rotating rings to rotate on the mounting plates, so that the threaded rods rotate in the rotating rings when the rotating rings rotate, the supporting pieces are driven to lift by the threaded rods, the position of the supporting pieces is adjusted, and the lifting mechanism is started to lift the lifting table in the mounting groove when the position of the supporting pieces is adjusted, so that the position of the lifting table is adjusted, and the wire groove to be processed can be adapted to different specifications.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a wire slot processing device provided by the invention.

Fig. 2 is an enlarged view of a partial structure at a of fig. 1 provided by the present invention.

Fig. 3 is an enlarged view of a partial structure at B of fig. 1 provided by the present invention.

Fig. 4 is a schematic structural view of a fixing clamp provided by the invention.

Fig. 5 is a schematic view of the internal structure of the installation groove provided by the invention.

Fig. 6 is an enlarged view of a part of the structure at C of fig. 5 provided by the present invention.

Fig. 7 is a schematic view of a part of the structure of an adjustable support frame according to the present invention.

Fig. 8 is an enlarged view of a part of the structure at D of fig. 7 provided by the present invention.

Fig. 9 is a step flow chart of the wire slot processing method provided by the invention.

The machine tool comprises a machine tool body, 102-fixed clamps, 103-adjustable support frames, 104-bottom plates, 105-bases, 106-lifting platforms, 107-side plates, 108-clamping assemblies, 109-mounting slots, 110-placing frames, 111-driving mechanisms, 112-mounting plates, 113-rotating rings, 114-transmission gears, 115-first threaded rods, 116-supports, 117-first bearings, 118-driving motors, 119-mounts, 120-transmission shafts, 121-threaded columns, 122-ball screw nut pairs, 123-first driven gears, 124-second driven gears, 125-third driven gears, 126-output gears, 127-mounting blocks, 128-supporting blocks, 129-connecting rings, 130-second threaded rods, 131-clamping plates, 132-limiting columns, 133-second bearings, 134-fixed plates, 135-motors, 136-driving shafts, 137-threaded sections, 138-mounting holes, 139-rotating bearings, 140-protective housings, 141-guide rails, 142-sliding seats, 143-pushing assemblies, 144-mounting columns, 145-pushing plates, 146-servo motors, 147-screw bushings.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

Referring to fig. 1 to 8, the present invention provides a wire groove processing device, which includes a machine tool body 101, a plurality of fixing clamps 102 and a plurality of adjustable supporting frames 103, wherein the plurality of fixing clamps 102 are uniformly arranged on the upper surface of the machine tool body 101 at intervals, the plurality of adjustable supporting frames 103 are assembled at two ends of the machine tool body 101, the fixing clamps 102 are used for clamping a wire groove to be processed, and the adjustable supporting frames 103 are used for supporting the wire groove to be processed;

each fixing clamp 102 comprises a bottom plate 104, a base 105, a lifting mechanism, a lifting table 106, two side plates 107 and two clamping assemblies 108, wherein the base 105 is arranged on the upper surface of the bottom plate 104, a mounting groove 109 is formed in one surface of the base 105, which is far away from the bottom plate 104, the lifting mechanism is arranged in the mounting groove 109, the lifting table 106 is arranged at the output end of the lifting mechanism, two side plates 107 are also arranged on the upper surface of the bottom plate 104, the two side plates 107 are respectively positioned at two ends of the base 105, and each side plate 107 is provided with the clamping assembly 108;

each adjustable support frame 103 includes rack 110, actuating mechanism 111, two mounting panels 112, two rotation rings 113, two drive gears 114, two first threaded rods 115 and support 116, rack 110 is located the tip of lathe body 101, one side of rack 110 is provided with actuating mechanism 111, the both ends of the bottom of support 116 all are provided with first bearing 117, the both sides of the upper surface of rack 110 all are provided with mounting panels 112, it is connected with to rotate on the mounting panels 112 rotation rings 113, the inside threaded connection of rotation rings 113 has first threaded rods 115, first threaded rods 115 is close to the one end of support 116 is embedded into the inside of first bearing 117, the outside of rotation rings 113 is provided with drive gears 114, two drive gears 114 all with the output mechanical transmission of actuating mechanism 111.

In this embodiment, the wire casing to be processed is placed in a plurality of fixing fixtures 102, and a plurality of adjustable support frames 103 are used for supporting the wire casing to be processed, the driving mechanism 111 is started to drive the rotating ring 113 to rotate on the mounting plate 112, so that when the rotating ring 113 rotates, the threaded rod is screwed in the rotating ring 113, and accordingly the threaded rod drives the supporting piece 116 to lift, the position of the supporting piece 116 is adjusted, the lifting mechanism is started while the position of the supporting piece 116 is adjusted, the lifting table 106 is lifted in the mounting groove 109, the position of the lifting table 106 is adjusted, and the wire casing with different specifications can be adapted to by adopting the structure, so that the applicability is stronger.

Further, each lifting mechanism comprises a driving motor 118, a mounting piece 119, a transmission shaft 120 and two threaded columns 121, the driving motor 118 and the mounting piece 119 are arranged at the inner bottom of the mounting groove 109, the threaded columns 121 are further arranged at the two ends of the inner bottom of the mounting groove 109, a ball screw nut pair 122 is arranged on each threaded column 121, a lifting table 106 is connected between the two ball screw nut pairs 122, the transmission shaft 120 is rotatably connected to the mounting piece 119, a first driven gear 123 is arranged in the middle of the transmission shaft 120, second driven gears 124 are arranged at the two ends of the transmission shaft 120, a third driven gear 125 is arranged at the bottom of each threaded column 121, an output gear 126 is arranged at the output end of the driving motor 118, the output gear 126 is mechanically driven with the first driven gear 123, and each second driven gear 124 is meshed with the corresponding third driven gear 125.

In this embodiment, the driving motor 118 is started to drive the output gear 126 to rotate, and the output gear 126 is meshed with the first driven gear 123, so as to drive the transmission shaft 120 to rotate on the mounting member 119, and the second driven gear 124 on the transmission shaft 120 is meshed with the third driven gear 125 on the threaded column 121, so that the threaded column 121 rotates inside the mounting groove 109, and the lifting table 106 is driven to lift inside the mounting groove 109 due to the connection between the two ball screw nut pairs 122.

Further, each mounting member 119 includes a mounting block 127, a supporting block 128 and a connecting ring 129, one end of the supporting block 128 is fixedly connected with the mounting block 127, the other end of the supporting block 128 is provided with the connecting ring 129, the mounting block 127 is detachably connected with the corresponding base 105 and is located at the inner bottom of the corresponding mounting groove 109, and the connecting ring 129 is sleeved outside the corresponding transmission shaft 120.

In the present embodiment, the attachment ring 129 is fitted around the outside of the transmission shaft 120, and then the attachment block 127 is fixed to the inner bottom of the attachment groove 109 with a screw, thereby completing the attachment of the attachment 119.

Further, each clamping assembly 108 includes a second threaded rod 130, a clamping plate 131 and a limiting post 132, the second threaded rod 130 penetrates through the side plate 107 and is in threaded connection with the side plate 107, one end of the second threaded rod 130, which is close to the base 105, is rotatably connected to the clamping plate 131 through a second bearing 133, one surface of the clamping plate 131, which is close to the side plate 107, is provided with the limiting post 132, and the limiting post 132 penetrates through the side plate 107.

In this embodiment, the second threaded rod 130 is rotated, and one end of the second threaded rod 130, which is close to the base 105, is rotatably connected to the clamping plate 131 through the second bearing 133, so that when the second threaded rod 130 is screwed in on the side plate 107, the clamping plate 131 is limited by matching with the limiting post 132, and meanwhile, the clamping plate 131 is driven to move towards the direction of the base 105, so that the clamping plate 131 is used for clamping the wire slot to be machined.

Further, each driving mechanism 111 includes a fixing plate 134, a motor 135 and a driving shaft 136, the fixing plate 134 is detachably connected with the rack 110 and located at one side of the rack 110, the motor 135 is mounted on the upper surface of the fixing plate 134, the driving shaft 136 is disposed at an output end of the motor 135, threaded portions 137 are disposed at two ends of the driving shaft 136, and each of the transmission gears 114 is meshed with one of the threaded portions 137.

In this embodiment, the motor 135 is started to drive the driving shaft 136 to rotate, and since the threaded portions 137 are disposed at two ends of the driving shaft 136, the transmission gear 114 is meshed with the threaded portions 137 to form a structure in which a worm is meshed with a worm wheel, so as to drive the rotating ring 113 to slowly rotate on the mounting plate 112 and perform a self-locking function on the rotating ring 113.

Further, each mounting plate 112 is provided with a mounting hole 138, a rolling bearing 139 is embedded in the mounting hole 138, and the rolling ring 113 is embedded in the rolling bearing 139.

In the present embodiment, the rotation bearing 139 is disposed on the mounting plate 112, so that the rotation ring 113 is embedded in the rotation bearing 139, and the rotation of the rotation ring 113 on the mounting plate 112 is smoother.

Further, each mounting plate 112 is further provided with a protective shell 140, and the protective shell 140 covers the rotating ring 113 and the corresponding screw portion 137.

In the present embodiment, the protective case 140 is covered outside the rotary ring 113 and the corresponding screw portion 137, and the engagement between the transmission gear 114 and the screw portion 137 is protected by the protective case 140, so that the engagement between the transmission gear 114 and the screw portion 137 is prevented from being affected by the external environment.

Further, the wire groove processing device further comprises a feeding mechanism, the feeding mechanism comprises a guide rail 141, a sliding seat 142, a pushing component 143, a mounting column 144 and a pushing plate 145, the guide rail 141 is installed at one end of the machine tool body 101, the sliding seat 142 is slidably arranged on the guide rail 141, the pushing component 143 is further arranged in the guide rail 141, the output end of the pushing component 143 is detachably connected with the sliding seat 142, one end, far away from the guide rail 141, of the sliding seat 142 is provided with the mounting column 144, one end, far away from the sliding seat 142, of the mounting column 144 is provided with the pushing plate 145, and the pushing plate 145 is used for pushing the wire groove to be processed.

In this embodiment, when the position to be machined of the wire slot to be machined needs to be adjusted, the pushing component 143 is started to drive the sliding seat 142 to slide on the guide rail 141, so that the pushing plate 145 is driven to push the wire slot to be machined through the mounting column 144, and automatic feeding of the wire slot to be machined is completed.

Further, the pushing assembly 143 includes a servo motor 146, a screw 147 and a screw sleeve 148, the servo motor 146 is detachably connected with the guide rail 141, the output end of the servo motor 146 is provided with the screw 147, the screw 147 is provided with the screw sleeve 148, and the screw sleeve 148 is detachably connected with the sliding seat 142.

In this embodiment, the servo motor 146 is started to drive the screw 147 to rotate, and the screw sleeve 148 is detachably connected to the sliding seat 142, so that the sliding seat 142 slides on the guide rail 141.

Referring to fig. 9, the invention further provides a wire groove processing method, which is applied to the wire groove processing device, and comprises the following steps:

s1: placing the wire slot to be processed inside a plurality of the fixed fixtures 102, and supporting the wire slot to be processed by using a plurality of the adjustable supporting frames 103;

s2: the driving mechanism 111 is started to drive the rotating ring 113 to rotate on the mounting plate 112, so that when the rotating ring 113 rotates, the threaded rod is screwed in the rotating ring 113, and the supporting piece 116 is driven to lift by the threaded rod, so that the position of the supporting piece 116 is adjusted;

s3: simultaneously with adjusting the position of the support 116, the lifting mechanism is started, so that the lifting table 106 is lifted in the mounting groove 109, and the position of the lifting table 106 is adjusted;

s4: after adjusting the positions of the plurality of supporting pieces 116 and the positions of the plurality of lifting tables 106 to a designated area, clamping the wire slot to be machined by the clamping assembly 108;

s5: after the clamping assembly 108 is used for clamping the wire slot to be machined firmly, the wire slot to be machined is machined through the machine tool body 101.

In this embodiment, the wire casing to be machined is placed in a plurality of fixing fixtures 102, the wire casing to be machined is supported by a plurality of adjustable supporting frames 103, the driving mechanism 111 is started to drive the rotating ring 113 to rotate on the mounting plate 112, so that when the rotating ring 113 rotates, the threaded rod rotates in the rotating ring 113, the threaded rod drives the supporting piece 116 to lift and lower the supporting piece 116, the position of the supporting piece 116 is adjusted, the lifting mechanism is started while the position of the supporting piece 116 is adjusted, the lifting table 106 is lifted and lowered in the mounting groove 109, the position of the lifting table 106 is adjusted, after the positions of the supporting piece 116 and the lifting table 106 are adjusted to a designated area, the wire casing to be machined is clamped by the clamping assembly 108, the wire casing to be machined is clamped firmly by the clamping assembly 108, and then the wire casing to be machined is machined by the machine tool body 101

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims (8)

1. A wire slot processing device is characterized in that,

the wire groove machining device comprises a machine tool body, a plurality of fixing clamps and a plurality of adjustable supporting frames, wherein the plurality of fixing clamps are uniformly arranged on the upper surface of the machine tool body at intervals, the plurality of adjustable supporting frames are respectively arranged at two ends of the machine tool body, the fixing clamps are used for clamping a wire groove to be machined, and the adjustable supporting frames are used for supporting the wire groove to be machined;

each fixing clamp comprises a bottom plate, a base, a lifting mechanism, a lifting table, two side plates and two clamping components, wherein the base is arranged on the upper surface of the bottom plate, a mounting groove is formed in one surface, far away from the bottom plate, of the base, the lifting mechanism is arranged in the mounting groove, the lifting table is arranged at the output end of the lifting mechanism, the two side plates are further arranged on the upper surface of the bottom plate, the two side plates are respectively positioned at the two ends of the base, and each side plate is provided with the clamping component;

every adjustable support frame all includes rack, actuating mechanism, two mounting panels, two rotation rings, two drive gears, two first threaded rods and support piece, the rack is located the tip of lathe body, one side of rack is provided with actuating mechanism, the both ends of the bottom of support piece all are provided with first bearing, the both sides of the upper surface of rack all are provided with the mounting panel, it is connected with to rotate on the mounting panel the rotation ring, the inside threaded connection of rotation ring has first threaded rod, first threaded rod is close to support piece's one end imbeds to the inside of first bearing, the outside of rotation ring is provided with drive gear, two drive gears all with actuating mechanism's output mechanical transmission.

2. The wire chase processing apparatus of claim 1, wherein,

every elevating system all includes driving motor, installed part, transmission shaft and two screw thread posts, the interior bottom of mounting groove is provided with driving motor with the installed part, the both ends of the interior bottom of mounting groove all still are provided with the screw thread post, every all be provided with ball screw nut pair on the screw thread post, two be connected with between the ball screw nut pair the elevating platform, it is connected with to rotate on the installed part the transmission shaft, the middle part of transmission shaft is provided with first driven gear, the both ends of transmission shaft all are provided with the second driven gear, every the bottom of screw thread post all is provided with third driven gear, driving motor's output is provided with output gear, output gear with first driven gear mechanical transmission, every second driven gear respectively with corresponding third driven gear meshes mutually.

3. The wire chase processing apparatus of claim 2, wherein,

every the mounting all includes installation piece, supporting shoe and go-between, the one end of supporting shoe with installation piece fixed connection, the other end of supporting shoe is provided with the go-between, the installation piece with correspond the base is dismantled and is connected, and is located the correspondence the interior bottom of mounting groove, the go-between cover is established in the outside of corresponding the transmission shaft.

4. The wire chase processing apparatus of claim 1, wherein,

every clamping assembly all includes second threaded rod, splint and spacing post, the second threaded rod run through the curb plate, and with curb plate threaded connection, the second threaded rod be close to the one end of base is in through the second bearing rotation connection on the splint, the splint be close to the one side of curb plate is provided with spacing post, spacing post runs through the curb plate.

5. The wire chase processing apparatus of claim 3, wherein,

every actuating mechanism all includes fixed plate, motor and drive shaft, the fixed plate with the connection is dismantled to the rack, and is located one side of rack, the motor is installed the upper surface of fixed plate, the output of motor is provided with the drive shaft, the both ends of drive shaft all are provided with screw thread portion, every drive gear respectively with one screw thread portion meshes.

6. The wire chase processing apparatus of claim 5,

every all be provided with the mounting hole on the mounting panel, the inside of mounting hole is inlayed and is equipped with rolling bearing, the swivel becket is inlayed and is established rolling bearing's inside.

7. The wire chase processing apparatus of claim 6, wherein,

and each mounting plate is also provided with a protective shell, and the protective shells are covered outside the rotating ring and the corresponding threaded parts.

8. A wire slot processing method applied to the wire slot processing equipment as claimed in claim 1, characterized by comprising the following steps:

placing the wire slot to be processed in the plurality of fixing clamps, and supporting the wire slot to be processed by utilizing the plurality of adjustable supporting frames;

the driving mechanism is started to drive the rotating ring to rotate on the mounting plate, so that the threaded rod is screwed in the rotating ring when the rotating ring rotates, and the supporting piece is driven to lift by the threaded rod, so that the position of the supporting piece is adjusted;

starting the lifting mechanism while adjusting the position of the supporting piece, so that the lifting table is lifted in the mounting groove, and the position of the lifting table is adjusted;

after the positions of the supporting pieces and the positions of the lifting tables are adjusted to the appointed area, the wire groove to be processed is clamped through the clamping assembly;

and after the clamping assembly is used for firmly clamping the wire slot with the machining, the wire slot to be machined is machined through the machine tool body.

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