CN113941864B - Method for processing and producing power dividing rod - Google Patents

Abstract

The invention relates to a method for processing and producing a power dividing rod, which comprises the steps of transversely arranging the power dividing rod on a material rotating mechanism to enable two ends of the power dividing rod to be in a processable state, transferring the power dividing rod to a cutting mechanism, cutting the two ends of the power dividing rod to cut off redundant lengths at the two ends, then transferring the power dividing rod to a punching mechanism to punch holes, respectively forming a first hole and a second hole at the two ends of the power dividing rod, and then transferring the power dividing rod to a tapping mechanism to tap the first hole and the second hole so as to complete processing of the power dividing rod. According to the scheme provided by the invention, the continuous processing treatment of the power dividing rod can be realized, the processing efficiency of the power dividing rod is improved, and the production cost is reduced.

Description

Method for processing and producing power dividing rod

Technical Field

The invention relates to the field of power divider rod production, in particular to a method for processing and producing a power divider rod.

Background

The power dividing rod is a rod body made of aluminum, and cutting and punching operations are required to be performed at two ends of the rod body in the machining process. In traditional merit divides excellent production process, above-mentioned cutting, the operation of punching are operated the completion respectively for the manual work on cutting machine and drilling machine, have production efficiency low, defect with high costs, consequently need solve to above-mentioned problem.

Disclosure of Invention

The invention aims to provide a method for processing and producing a power dividing rod, which can be used for solving the technical problem.

The technical scheme adopted by the invention is as follows:

a method for processing and producing a power dividing rod is characterized by comprising the following steps: divide the excellent horizontal form of merit to arrange on changeing material mechanism for the both ends that the merit was divided the stick are in the state that can be processed, divide the stick to transport to cutting mechanism department with the merit, divide the both ends of stick to the merit and cut the processing with the unnecessary length excision in both ends, then transport to mechanism department of punching and punch the processing, divide the both ends of stick at the merit and offer first, two holes respectively, then transport to tapping mechanism department again and carry out the processing of tapping to first, two holes branch stick.

The detailed operation is as follows: the first material clamping part and the second material clamping part which are arranged on the first rotating tray and the second rotating tray are adopted to clamp the two ends of the power dividing rod, the first rotating tray and the second rotating tray rotate around the material rotating shaft to realize the transfer of the power dividing rod, and the processing positions of the two ends of the power dividing rod are arranged on the outer sides of the first rotating tray and the second rotating tray.

Fixing a circular cutter on a cutter shaft, rotatably installing the cutter shaft on a cutting knife rest, and swinging the cutting knife rest on a rack, so as to adjust the cutting knife rest to swing to cut the two ends of the power dividing rod.

V-shaped notches are formed in the peripheries of the first material transferring disc and the second material transferring disc and used for accommodating the rod bodies of the power dividing rods, hooked material clamping hooks are arranged at the V-shaped notches to clamp the power dividing rods, so that the power dividing rods are prevented from moving out of the V-shaped notches, and the material clamping hooks are adjusted to move outwards to enable the machined power dividing rods to be dismounted from the first material transferring disc and the second material transferring disc.

The material clamping hook is arranged on the inner disk surface of the first rotating disk and the second rotating disk, the material clamping hook is installed along the radial floating of the first rotating disk and the second rotating disk through the reset spring, and the material clamping hook is adjusted to move by adopting a wedge surface in the rotating process of the first rotating disk and the second rotating disk.

The adoption sets up on the outer quotation of first, two commentaries on classics charging trays and presss from both sides the material regulating block, and through dividing excellent material loading position department and the position department of unloading at the merit and set up first, two respectively and lean on the piece, lean on the piece and press from both sides the material hook, press from both sides the material regulating block through first, two and carry out the scarf and lean on the regulation to press from both sides the material hook and remove.

After the power dividing rod is placed in the V-shaped notch, the posture of the power dividing rod is adjusted by adopting the posture adjusting mechanism, so that the upper plane part of the power dividing rod is perpendicular to the radial direction of the material rotating shaft.

The two ends of the power dividing rod are clamped by the V-shaped notches with different sizes, so that the center line of the power dividing rod is horizontally arranged.

Arrange a set of drilling bit and tapping bit in the outside of first rotary table, and adjust this set of drilling bit and tapping bit and remove along the radial of commentaries on classics material axle, thereby set up the first hole and carry out the tapping to the first hole according to the preface on plane portion, arrange another set of drilling bit and tapping bit in the outside of second rotary table, and adjust this another set of drilling bit and tapping bit and remove along the body length direction of commentaries on classics material axle, thereby set up the second hole and carry out the tapping to the second hole according to the preface on the tip terminal surface of the less end of merit branch stick diameter.

6 groups of first material clamping parts and second material clamping parts are arranged on the first material rotating disc and the second material rotating disc to clamp the power dividing rod and convey the power dividing rod to different mechanisms to execute corresponding processing treatment, so that continuous processing treatment of the power dividing rod is completed.

According to the scheme provided by the invention, the continuous processing treatment of the power dividing rod can be realized, the processing efficiency of the power dividing rod is improved, and the production cost is reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a right side view of FIG. 1;

FIG. 5 is a side view of the outer disk face of the first rotating disk;

FIG. 6 is a side view of the inside disc face of the first rotating tray;

FIG. 7 is a view showing the rotation range of the first and second material clamping portions of the material transferring shaft;

00 a-material transferring shaft, 00 b-upper semicircle, 00 c-lower semicircle, 100-frame, 101-mounting plate, 102-liquid collecting tank, 110-material transferring mechanism, 111-first material transferring plate, 112-material clamping hook, 113-material clamping adjusting block, 114-return spring, 115-V-shaped notch, 116-first abutting part, 117-second abutting part, 118-first mounting part, 119-second mounting part, 11 a-positioning nut, 120-cutting mechanism, 121-overturning adjusting cylinder, 131-first punching unit, 132-second punching unit, 141-first tapping unit, 150-auxiliary material clamping unit, 151-auxiliary material pressing rod, 160-attitude adjusting mechanism and 170-power dividing rod.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error, reasonable and inconsistent.

As shown in fig. 1 to 7, a method for processing and producing a power distribution rod includes arranging the power distribution rod on a material rotating mechanism in a horizontal manner, so that two ends of the power distribution rod are in a state of being capable of being processed, transferring the power distribution rod to a cutting mechanism, cutting the two ends of the power distribution rod to cut off redundant lengths at the two ends, then performing punching processing at the position of transferring to the punching mechanism, respectively forming a first hole and a second hole at the two ends of the power distribution rod, and then transferring to a tapping mechanism to tap the first hole and the second hole, thereby completing processing of the power distribution rod. The two ends of the power dividing rod are clamped by the first material clamping part and the second material clamping part which are arranged on the first material rotating disc and the second material rotating disc, the first material rotating disc and the second material rotating disc rotate around the material rotating shaft to realize the transfer of the power dividing rod, and the processing parts at the two ends of the power dividing rod are arranged at the outer sides of the first material rotating disc and the second material rotating disc. The circular cutter is fixed on the cutter shaft, the cutter shaft is rotatably installed on the cutting knife rest, the cutting knife rest is installed on the rack in a swinging mode, and the cutting knife rest is adjusted to swing so as to cut the two ends of the power dividing rod. V-shaped notches are formed in the peripheries of the first material transferring disc and the second material transferring disc and used for accommodating the rod bodies of the power dividing rods, hooked material clamping hooks are arranged at the V-shaped notches to clamp the power dividing rods, so that the power dividing rods are prevented from moving out of the V-shaped notches, and the material clamping hooks are adjusted to move outwards to enable the machined power dividing rods to be dismounted from the first material transferring disc and the second material transferring disc. The material clamping hook is arranged on the inner disk surface of the first rotating disk and the second rotating disk, the material clamping hook is installed along the radial floating of the first rotating disk and the second rotating disk through the reset spring, and the material clamping hook is adjusted to move by adopting a wedge surface in the rotating process of the first rotating disk and the second rotating disk. The adoption sets up on the outer quotation of first, two commentaries on classics charging tray and presss from both sides the material regulating block, and through divide excellent material loading position department and discharge position department at the merit set up respectively that first, two support to lean on the piece, support to lean on the piece and press from both sides the material hook, press from both sides the material regulating block through first, two and carry out the scarf and support to press from both sides the material hook and remove by adjusting. After the power dividing rod is placed in the V-shaped notch, the posture of the power dividing rod is adjusted by adopting the posture adjusting mechanism, so that the upper plane part of the power dividing rod is perpendicular to the radial direction of the material rotating shaft. The two ends of the power dividing rod are clamped by the V-shaped notches with different sizes, so that the center line of the power dividing rod is horizontally arranged. Arrange a set of drilling bit and tapping bit in the outside of first rotary table, and adjust this set of drilling bit and tapping bit and remove along the radial of commentaries on classics material axle, thereby set up the first hole and carry out the tapping to the first hole according to the preface on plane portion, arrange another set of drilling bit and tapping bit in the outside of second rotary table, and adjust this another set of drilling bit and tapping bit and remove along the body length direction of commentaries on classics material axle, thereby set up the second hole and carry out the tapping to the second hole according to the preface on the tip terminal surface of the less end of merit branch stick diameter. 6 groups of first material clamping parts and second material clamping parts are arranged on the first material rotating disc and the second material rotating disc to clamp the power dividing rod and convey the power dividing rod to different mechanisms to execute corresponding processing treatment, so that continuous processing treatment of the power dividing rod is completed.

The processing equipment for the power dividing rod 170 for communication, which implements the processing production method, comprises a frame 100 and a material rotating mechanism 110 arranged on the frame 100, wherein the material rotating mechanism 110 is used for clamping and transferring the power dividing rod 170, a cutting mechanism 120 for cutting two ends of the power dividing rod 170, a punching mechanism for punching two ends of the power dividing rod 170 and a tapping mechanism for tapping two ends of the power dividing rod 170 are arranged beside the material rotating mechanism 110. The material transferring mechanism 110 comprises a material transferring shaft 00a horizontally and rotatably mounted on the rack 100, first and second material transferring discs are arranged on the material transferring shaft 00a at intervals, first material clamping portions are arranged on the first material transferring disc 111 at intervals along the circumferential direction of the first material transferring disc, second material clamping portions are arranged on the second material transferring disc at intervals along the circumferential direction of the second material transferring disc, the first and second material clamping portions are arranged correspondingly, the power dividing rods 170 are transversely arranged, two ends of each power dividing rod are clamped on the first and second material clamping portions, the peripheries of the first and second material transferring discs are sequentially provided with a feeding station, a cutting station, a drilling station, a tapping station and a blanking station at intervals along the circumferential direction of the first and second material transferring discs, the cutting mechanism 120 is arranged on the cutting station, the drilling mechanism is arranged on the drilling station, the tapping mechanism is arranged on the tapping station, two end portions of the power dividing rods 170 extend to the outer sides of the first and second material transferring discs, and the cutting mechanism 120, the drilling mechanism and a wire supplying mechanism are used for processing two end portions of the power dividing rods 170 outside the first and the second material transferring discs respectively. The auxiliary material clamping mechanism comprises auxiliary material clamping units 150 which are respectively arranged on the outer sides of the cutting station, the drilling station and the tapping station. The automatic drilling machine further comprises a liquid distribution mechanism, wherein the liquid distribution mechanism is used for distributing machining liquid to machining positions of the power distribution rods 170 at the drilling station and the drilling station, and a liquid collecting groove 102 used for collecting the machining liquid is further formed in the rack 100. The auxiliary material clamping mechanism comprises an auxiliary material pressing plate 151 arranged on an auxiliary material clamping cylinder, the auxiliary material pressing plate 151 is arranged along the length direction of the material rotating shaft 00a and movably installed along the radial direction of the material rotating shaft 00a, and the auxiliary material clamping cylinder adjusts the auxiliary material pressing plate 151 to press and clamp the power dividing rod 170 against the material clamping hooks 112 on the first material rotating disc and the second material rotating disc.

The liquid distribution unit consists of liquid distribution pipes, the outlets of the liquid distribution pipes are respectively corresponding to the processing positions of the punching station and the tapping station, and the processing liquid can be cutting liquid, cooling liquid and the like.

As shown in fig. 1, 2, 3, and 4, the end of the power dividing rod 170 with a larger diameter is clamped on the first rotor tray 111, and an attitude adjusting mechanism 160 for adjusting the attitude of the power dividing rod 170 is provided outside the first rotor tray 111, and the attitude adjusting mechanism 160 is provided corresponding to the loading station. The posture adjusting mechanism 160 comprises a first clamping piece, a second clamping piece and a clamping opening adjusting assembly, wherein the first clamping piece and the second clamping piece are oppositely arranged, a clamping opening for clamping the power distribution rod 170 is formed between the first clamping piece and the second clamping piece, the clamping opening adjusting assembly is used for adjusting the first clamping face and the second clamping face to be close to and far away from each other, the first clamping face and the second clamping face are arranged in a radial direction perpendicular to the material transferring shaft 00a, two plane portions which are oppositely arranged are arranged on the side face of the rod body of the power distribution rod 170 at the larger diameter end, punching processing comprises the step of arranging a first hole which is radially arranged along the power distribution rod 170 and penetrates through the power distribution rod 170 in the middle of each plane portion, and the first clamping face and the two plane portions are attached and clamped to realize the posture adjustment of the power distribution rod 170. Cutting mechanism 120 includes cutting knife rest, cutting knife rest rotates through the cutting pivot and installs on frame 100, the last pivoted mounting of cutting knife rest has the arbor, the cutting pivot all is on a parallel with commentaries on classics material axle 00a and arranges, the arbor is connected with the cutting driving motor transmission that sets up on the cutting knife rest, be provided with two circular cutters on the arbor, circular cutter's the outside is provided with the protection casing, be provided with the upset regulating arm on the cutting knife rest, the two outsides of cutting pivot are arranged in respectively to upset regulating arm and cutting knife rest, the piston rod of the upset regulating cylinder 121 of vertical setting on upset regulating arm and the frame 100 is articulated to be connected, the cylinder body of upset regulating cylinder 121 is articulated with frame 100 to be connected, upset regulating cylinder 121 adjustment cutting knife rest upset downwards makes two circular cutters cut the both ends that the stick 170 is divided to the merit. The adjustment of the posture adjustment mechanism 160 is to finely adjust the power dividing rod 170, and because it is difficult to ensure that the plane part on the power dividing rod 170 is vertically arranged with the material transferring shaft 00a when the power dividing rod 170 is manually placed at the material loading station, the plane part on the power dividing rod 170 can be kept vertical to the radial direction of the material transferring shaft 00a through the adjustment of the posture adjustment mechanism 160, and the requirement of post-processing is ensured. In addition, a vertical abutting surface can be arranged on the posture adjusting mechanism 160 to meet the requirement that the power dividing rod 170 is finer in the length direction, and the vertical abutting surface is not required to be arranged, so that the problem of product scrapping cannot be caused by machining errors caused by the vertical abutting surface.

The punching treatment further comprises the step of forming a second hole arranged along the length direction of the power dividing rod 170 from the end face of the smaller diameter end of the power dividing rod 170 to the body of the power dividing rod 170, the punching mechanism comprises a first punching unit and a second punching unit which are respectively used for forming the first hole and the second hole, the first punching unit 131 is positioned at the outer side of the first rotating disc 111 and is arranged along the radial direction of the first rotating disc 111, the second punching unit 132 is positioned at the outer side of the second rotating disc and is arranged along the length direction of the rotating shaft 00a, the tapping mechanism comprises a first tapping unit and a second tapping unit, the first tapping unit 141 is positioned at the outer side of the first rotating disc 111 and is arranged along the radial direction of the first rotating disc 111, and the second tapping unit is positioned at the outer side of the second rotating disc and is arranged along the length direction of the rotating shaft 00a, it is first, two units that punch comprise drill bit and the drive assembly that punches respectively, it is first, two tapping units comprise tapping drill bit and tapping drive assembly respectively, tapping drive assembly is the same with the structure of the drive assembly that punches, the drive assembly that punches includes the drill bit holder, the drill bit holder sets up the one end at the pushing ram, the middle part of pushing ram is rotated and is installed on the sliding block, the sliding block is connected with propulsion cylinder or propulsion electric cylinder, the other end and the actuating lever of pushing ram are along length direction slip assembly and both synchronous rotations, the actuating lever rotates and installs in frame 100, the actuating lever is connected with a driving motor through a drive assembly. Where structural identity is used herein, it is intended that the specific embodiments are to allow equivalent alternatives, such as chain and belt drives, to allow for different orientations of the components and to allow for additional functional differences.

The more detailed operation is: as shown in fig. 5, 6, and 7, the material transferring shaft 00a is arranged along the left side of the rack 100 to the right side, the first and second material clamping portions are turned upwards to transfer the power dividing rod 170 located at the front side of the rack 100 to the rear side of the rack 100, the rotation range of the first and second material clamping portions is divided into an upper semicircle 00b and a lower semicircle 00c by a horizontal line, a material loading station is arranged on a path from an upper front starting point of the upper semicircle 00b to a middle highest point, a cutting station is arranged on a path from the upper middle highest point of the upper semicircle 00b to a rear stopping point, a tapping station is arranged on a path from the upper rear starting point of the lower semicircle 00c to a middle lowest point, a material unloading station is arranged at a front side intersection of the upper semicircle 00b and the lower semicircle 00c, a drilling station is arranged at a rear side intersection of the upper semicircle 00b and the lower semicircle 00c, the rear side of the rack 100 is further provided with a mounting plate 101 which is vertically arranged, the plate surface of the mounting plate 101 is perpendicular to the material rotating shaft 00a, the middle part of the cutting rotating shaft is rotatably mounted on the mounting plate 101, the edge of the upper side of the mounting plate 101, which is close to the material rotating shaft 00a, is provided with arc-shaped parts which are arranged corresponding to the cutting station, the drilling station and the tapping station, each auxiliary material clamping unit 150 is mounted on the arc-shaped parts at intervals, each auxiliary material clamping unit 150 comprises a material pressing strip, the material pressing strips are arranged in parallel to the material rotating shaft 00a, the mounting plate 101 is provided with a material pressing adjusting cylinder/material pressing adjusting electric cylinder which is used for adjusting the material pressing strips to move along the radial direction of the material rotating shaft 00a, the material pressing strips are connected with the material pressing adjusting cylinder/material pressing adjusting electric cylinder, the mounting plate 101 is positioned between the first material rotating plate and the second material rotating plate, and the lower end of the mounting plate 101 is positioned in the liquid collecting tank 102. The first material clamping part and the second material clamping part have the same structure, the first material clamping part comprises a V-shaped notch 115 and a material clamping component which are arranged on the periphery of the first material rotating disc 111, the material clamping component comprises a material clamping hook 112 positioned on the inner disc surface of the first material rotating disc 111 and a material clamping adjusting block 113 positioned on the outer disc surface of the first material rotating disc 111, the material clamping adjusting block 113 and the material clamping hook 112 are fixedly connected, the material clamping component is assembled on the first material rotating disc 111 in a sliding mode along the radial direction of the material rotating shaft 00a and is connected with a return spring 114, the return spring 114 drives the material clamping component to move towards one side close to the material rotating shaft 00a, the material clamping hook 112 is L-shaped, the material clamping hook 112 comprises a long strip body which is arranged in a radial mode parallel to the material rotating shaft 00a, the outer end of the long strip body is bent in a reverse direction along the rotating direction of the first material rotating disc 111 to form a hook body, a first abutting part 116 is arranged at the material loading station, a second abutting part 117 is arranged at the discharging station, the first abutting piece 116 is arranged corresponding to the inner end of the strip body and located on the moving path of the strip body, a first abutting face which forms an inclined face abutting with the inner end of the strip body at the feeding station is arranged on the first abutting piece 116, the distance between the first abutting face and the center line of the material transferring shaft 00a along the rotating direction of the material transferring shaft 00a is gradually increased, the first abutting face is used for abutting against the adjusting material clamping hook 112 to move towards the outer side of the first material transferring disc 111, the second abutting piece 117 is arranged corresponding to the material clamping adjusting block 113 and located on the moving path of the material clamping adjusting block, a second abutting face which forms an inclined face abutting with the material clamping adjusting block 113 at the discharging station is arranged on the second abutting piece 117, the distance between the second abutting face and the center line of the material transferring shaft 00a along the rotating direction of the material transferring shaft 00a is gradually increased, the second abutting face is used for abutting against the adjusting material clamping adjusting block 113 to move towards the outer side of the first material transferring disc 111, the first abutting piece 116 is installed on the strip-shaped first abutting piece 118, the first mounting piece 118 is arranged in parallel to the first material transferring disc 111, the height of the end portion of one side, close to the material transferring shaft 00a, of the first mounting piece 118 is larger than the height of the other end of the first mounting piece 118, the first mounting piece 118 is located on the outer side of the material clamping hook 112 to avoid rotation of the material clamping hook 112, the first abutting piece 116 is arranged on the first mounting piece 118 in a large-height mode and extends towards one side, close to the material clamping hook 112, to be arranged, the second abutting piece 117 is arranged on the second mounting piece 119 in a long strip shape, the second mounting piece 119 is arranged in parallel to the first material transferring disc 111, the height of the end portion, close to one side of the material transferring shaft 00a, of the second mounting piece 119 is smaller than the height of the other end of the second mounting piece 119, the second mounting piece 119 is located on the outer side of the material clamping adjusting block 113 to avoid rotation of the material clamping adjusting block 113, the second abutting piece 117 is arranged on the second mounting piece 119 in a small-height mode and extends towards one side, the end portions, far away from the material transferring shaft 00a, are arranged on the mounting piece 118, the two ends of the material transferring rod, and the material transferring plate 118 are arranged on the two ends, and correspond to the upper side of the material transferring plate 112. The V-shaped notches 115 on the first and second material rotating discs are different in size, and the inner disc surfaces of the first and second material rotating discs at the V-shaped notches 115 are respectively provided with positioning nuts 11a for assisting the power dividing rod 170 to position and clamp.

During specific implementation, the first drilling unit and the first tapping unit 141 are located outside the right side of the second rotating disc, the cutting structure is located above the rear sides of the first rotating disc and the second rotating disc in an inclined manner, the second drilling unit is located behind the first rotating disc 111 in a transverse manner, the second tapping unit is located below the rear side of the first rotating disc 111 in an inclined manner, and the second drilling unit and the second tapping unit are installed between the left side groove walls of the mounting plate 101 and the liquid collecting groove 102. The left side of the frame 100 is provided with a material transferring driving motor for driving the material transferring shaft 00a to rotate. The device also comprises a detection unit for detecting the running states of the material transferring mechanism 110, the cutting mechanism 120, the punching mechanism and the wire supplying mechanism, wherein the detection unit transmits a detected signal to the control unit, and the control unit adjusts the running of the material transferring mechanism 110, the cutting mechanism 120, the punching mechanism and the wire supplying mechanism according to the signal detected by the detection unit. The position and type of the various sensors making up the detection unit, as well as the control program for the specific setting of the control unit, can be arranged by the person skilled in the art according to the automated control regulations available.

By adopting the equipment, the power distribution rod 170 is manually loaded to the first and second material rotating discs from the material loading station, the attitude of the power distribution rod 170 is finely adjusted by the attitude adjusting mechanism 160, so that the plane part on the power distribution rod 170 is perpendicular to the radial arrangement of the material rotating shaft 00a, then the two ends of the power distribution rod 170 are reliably clamped by the first and second material clamping parts and are conveyed to the subsequent stations for corresponding processing, thereby realizing the rapid and reliable processing of the power distribution rod 170, improving the production efficiency and reducing the production cost.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (3)

1. A method for processing and producing a power dividing rod is characterized by comprising the following steps: the method comprises the following steps that a power dividing rod is transversely arranged on a material rotating mechanism, so that two ends of the power dividing rod are in a processable state, the power dividing rod is transported to a cutting mechanism, the two ends of the power dividing rod are cut to cut off redundant lengths at the two ends, then the power dividing rod is transported to a punching mechanism to be punched, first holes and second holes are respectively formed in the two ends of the power dividing rod, and then the power dividing rod is transported to a tapping mechanism to tap the first holes and the second holes so as to complete processing of the power dividing rod;

clamping two ends of the power dividing rod by adopting a first material clamping part and a second material clamping part which are arranged on a first rotating tray and a second rotating tray, rotating the first rotating tray and the second rotating tray around a material rotating shaft to realize the transfer of the power dividing rod, and arranging the processing positions of the two ends of the power dividing rod outside the first rotating tray and the second rotating tray;

fixing a circular cutter on a cutter shaft, rotatably installing the cutter shaft on a cutting knife rest, installing the cutting knife rest on a rack in a swinging manner, and adjusting the cutting knife rest to swing so as to cut two ends of the power dividing rod;

v-shaped notches are arranged on the peripheries of the first material transferring disc and the second material transferring disc and used for accommodating the rod bodies of the power dividing rods, hook-shaped material clamping hooks are arranged at the V-shaped notches to clamp the power dividing rods so as to prevent the power dividing rods from moving out of the V-shaped notches, and the material clamping hooks are adjusted to move outwards to realize that the processed power dividing rods are dismounted from the first material transferring disc and the second material transferring disc;

the material clamping hook is arranged on the inner disc surfaces of the first material transferring disc and the second material transferring disc, the material clamping hook is installed in a floating mode along the radial direction of the first material transferring disc and the second material transferring disc through a reset spring, and the material clamping hook is adjusted to move in a wedge surface abutting mode in the rotating process of the first material transferring disc and the second material transferring disc;

the outer disc surfaces of a first rotating disc and a second rotating disc are provided with a clamping adjusting block, a first abutting piece and a second abutting piece are respectively arranged at a material loading position and a material unloading position of a power dividing rod, and a wedge surface is abutted against and adjusts the clamping hook to move through the first abutting piece and the second abutting piece, the clamping hook and the clamping adjusting block;

after the power dividing rod is placed in the V-shaped notch, the posture of the power dividing rod is adjusted by adopting a posture adjusting mechanism, so that the upper plane part of the power dividing rod is vertically arranged with the radial direction of the material transferring shaft;

the two ends of the power dividing rod are clamped by the V-shaped notches with different sizes, so that the center line of the power dividing rod is horizontally arranged.

2. The method for processing and producing the power dividing rod according to claim 1, wherein: arrange a set of drilling bit and tapping bit in the outside of first carousel, and adjust this set of drilling bit and tapping bit and radially remove along changeing the material axle, thereby set up first hole and carry out the tapping to first hole according to the preface on plane portion, arrange another set of drilling bit and tapping bit in the outside of second carousel, and adjust this another set of drilling bit and tapping bit and remove along the body length direction of changeing the material axle, thereby set up the second hole and carry out the tapping to the second hole according to the preface on the tip terminal surface of the less end of merit branch stick diameter.

3. The method for processing and producing the power dividing rod according to claim 2, wherein: 6 groups of first material clamping parts and second material clamping parts are arranged on the first material rotating disc and the second material rotating disc to clamp the power dividing rod and convey the power dividing rod to different mechanisms to execute corresponding processing treatment, so that continuous processing treatment of the power dividing rod is completed.

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