CN112824012A

CN112824012A - Automatic machining process for fan stand column

Info

Publication number: CN112824012A
Application number: CN202011380797.4A
Authority: CN
Inventors: 钟起官
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-05-21

Abstract

The invention discloses an automatic processing technology of a fan stand column, belonging to the technical field of fans and comprising the following steps: step 1, automatically feeding an inner pipe and an outer pipe of a fan upright post; step 2, conveying the inner pipe and the outer pipe of the fan upright post to a fixed station; step 3, fixing the inner pipe and the outer pipe of the fan upright post; step 4, automatically cutting the fan upright post; step 5, automatically punching the fan upright post; step 6, moving the fan upright post to an upright post shaping station; step 7, fixing the two ends of the inner pipe and the outer pipe of the fan upright post; step 8, punching double buckles on the inner pipe and the outer pipe; step 9, cleaning dust and waste residues after punching and stamping; step 10, shaping two ends of the inner pipe; step 11, shaping the inner circle of the inner tube; step 12, shaping the outer circle of the inner tube; and 13, automatically blanking the inner pipe and the outer pipe. The invention has the advantages of ingenious process design, smooth connection among the working procedures, high automation degree, realization of full-automatic production of the fan stand column and remarkable economic value.

Description

Automatic machining process for fan stand column

Technical Field

The invention relates to the technical field of fans, in particular to an automatic machining process for a fan stand column.

Background

The upright post fan adopts a centrifugal fan, adopts a cylindrical upright post shape, and does not occupy space when being placed in a room; moreover, the fan blade surface is wrapped in the shell and is difficult to touch, so that the fan blade is relatively safe; moreover, the sound is small, quiet and noiseless. Because of these advantages, it is widely used. The fan column generally comprises a column outer tube and a column inner tube, and in practical use, the column inner tube is sleeved in the column inner tube. In actual production, the upright post of the fan needs to be processed in various steps for subsequent use.

But current fan stand processingequipment adds man-hour to the outer tube and the inner tube of stand, all process the outer tube and the inner tube of stand through the manual work, including following process, at first, cut into required length to inner tube and outer tube, then shift to the puncher and punch to inner tube and outer tube, then, need shift inner tube and outer tube and go up to the punching machine and wash the double-lock, wash the double-lock back, still will carry out the plastic to the both ends inner circle and the excircle of inner tube on the trimmer, whole course of working needs shift between many equipment, the equipment is big accounts for the space with more investments, and the error that manual work efficiency is low and cause the processing easily in the in-process of processing, influence the subsequent use of the outer tube and the inner tube of stand, the process length is and more complicated.

Disclosure of Invention

The invention aims to provide an automatic processing technology of a fan stand column, which aims to solve the technical problems in the prior art.

The invention provides an automatic processing technology of a fan stand column, which comprises the following steps:

step 1, automatically feeding an inner pipe and an outer pipe of a fan stand column: the automatic feeding device comprises a mounting frame, an outer pipe upright post feeding device, an inner pipe upright post feeding device, an upright post feeding moving device, an upright post fixing device, an upright post cutting device, an upright post moving device, an upright post punching device, a support frame, an upright post shaping device, a blanking fixing frame and an upright post blanking device, wherein when the device is used, when an outer pipe is fed, the outer pipe is placed on a feeding frame of the outer pipe upright post feeding device, two telescopic ends of two feeding cylinders simultaneously move upwards to drive two lifting plates to move upwards so as to drive a feeding circular plate to move upwards, the feeding circular plate moves upwards to move the outer pipe on the feeding frame to the upright post fixing device on the mounting frame, so that the automatic feeding operation of the outer pipe is realized, and the inner pipe upright post feeding device can feed the inner pipe of an upright post;

and 2, conveying the inner pipe and the outer pipe of the fan upright post to a fixed station: after the outer pipe and the inner pipe are moved to the mounting frame, a feeding motor of the upright post feeding moving device works to drive a feeding disc to rotate, the feeding disc rotates to drive a feeding column to rotate, the feeding column rotates to drive a feeding different plate to rotate so as to drive a first feeding plate to rotate on a feeding seat, the first feeding plate rotates to drive a second feeding plate to rotate, the second feeding plate rotates to drive a feeding cylinder to move on a feeding fixed block, the feeding cylinder moves to move the inner pipe and the outer pipe placed on the mounting frame forward, and the inner pipe and the outer pipe are continuously moved forward so as to facilitate subsequent processing of the inner pipe and the outer pipe;

and 3, fixing the inner pipe and the outer pipe of the fan upright post: then, a first fixed motor of the upright post fixing device works to drive a fixed gear to rotate, the fixed gear rotates to drive two fixed toothed plates to move in a storage groove in a relative mode, the two fixed toothed plates move in a relative mode to drive two fixed moving frames to move in a relative mode to drive two fixed plates to move on a mounting frame, and the two fixed plates move to fix an inner tube and an outer tube of the upright post, so that the situation that the positions of the inner tube and the outer tube are deviated in the machining process to influence subsequent machining is prevented;

and 4, automatically cutting the fan stand column: then, the telescopic end of a cutting cylinder of the stand column cutting device moves downwards to drive a motor base to move downwards so as to move the position of a cutting disc downwards, the cutting motor works to drive the cutting disc to rotate to perform cutting operation on the stand column, a spray pipe works to perform cooling operation on the cutting position of the stand column during cutting, and a grid box can be used for collecting cutting waste residues;

and 5, automatically punching the fan upright column: then, when the upright post is punched, the telescopic end of a punching cylinder of the upright post punching device moves downwards to drive a punching box to move downwards, and a punching motor works to drive a punching drill bit to move downwards while moving downwards so as to punch the upright post;

step 6, moving the fan upright post to an upright post shaping station: then, after the upright columns are cut and punched, a moving motor of the upright column moving device works to drive a moving roller to rotate on the supporting frame, the moving roller rotates to drive the upright columns on the storage plate to move forwards, and the subsequent processing operation can be carried out on the upright columns;

and 7, fixing the two ends of the inner pipe and the outer pipe of the fan upright post: then, after the upright post is moved to an upright post fixing plate of an upright post shaping device, a driving motor works to drive a driving disc to rotate, the driving disc rotates to drive the driving disc to move up and down on a fixing frame, the driving disc moves downwards to drive an upright post circular plate to move downwards, and two ends of an inner tube and an outer tube which are placed on the upright post fixing plate are fixed, so that the positions of the inner tube and the outer tube are prevented from being shifted when the outer tube and the inner tube are subjected to double-buckling and shaping, and the processing operation of the inner tube and the outer tube is influenced;

step 8, punching double buckles on the inner pipe and the outer pipe: then, when the inner pipe and the outer pipe are punched and double-buckled, the punching motor works to drive the punching rod to rotate, the bent pipe on the punching rod rotates to drive the connecting plate to rotate so as to drive the punching plate to move up and down on the two sliding seats, and the punching plate moves up and down to drive the punching head to move up and down so as to punch and double-buckle the inner pipe and the outer pipe;

step 9, cleaning dust and waste residues after punching and stamping: then, after the upright post is punched and stamped, the dust and waste residues on the upright post need to be cleaned, and at the moment, the two cleaning fans work to clean the dust and the waste residues so as to facilitate the subsequent processing of the upright post;

step 10, shaping two ends of the inner tube: then, when the inner tube is shaped, the rotating motor works to drive the rotating disc to rotate, the rotating disc rotates to drive the upright post fixing plate to rotate, the upright post fixing plate rotates to rotate the inner tube placed on the upright post fixing plate, the inner tube is moved to the upright post inner circle spinning shaping assembly and the upright post outer circle spinning shaping assembly, shaping operation is carried out on the outer circle and the inner circle of the inner tube, after one end of the inner tube is shaped, the rotating disc rotates to drive the inner tube on the upright post fixing plate to rotate for 180 degrees, and shaping operation is carried out on the other end of the inner tube;

step 11, shaping the inner circle of the inner tube: then, when the inner circle of the inner tube is shaped, the telescopic end of the sliding cylinder moves to drive the fixing frame to move, the fixing frame moves to drive the inner shaping cutter head to move to the inner tube, and the inner circle shaping motor works to drive the inner circle shaping cutter head to work to shape the inner circle of the inner tube;

and step 12, shaping the outer circle of the inner pipe: then, when the outer circle of the inner tube is shaped, the sliding motor works to drive the gear to rotate on the tooth grooves on the second shaping frame, the sliding gear rotates to drive the sliding plate to move on the second shaping frame to move the outer circle shaping cutter head to the inner tube, and at the moment, the outer circle shaping motor works to drive the outer circle shaping cutter head to rotate to carry out shaping operation on the outer circle of the inner tube; when the inner pipe and the outer pipe are processed and conveyed, the position of the inner pipe needs to be moved, at the moment, the telescopic end of the movable air cylinder moves downwards to drive the conveying seat to move downwards so as to drive the conveying roller to move above the inner pipe and the outer pipe, at the moment, the conveying motor works to drive the conveying roller to rotate on the conveying seat, the conveying roller rotates to move the outer pipe and the inner pipe forwards, and the inner pipe moves forwards to carry out shaping operation on the inner pipe;

step 13, automatic blanking of the inner pipe and the outer pipe: then, after the outer pipe and the inner pipe of the stand are processed, a blanking motor of the stand blanking device works to drive a blanking roller to rotate on a blanking seat, and the outer pipe and the inner pipe which are processed are moved outwards through a blanking moving frame by the rotation of the blanking roller, so that automatic blanking is realized.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the upright post is processed, the outer tube upright post feeding device and the inner tube upright post feeding device respectively carry out automatic feeding operation on the outer tube and the inner tube of the upright post, after the outer tube is fed, the upright post feeding moving device, the upright post fixing device, the upright post cutting device, the upright post moving device and the upright post punching device carry out cutting and punching operation on the outer tube and the inner tube of the upright post, the upright post fixing device fixes the upright post during cutting, the inner tube and the outer tube are continuously moved forwards by the upright post feeding moving device, the upright post moving device can move the upright post after cutting and punching, when the inner tube is shaped, the two upright post fixing devices work to fix the position of the inner tube, the upright post punching component works to carry out punching double-buckling operation on the upright post after fixing, and the dust cleaning component works to clean waste residues during punching, the stand rotates the subassembly worker and removes the one end of stand to the stand in the circle spinning plastic subassembly, stand excircle spinning plastic subassembly on, carries out circle and excircle to the both ends of stand and carries out the plastic operation, carries out the plastic and processes the completion back to inner tube and outer tube, and the outside unloading of outer tube and inner tube is carried out with stand unloader work to the realization, has improved the efficiency of work to the automatic processing operation of inner tube and outer tube.

Secondly, after the outer pipe and the inner pipe are moved to the mounting frame, the feeding motor works to drive the feeding disc to rotate, the feeding disc rotates to drive the feeding column to rotate, the feeding column rotates to drive the feeding different plate to rotate so as to drive the first feeding plate to rotate on the feeding seat, the first feeding plate rotates to drive the second feeding plate to rotate, the second feeding plate rotates to drive the feeding cylinder to move on the feeding fixed block, and the feeding cylinder moves to move the inner pipe and the outer pipe placed on the mounting frame forward and move the inner pipe and the outer pipe forward continuously so as to facilitate the subsequent processing of the inner pipe and the outer pipe.

Thirdly, when the vertical column is cut and fixed, the first fixing motor works to drive the fixed gear to rotate, the fixed gear rotates to drive the two fixing toothed plates to move in the storage groove in a relative mode, the two fixing toothed plates move in a relative mode to drive the two fixing moving frames to move in a relative mode to drive the two fixing plates to move on the mounting frame, and the two fixing plates move to fix the inner tube and the outer tube of the vertical column, so that the situation that the positions of the inner tube and the outer tube are deviated in the machining process to affect subsequent machining is avoided.

Fourthly, when the outer pipe is fed, the outer pipe is placed on the feeding frame, at the moment, two telescopic ends of two feeding cylinders simultaneously move upwards to drive two lifting plates to move upwards so as to drive the feeding circular plates to move upwards, the feeding circular plates move upwards to move the outer pipe on the feeding frame to the upright post fixing device on the mounting frame, automatic feeding operation of the outer pipe is achieved, the inner pipe upright post feeding device can perform feeding operation on the upright post inner pipe, automatic feeding operation of the processed outer pipe and the processed inner pipe is achieved, and working efficiency is improved.

Fifthly, after the outer pipe and the inner pipe of the upright post are processed, the blanking motor works to drive the blanking roller to rotate on the blanking seat, the outer pipe and the inner pipe which are processed are moved outwards through the blanking moving frame by the rotation of the blanking roller, the automatic blanking operation of the outer pipe and the inner pipe which are processed is realized, and the working efficiency is improved.

Sixthly, the process design of the invention is ingenious, the connection between the processes is smooth, the automatic feeding of the inner tube and the outer tube of the fan stand column is realized, the inner tube and the outer tube of the fan stand column are conveyed to a fixing station, the inner tube and the outer tube of the fan stand column are fixed, the fan stand column is automatically cut, the fan stand column is automatically punched, the fan stand column is moved to a stand column shaping station, the two ends of the inner tube and the two ends of the outer tube of the fan stand column are fixed, the inner tube and the outer tube are punched and buckled, dust and waste residues after punching and stamping are cleaned, the two ends of the inner tube are shaped, the inner circle of the inner tube is shaped, the outer circle of the inner tube is shaped, and the inner tube and the outer tube are automatically blanked.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first schematic perspective view of an automatic processing technique for a fan column;

FIG. 2 is a schematic perspective view of a second embodiment of an automatic processing technique for a fan stand column;

FIG. 3 is a top view of an automated fan column machining process;

FIG. 4 is a side view of an automated fan column processing technique;

FIG. 5 is a schematic perspective view of a column shaping device;

FIG. 6 is a schematic perspective view of the upright post feeding and moving device and the upright post fixing device;

FIG. 7 is a schematic perspective view of an outer tube column feeding device and an inner tube column feeding device;

FIG. 8 is a schematic perspective view of the pillar cutting device;

FIG. 9 is a schematic perspective view of a column punching apparatus;

FIG. 10 is a schematic perspective view of the mast moving means and mast slewing assembly;

FIG. 11 is a schematic perspective view of the fixing members at two sides of the vertical column;

FIG. 12 is a schematic perspective view of a pillar stamping assembly;

FIG. 13 is a schematic perspective view of a spin-forming assembly for the outer periphery of the column;

FIG. 14 is a schematic perspective view of a column inner circle spinning truing assembly;

FIG. 15 is a schematic perspective view of the mast transport assembly;

FIG. 16 is a process flow diagram of the present invention.

Reference numerals:

mounting frame 1, storage tank 12, grid box 13, support frame 14, outer pipe column feeding device 2, feeding frame 21, feeding circular plate 22, feeding cylinder 23, lifting plate 24, inner pipe column feeding device 3, column feeding moving device 4, feeding base 41, feeding motor 42, feeding plate 43, first feeding plate 44, second feeding plate 45, feeding abnormal plate 46, feeding cylinder 47, feeding fixed block 48, feeding column 49, column fixing device 5, first fixed motor 51, fixed gear 52, fixed toothed plate 53, fixed moving frame 54, fixed plate 55, column cutting device 6, cutting frame 61, cutting cylinder 62, motor base 63, cutting motor 64, cutting disk 65, water spray pipe 66, column moving device 7, storage plate 71, moving motor 72, moving roller 73, column punching device 8, punching frame 81, punching cylinder 82, punching motor 83, punching motor 84, a punching box 85, a column shaping device 9, a column rotating assembly 91, a rotating motor 911, a rotating disc 912, a column fixing plate 913, a column conveying assembly 92, a conveying frame 921, a moving cylinder 922, a conveying base 923, a conveying motor 924, a conveying roller 925, a column punching assembly 93, a punching frame 931, a punching motor 932, a punching rod 933, a punching plate 934, a punching head 935, a connecting plate 936, a sliding base 937, an elbow 938, a dust cleaning assembly 94, a supporting base 941, a cleaning fan 942, a column inner circle spinning shaping assembly 95, a first shaping frame 951, a sliding cylinder 952, a fixing frame 953, an inner circle shaping motor 954, an inner circle shaping cutter 955, a column outer circle spinning shaping assembly 96, a second shaping frame 961, a sliding motor 962, a sliding gear 963, a sliding plate 964, an outer circle shaping motor fixing frame, an outer circle shaping cutter 966, column both-

side fixing assemblies

97, 971, a driving motor 965, a driving disc 973, a driving plate 974, an upright circular plate 975, a blanking fixing frame 10, an upright blanking device 11, a blanking seat 111, a blanking motor 112, a blanking moving frame 113 and a blanking roller 114.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 16, an embodiment of the present invention provides an automatic processing process for a fan column, including the following steps:

step 1, automatically feeding an inner pipe and an outer pipe of a fan stand column: the automatic feeding device is characterized by comprising a mounting frame 1, an outer pipe upright post feeding device 2, an inner pipe upright post feeding device 3, an upright post feeding moving device 4, an upright post fixing device 5, an upright post cutting device 6, an upright post moving device 7, an upright post punching device 8, a support frame 14, an upright post shaping device 9, a blanking fixing frame 10 and an upright post blanking device 11, wherein when the automatic feeding device is used, when an outer pipe is fed, the outer pipe is placed on a feeding frame 21, two telescopic ends of two feeding air cylinders 23 simultaneously move upwards to drive two lifting plates 24 to move upwards so as to drive a feeding circular plate 22 to move upwards, the feeding circular plate 22 moves upwards to move the outer pipe on the feeding frame 21 to the upright post fixing device 5 on the mounting frame 1, so that the automatic feeding operation of the outer pipe is realized, and the inner pipe upright post feeding device 3 can feed the inner pipe of an upright;

and 2, conveying the inner pipe and the outer pipe of the fan upright post to a fixed station: after the outer pipe and the inner pipe are moved to the mounting frame 1, the feeding motor 42 works to drive the feeding disc 43 to rotate, the feeding disc 43 rotates to drive the feeding column 49 to rotate, the feeding column 49 rotates to drive the feeding different plate 46 to rotate so as to drive the first feeding plate 44 to rotate on the feeding seat 41, the first feeding plate 44 rotates to drive the second feeding plate 45 to rotate, the second feeding plate 45 rotates to drive the feeding cylinder 47 to move on the feeding fixing block 48, the feeding cylinder 47 moves to move the inner pipe and the outer pipe placed on the mounting frame 1 forward, and the inner pipe and the outer pipe are continuously moved forward so as to facilitate the subsequent processing of the inner pipe and the outer pipe;

and 3, fixing the inner pipe and the outer pipe of the fan upright post: then, the first fixed motor 51 works to drive the fixed gear 52 to rotate, the fixed gear 52 rotates to drive the two fixed tooth plates 53 to move relatively in the storage groove 12, the two fixed tooth plates 53 move relatively to drive the two fixed moving frames 54 to move relatively to drive the two fixed plates 55 to move on the mounting frame 1, and the two fixed plates 55 move to fix the inner tube and the outer tube of the upright column, so that the positions of the inner tube and the outer tube are prevented from being shifted in the processing process, and subsequent processing is prevented from being influenced;

and 4, automatically cutting the fan stand column: then, the telescopic end of the cutting cylinder 62 moves downwards to drive the motor base 63 to move downwards so as to move the position of the cutting disc 65 downwards, at the moment, the cutting motor 64 works to drive the cutting disc 65 to rotate to perform cutting operation on the upright column, the water spray pipe 66 works to perform cooling operation on the cutting position of the upright column during cutting, and the grid box 13 can be used for collecting cutting waste residues;

and 5, automatically punching the fan upright column: when the upright column is punched, the telescopic end of the punching cylinder 82 moves downwards to drive the punching box 85 to move downwards, and the punching motor 83 works to drive the punching drill 84 to move downwards while moving downwards so as to punch the upright column;

step 6, moving the fan upright post to an upright post shaping station: then, after the upright columns are cut and punched, the moving motor 72 works to drive the moving roller 73 to rotate on the supporting frame 14, the moving roller 73 rotates to drive the upright columns on the storage plate 71 to move forwards, and subsequent processing operation can be carried out on the upright columns;

and 7, fixing the two ends of the inner pipe and the outer pipe of the fan upright post: then, after the upright post is moved onto the upright post fixing plate 913, the driving motor 972 works to drive the driving disc 973 to rotate, the driving disc 973 rotates to drive the driving disc 974 to move up and down on the fixing frame 971, and the driving disc 974 moves downwards to drive the upright post circular plate 975 to move downwards, so that the two ends of the inner tube and the outer tube placed on the upright post fixing plate 913 are fixed, and the positions of the inner tube and the outer tube are prevented from being shifted when the outer tube and the inner tube are subjected to double-buckle punching and shaping, so that the processing operation of the inner tube and the outer tube is influenced;

step 8, punching double buckles on the inner pipe and the outer pipe: then, when the inner pipe and the outer pipe are subjected to double-buckle punching, the punching motor 932 works to drive the punching rod 933 to rotate, the bent pipe 938 on the punching rod 933 rotates to drive the connecting plate 936 to rotate so as to drive the punching plate 934 to move up and down on the two sliding seats 937, the punching plate 934 moves up and down to drive the punching head 935 to move up and down, and double-buckle punching operation is performed on the inner pipe and the outer pipe;

step 9, cleaning dust and waste residues after punching and stamping: then, after the punching and punching operation is performed on the upright column, the dust and the waste residues on the upright column need to be cleaned, and at this time, the two cleaning fans 942 work to clean the dust and the waste residues so as to facilitate the subsequent processing of the upright column;

step 10, shaping two ends of the inner tube: then, when the inner tube is shaped, the rotating motor 911 works to drive the rotating disc 912 to rotate, the rotating disc 912 rotates to drive the upright post fixing plate 913 to rotate, the upright post fixing plate 913 rotates to rotate the inner tube placed on the upright post fixing plate 913, the inner tube is moved to the upright post inner circle spinning shaping assembly 95 and the upright post outer circle spinning shaping assembly 96, the outer circle and the inner circle of the inner tube are shaped, after one end of the inner tube is shaped, the rotating disc 912 rotates to drive the inner tube on the upright post fixing plate 913 to rotate for 180 degrees, and the other end of the inner tube is shaped;

step 11, shaping the inner circle of the inner tube: then, when the inner circle of the inner tube is shaped, the telescopic end of the sliding cylinder 952 moves to drive the fixing frame 953 to move, the fixing frame 953 moves to drive the inner shaping cutter head to move to the inner tube, and at the moment, the inner circle shaping motor 954 works to drive the inner circle shaping cutter head 955 to perform shaping operation on the inner circle of the inner tube;

and step 12, shaping the outer circle of the inner pipe: then, when the outer circle of the inner tube is shaped, the sliding motor 962 works to drive the gear to rotate on the tooth grooves on the second shaping frame 961, the sliding gear 963 rotates to drive the sliding plate 964 to move on the second shaping frame 961 to move the outer circle shaping cutter 966 to the inner tube, at this time, the outer circle shaping motor 965 works to drive the outer circle shaping cutter 966 to rotate to shape the outer circle of the inner tube, when the inner tube and the outer tube are processed and conveyed, the position of the inner tube needs to be moved, at this time, the telescopic end of the movable cylinder 922 moves downwards to drive the conveying seat 923 to move downwards so as to drive the conveying roller 925 to move above the inner tube and the outer tube, at this time, the conveying motor 924 works to drive the conveying roller 925 to rotate on the conveying seat 923, the conveying roller 925 rotates to move the outer tube and the inner tube forwards, and the inner tube moves forwards to shape;

step 13, automatic blanking of the inner pipe and the outer pipe: then, after the outer tube and the inner tube of the upright post are processed, the blanking motor 112 operates to drive the blanking roller 114 to rotate on the blanking seat 111, and the blanking roller 114 rotates to move the processed outer tube and inner tube outwards through the blanking moving frame 113.

Specifically, mounting bracket 1 is vertical setting, outer tube stand loading attachment 2 and inner tube stand loading attachment 3 symmetry set up the top at mounting bracket 1, stand material loading mobile device 4 sets up side and stand material loading mobile device 4 and mounting bracket 1 sliding fit at mounting bracket 1, stand fixing device 5 sets up on mounting bracket 1 and stand fixing device 5 and mounting bracket 1 sliding fit, stand cutting device 6 sets up the top at support frame 14, support frame 14 is located the side of mounting bracket 1, on stand mobile device 7 support frame 14, stand perforating device 8 sets up the top at support frame 14 and stand perforating device 8 is located the top of stand mobile device 7, unloading mount 10 is located the lateral wall of support frame 14, stand unloader 11 is located unloading mount 10, stand shaping device 9 includes stand runner assembly 91, a little, An upright post conveying component 92, an upright post stamping component 93, a dust cleaning component 94, an upright post inner circle spinning and shaping component 95, an upright post outer circle spinning and shaping component 96 and two upright post two-side fixing components 97, the upright post rotating component 91 is arranged on the support frame 14, the upright post rotating component 91 is rotationally connected with the support frame 14, the two upright post two-side fixing components 97 are symmetrically arranged at the two ends of the top of the upright post rotating component 91, the upright post conveying assembly 92 is vertically arranged on the upright post rotating assembly 91, the upright post stamping assembly 93 is positioned at the side of the upright post conveying assembly 92, the column inner circle spinning and shaping component 95 and the column outer circle spinning and shaping component 96 are symmetrically arranged on the side wall of the blanking fixing frame 10, the dust cleaning assembly 94 is arranged on the side wall of the support frame 14 and above the column rotating assembly 91; when the upright post is processed, the outer tube upright post feeding device 2 and the inner tube upright post feeding device 3 respectively carry out automatic feeding operation on the outer tube and the inner tube of the upright post, after the outer tube is fed, the outer tube and the inner tube of the upright post are cut and punched by the upright post feeding and moving device 4, the upright post fixing device 5, the upright post feeding and moving device 6, the upright post moving device 7 and the upright post punching device 8, the upright post fixing device 5 fixes the upright post during cutting, the inner tube and the outer tube are continuously moved forwards by the upright post feeding and moving device 4, the upright post moving device 7 can move the upright post after cutting and punching, when the inner tube is shaped, the two upright post fixing devices 5 work to fix the position of the inner tube, the upright post punching component 93 works to punch the upright post for double-buckling operation after fixing, and the dust cleaning component 94 works to clean waste residues during punching, the stand rotation component 91 worker moves the one end of stand to the interior circle spinning plastic subassembly 95 of stand, stand excircle spinning plastic subassembly 96 on, carries out circle and excircle to the both ends of stand and carries out the plastic operation, carries out the plastic and the processing completion back to inner tube and outer tube, and the outside unloading of outer tube and inner tube is being carried out in 11 work of stand unloader.

Specifically, the outer pipe column feeding device 2 and the inner pipe column feeding device 3 have the same structure, the outer pipe column feeding device 2 comprises a feeding frame 21, a feeding circular plate 22 and two feeding cylinders 23, the feeding frame 21 is located at one end of the top of the mounting frame 1, the two feeding cylinders 23 are symmetrically arranged on the feeding frame 21, the telescopic ends of the two feeding cylinders 23 are vertically and upwardly arranged, a lifting plate 24 is arranged at the telescopic end of each feeding cylinder 23, the lifting plate 24 is in sliding fit with the feeding frame 21, and two ends of the feeding circular plate 22 are fixedly connected with the two lifting plates 24; when carrying out the material loading to the outer tube, place the outer tube on material loading frame 21, thereby two flexible ends simultaneous upward movement of two material loading cylinders 23 drive two riser 24 rebound and drive material loading plectane 22 rebound this moment, material loading plectane 22 rebound with the outer tube on the material loading frame 21 remove to the stand fixing device 5 on the mounting bracket 1 on, realize the automatic feeding operation to the outer tube, inner tube stand loading attachment 3 can carry out the material loading operation to the stand inner tube.

Specifically, the upright post feeding and moving device 4 includes a feeding base 41, a feeding motor 42, a feeding tray 43, a first feeding plate 44, a second feeding plate 45, a feeding different plate 46, a feeding cylinder 47 and a feeding fixing block 48, the feeding base 41 is vertically disposed beside the mounting frame 1, the feeding motor 42 is disposed on a side wall of one end of the feeding base 41, the feeding tray 43 is located at the other end of the feeding base 41 and is connected to a main shaft of the feeding motor 42, a feeding column 49 is disposed on the feeding tray 43, the bottom of the first feeding is rotatably connected to the feeding base 41, the feeding different plate 46 is fixedly connected to the middle of the first feeding plate 44, the bottom of the second feeding plate 45 is rotatably connected to the top of the first feeding plate 44, a sliding groove slidably matched with the feeding column 49 is disposed on the feeding different plate 46, the feeding fixing block 48 is fixedly mounted at the top of the mounting frame 1, one end of the feeding cylinder 47 is rotatably connected with the top of the second feeding plate 45, and the feeding cylinder 47 is in sliding fit with the feeding fixing block 48; after the outer pipe and the inner pipe are moved to the mounting frame 1, the feeding motor 42 works to drive the feeding disc 43 to rotate, the feeding disc 43 rotates to drive the feeding column 49 to rotate, the feeding column 49 rotates to drive the feeding different plate 46 to rotate so as to drive the first feeding plate 44 to rotate on the feeding seat 41, the first feeding plate 44 rotates to drive the second feeding plate 45 to rotate, the second feeding plate 45 rotates to drive the feeding cylinder 47 to move on the feeding fixed block 48, the feeding cylinder 47 moves to move the inner pipe and the outer pipe placed on the mounting frame 1 forward, the inner pipe and the outer pipe are continuously moved forward, and subsequent processing of the inner pipe and the outer pipe is facilitated.

Specifically, the upright post fixing device 5 includes a first fixed motor 51, a fixed gear 52, two fixed toothed plates 53, two fixed moving frames 54 and two fixed plates 55, the first fixed motor 51 is disposed at the bottom of the mounting frame 1, a main shaft of the first fixed motor 51 is disposed vertically upward, the mounting frame 1 is provided with a storage slot 12, the fixed gear 52 is disposed on the main shaft of the first fixed motor 51 and located in the storage slot 12, the two fixed toothed plates 53 are symmetrically disposed in the storage slot 12, the two fixed toothed plates 53 are meshed with the fixed gear 52, the two fixed moving frames 54 are respectively fixedly connected with the two fixed toothed plates 53, the two fixed plates 55 are respectively symmetrically disposed on the two fixed moving frames 54, and the two fixed plates 55 are in sliding fit with the top of the mounting frame 1; when cutting the stand fixedly, first fixed motor 51 work drives fixed gear 52 and rotates, fixed gear 52 rotates and drives two fixed tooth plates 53 and move relative movement in storage tank 12, two fixed tooth plates 53 move relative movement and drive two fixed moving frames 54 and move relative movement and drive two fixed plates 55 on mounting bracket 1, two fixed plates 55 move and fix the inner tube and the outer tube of stand, prevent that the skew takes place in the position of the in-process inner tube and the outer tube of processing, influence subsequent processing.

Specifically, the pillar cutting device 6 includes a cutting frame 61, a cutting cylinder 62, a motor base 63, a cutting motor 64, a cutting disc 65 and a water spraying pipe 66, the cutting frame 61 is disposed on the top of the mounting frame 1, the cutting cylinder 62 is disposed on the top of the cutting frame 61, the motor base 63 is fixedly connected with the telescopic end of the cutting cylinder 62, the cutting motor 64 is fixedly connected to the motor base 63, the cutting disc 65 is fixedly connected with the spindle of the cutting motor 64, the water spraying pipe 66 is disposed on the cutting frame 61, the water outlet end of the water spraying pipe 66 faces the cutting disc 65, a grid box 13 is disposed on the mounting frame 1, and the grid box 13 is located below the cutting frame 61; when cutting the stand, thereby the flexible end downstream of cutting cylinder 62 drives motor cabinet 63 downstream and moves down the position downstream with cutting disc 65, cutting motor 64 work this moment drives cutting disc 65 and rotates and cut the operation to the stand, and the work of spray pipe 66 is cooled down the operation to stand cutting department in the cutting, and net case 13 can be used for the collection to the cutting waste residue.

Specifically, the upright post moving device 7 comprises a storage plate 71, a moving motor 72 and a moving roller 73, wherein the storage plate 71 is horizontally arranged at the top of the support frame 14, the moving motor 72 is arranged on the support frame 14, two ends of the moving roller 73 are respectively in rotating connection with the support frame 14, the moving motor 72 is fixedly connected with one end of the moving roller 73, and the moving roller 73 is in rotating fit with the storage plate 71; after the upright columns are cut and punched, the moving motor 72 works to drive the moving roller 73 to rotate on the supporting frame 14, the moving roller 73 rotates to drive the upright columns on the storage plate 71 to move forwards, and subsequent processing operation can be performed on the upright columns.

Specifically, the upright post punching device 8 comprises a punching frame 81, a punching cylinder 82, a punching motor 83, a punching bit 84 and a punching box 85, wherein the punching frame 81 is arranged at the top of the support frame 14 and is positioned above the storage plate 71, the punching cylinder 82 is arranged at the top of the punching frame 81, the punching box 85 is fixedly connected with the telescopic end of the punching cylinder 82, the punching motor 83 is arranged on the punching box 85, the main shaft of the punching motor 83 is vertically arranged downwards, and the punching bit 84 is fixedly connected with the main shaft of the punching motor 83; when the upright column is punched, the telescopic end of the punching cylinder 82 moves downwards to drive the punching box 85 to move downwards, and the punching motor 83 works to drive the punching drill 84 to move downwards while moving downwards, so that the upright column is punched.

Specifically, the upright post blanking device 11 includes a blanking seat 111, a blanking motor 112, a blanking moving frame 113 and a blanking roller 114, the blanking seat 111 is arranged at the top of the blanking fixed frame 10, the blanking roller 114 is rotatably connected to the blanking seat 111, the blanking motor 112 is arranged on the blanking seat 111, a main shaft of the blanking motor 112 is in transmission connection with one end of the blanking roller 114, and the blanking moving frame 113 is obliquely arranged at the side of the blanking fixed frame 10; after the outer pipe and the inner pipe of the upright post are processed, the blanking motor 112 works to drive the blanking roller 114 to rotate on the blanking seat 111, and the blanking roller 114 rotates to move the processed outer pipe and inner pipe outwards through the blanking moving frame 113.

Specifically, the upright post rotating assembly 91 comprises a rotating motor 911, a rotating disc 912 and an upright post fixing plate 913, the rotating motor 911 is arranged at the bottom of the supporting frame 14, a main shaft of the rotating motor 911 is arranged vertically upwards, the rotating disc 912 is rotatably connected to the supporting frame 14, the bottom of the rotating disc 912 is fixedly connected with the main shaft of the rotating motor 911, and the upright post fixing plate 913 is horizontally arranged at the top of the rotating disc 912; when carrying out the plastic to the inner tube, it drives rolling disc 912 to rotate motor 911 work, rolling disc 912 rotates and drives stand fixed plate 913 and rotate, stand fixed plate 913 rotates and rotates the inner tube of placing on stand fixed plate 913, move the inner tube to the stand in on circle spinning plastic subassembly 95 and the stand excircle spinning plastic subassembly 96, carry out the excircle to the inner tube and carry out the plastic operation with interior circle, after carrying out the plastic to the one end of inner tube, rolling disc 912 rotates and can drive the inner tube on the stand fixed plate 913 and carry out 180 degrees rotations, carry out the plastic operation to the other end of inner tube.

Specifically, the upright post conveying assembly 92 comprises a conveying frame 921, a moving cylinder 922, a conveying seat 923, a conveying motor 924 and conveying rollers 925, wherein the conveying frame 921 is located at the top of an upright post fixing plate 913, the moving cylinder 922 is located at the top of the conveying frame 921, the conveying seat 923 is fixedly connected with the telescopic end of the moving cylinder 922, the conveying rollers 925 are rotatably connected to the conveying seat 923, the conveying motor 924 is arranged on the side wall of the conveying seat 923, and the main shaft of the conveying motor 924 is fixedly connected with one end of the conveying rollers 925; when processing the transport to inner tube and outer tube, need remove the position of inner tube, thereby the flexible end lapse that removes cylinder 922 this moment drives and carries seat 923 to move down and drive the top that conveying roller 925 removed inner tube and outer tube, conveying motor 924 work drives conveying roller 925 and rotates on carrying seat 923 this moment, conveying roller 925 rotates outer tube and inner tube to move forward, carry out the plastic operation to the inner tube with the inner tube to move forward, carry the outer tube forward and carry out the unloading operation through stand unloader 11 to the outer tube of processing completion.

Specifically, the upright post stamping assembly 93 comprises a stamping frame 931, a stamping motor 932, a stamping rod 933, a stamping plate 934, a stamping head 935, a connecting plate 936 and two sliding seats 937, wherein the stamping frame 931 is vertically arranged at the top of the upright post fixing plate 913, the stamping motor 932 is arranged on the side wall of the stamping frame 931, the stamping rod 933 is rotatably connected to the stamping frame 931, one end of the stamping rod 933 is fixedly connected with a spindle of the stamping motor 932, the middle position of the stamping rod 933 is an elbow 938, the two sliding seats 937 are symmetrically arranged on the inner side wall of the stamping frame 931, the stamping plate 934 is horizontally arranged on the two sliding seats 937, the stamping plate 934 is in sliding fit with the two sliding seats 937, the stamping head 935 is arranged at the bottom of the stamping plate 934, and two ends of the connecting plate 936 are rotatably connected with the stamping plate 934 and the elbow 938 respectively; when punching double-buckle to inner tube and outer tube, punching motor 932 work drives punching rod 933 and rotates, thereby return bend 938 on punching rod 933 rotates and drives connecting plate 936 and rotate and drive punching press plate 934 and reciprocate on two sliding seat 937, and punching press plate 934 reciprocates and drives punching press head 935 and reciprocate, punches double-buckle operation to inner tube and outer tube.

Specifically, the dust cleaning assembly 94 includes a support base 941 and two cleaning fans 942, the support base 941 is disposed on a side wall of the support frame 14 in an L shape, the two cleaning fans 942 are symmetrically disposed on a top portion of the support base 941, and air outlet ends of the two cleaning fans 942 face to an upper portion of the column fixing plate 913; after the punching and punching operation is performed on the stand column, dust and waste residues on the stand column need to be cleaned, and at the moment, the dust and the waste residues are cleaned by the two cleaning fans 942, so that the subsequent stand column can be conveniently processed.

Specifically, the column inner circle spinning and shaping assembly 95 comprises a first shaping frame 951, a sliding cylinder 952, a fixing frame 953, an inner circle shaping motor 954 and an inner circle shaping cutter head 955, wherein the first shaping frame 951 is arranged at the top of the blanking fixing frame 10, the sliding cylinder 952 is fixedly connected to the top of the first shaping frame 951, the fixing frame 953 is fixedly connected with the telescopic end of the sliding cylinder 952, the inner circle shaping motor 954 is fixedly connected to the fixing frame 953, and the inner circle shaping cutter head 955 is eccentrically arranged with the main shaft of the inner circle shaping motor 954; when carrying out the plastic to the interior circle of inner tube, the flexible end of sliding cylinder 952 removes and drives fixed frame 953 and remove, and fixed frame 953 removes and drives in the plastic blade disc and remove to the inner tube, and the work of interior circle plastic motor 954 work drives interior circle plastic blade disc 955 work and carries out the plastic operation to the interior circle of inner tube this moment.

Specifically, the column outer circle spinning and shaping assembly 96 comprises a second shaping frame 961, a sliding motor 962, a sliding gear 963, a sliding plate 964, an outer circle shaping motor 965 and an outer circle shaping cutter 966, wherein the second shaping frame 961 is vertical to the top of the blanking fixing frame 10, the sliding plate 964 is slidably connected to the second shaping frame 961, the sliding motor 962 is fixedly connected to the sliding plate 964, the sliding gear 963 is fixedly connected to a main shaft of the sliding motor 962, a tooth groove engaged with the sliding gear 963 is arranged on the second shaping frame 961, the outer circle shaping motor 965 is fixedly arranged at the bottom of the sliding plate 964, and the outer circle shaping cutter 966 and the main shaft of the outer circle shaping motor 965 are arranged eccentrically; when the excircle to the inner tube is reshaped, sliding motor 962 work and drive the gear and rotate on the tooth's socket on second shaping frame 961, sliding gear 963 rotates and drives sliding plate 964 to move on second shaping frame 961 and move excircle shaping cutter 966 to the inner tube, and excircle shaping motor 965 work drives excircle shaping cutter 966 and rotates this moment, carries out the plastic operation to the excircle of inner tube.

Specifically, each of the two-side fixing assemblies 97 of the upright column includes a fixing bracket 971, a driving motor 972, a driving disk 973, a driving plate 974 and an upright column circular plate 975, the fixing bracket 971 is disposed at the top of the upright column fixing plate 913, the driving motor 972 is disposed at the top of the fixing bracket 971, the driving disk 973 is fixedly connected to a main shaft of the driving motor 972, a moving slot is disposed on the fixing bracket 971, the top of the driving plate 974 is rotatably connected with the driving disk 973, and the upright column circular plate 975 is fixedly connected with the bottom of the driving plate 974; when processing outer pipe and inner tube, driving motor 972 work drives driving-disc 973 and rotates, driving-disc 973 rotates and drives driving-disc 974 and reciprocate on mount 971, driving-disc 974 moves down and drives stand plectane 975 and move down, fix the both ends of inner tube and outer tube placed on stand fixed plate 913, prevent to dash double-thread and plastic the time outer pipe and inner tube when, the skew takes place for the position of inner tube and outer tube, thereby the influence is to the processing operation of inner tube and outer tube.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. An automatic processing technology of a fan stand column is characterized by comprising the following steps:

step 1, automatically feeding an inner pipe and an outer pipe of a fan stand column: the device is provided with a mounting frame (1), an outer pipe column feeding device (2), an inner pipe column feeding device (3), a column feeding moving device (4), a column fixing device (5), a column cutting device (6), a column moving device (7), a column punching device (8), a support frame (14), a column shaping device (9), a blanking fixing frame (10) and a column blanking device (11), firstly, when the device is used for feeding an outer pipe, the outer pipe is placed on a feeding frame (21) of the outer pipe column feeding device (2), two telescopic ends of two feeding cylinders (23) simultaneously move upwards to drive two lifting plates (24) to move upwards so as to drive a feeding circular plate (22) to move upwards, the feeding circular plate (22) moves upwards to move the outer pipe on the feeding frame (21) to the column fixing device (5) on the mounting frame (1), the automatic feeding operation of the outer pipe is realized, and the inner pipe column feeding device (3) can perform feeding operation on the inner pipe of the column;

and 2, conveying the inner pipe and the outer pipe of the fan upright post to a fixed station: after the outer pipe and the inner pipe are moved to the mounting frame (1), a feeding motor (42) of the upright post feeding moving device (4) works to drive a feeding disc (43) to rotate, the feeding disc (43) rotates to drive a feeding column (49) to rotate, the feeding column (49) rotates to drive a feeding different plate (46) to rotate so as to drive a first feeding plate (44) to rotate on a feeding seat (41), the first feeding plate (44) rotates to drive a second feeding plate (45) to rotate, the second feeding plate (45) rotates to drive a feeding cylinder (47) to move on a feeding fixing block (48), and the feeding cylinder (47) moves to move the inner pipe and the outer pipe placed on the mounting frame (1) forward and continuously move the inner pipe and the outer pipe forward so as to facilitate subsequent processing of the inner pipe and the outer pipe;

and 3, fixing the inner pipe and the outer pipe of the fan upright post: then, a first fixed motor (51) of the upright post fixing device (5) works to drive a fixed gear (52) to rotate, the fixed gear (52) rotates to drive two fixed toothed plates (53) to move in a storage groove (12) in a relative mode, the two fixed toothed plates (53) move in a relative mode to drive two fixed moving frames (54) to move in a relative mode to drive two fixed plates (55) to move on an installation frame (1), and the two fixed plates (55) move to fix an inner tube and an outer tube of the upright post, so that the positions of the inner tube and the outer tube are prevented from being shifted in the processing process, and subsequent processing is prevented from being influenced;

and 4, automatically cutting the fan stand column: then, the telescopic end of a cutting cylinder (62) of the upright post cutting device (6) moves downwards to drive a motor base (63) to move downwards so as to move the position of a cutting disc (65) downwards, at the moment, a cutting motor (64) works to drive the cutting disc (65) to rotate to perform cutting operation on the upright post, a water spray pipe (66) works to perform cooling operation on the cutting position of the upright post during cutting, and a grid box (13) can be used for collecting cutting waste residues;

and 5, automatically punching the fan upright column: then, when the upright column is punched, the telescopic end of a punching cylinder (82) of the upright column punching device (8) moves downwards to drive a punching box (85) to move downwards, and a punching motor (83) works to drive a punching drill bit (84) to move downwards while moving downwards so as to punch the upright column;

step 6, moving the fan upright post to an upright post shaping station: then, after the upright columns are cut and punched, a moving motor (72) of the upright column moving device (7) works to drive a moving roller (73) to rotate on the supporting frame (14), the moving roller (73) rotates to drive the upright columns on the storage plate (71) to move forwards, and subsequent processing operation can be carried out on the upright columns;

and 7, fixing the two ends of the inner pipe and the outer pipe of the fan upright post: then, after the upright post is moved to an upright post fixing plate (913) of an upright post shaping device (9), a driving motor (972) works to drive a driving disc (973) to rotate, the driving disc (973) rotates to drive a driving plate (974) to move up and down on a fixing frame (971), the driving plate (974) moves downwards to drive an upright post circular plate (975) to move downwards, two ends of an inner tube and an outer tube which are placed on the upright post fixing plate (913) are fixed, and the inner tube and the outer tube are prevented from being shifted when being subjected to double-buckling and shaping, so that the processing operation of the inner tube and the outer tube is influenced;

step 8, punching double buckles on the inner pipe and the outer pipe: then, when the inner pipe and the outer pipe are punched and double-buckled, a punching motor (932) works to drive a punching rod (933) to rotate, a bent pipe (938) on the punching rod (933) rotates to drive a connecting plate (936) to rotate so as to drive a punching plate (934) to move up and down on two sliding seats (937), the punching plate (934) moves up and down to drive a punching head (935) to move up and down, and the inner pipe and the outer pipe are punched and double-buckled;

step 9, cleaning dust and waste residues after punching and stamping: then, after the upright post is punched and stamped, the dust and the waste residues on the upright post need to be cleaned, and at the moment, two cleaning fans (942) work to clean the dust and the waste residues so as to facilitate the subsequent processing of the upright post;

step 10, shaping two ends of the inner tube: then, when the inner tube is shaped, a rotating motor (911) works to drive a rotating disc (912) to rotate, the rotating disc (912) rotates to drive an upright post fixing plate (913) to rotate, the upright post fixing plate (913) rotates to rotate an inner tube placed on the upright post fixing plate (913), the inner tube is moved to an upright post inner circle spinning shaping assembly (95) and an upright post outer circle spinning shaping assembly (96), the outer circle and the inner circle of the inner tube are shaped, after one end of the inner tube is shaped, the rotating disc (912) rotates to drive the inner tube on the upright post fixing plate (913) to rotate for 180 degrees, and the other end of the inner tube is shaped;

step 11, shaping the inner circle of the inner tube: then, when the inner circle of the inner tube is shaped, the telescopic end of the sliding cylinder (952) moves to drive the fixing frame (953) to move, the fixing frame (953) moves to drive the inner shaping cutter head (955) to move to the inner tube, and at the moment, the inner circle shaping motor (954) works to drive the inner shaping cutter head (955) to shape the inner circle of the inner tube;

and step 12, shaping the outer circle of the inner pipe: then, when the outer circle of the inner tube is shaped, the sliding motor (962) works to drive the gear to rotate on a tooth groove on the second shaping frame (961), the sliding gear (963) rotates to drive the sliding plate (964) to move on the second shaping frame (961) so as to move the outer circle shaping cutter head (966) to the inner tube, and at the moment, the outer circle shaping motor (965) works to drive the outer circle shaping cutter head (966) to rotate so as to shape the outer circle of the inner tube; when the inner pipe and the outer pipe are processed and conveyed, the position of the inner pipe needs to be moved, at the moment, the telescopic end of the moving cylinder (922) moves downwards to drive the conveying seat (923) to move downwards so as to drive the conveying roller (925) to move to the upper part of the inner pipe and the outer pipe, at the moment, the conveying motor (924) works to drive the conveying roller (925) to rotate on the conveying seat (923), the conveying roller (925) rotates to move the outer pipe and the inner pipe forwards, and the inner pipe moves forwards to perform shaping operation on the inner pipe;

step 13, automatic blanking of the inner pipe and the outer pipe: then, after the outer pipe and the inner pipe of the upright post are processed, a blanking motor (112) of the upright post blanking device (11) works to drive a blanking roller (114) to rotate on a blanking seat (111), and the blanking roller (114) rotates to move the processed outer pipe and the processed inner pipe outwards through a blanking moving frame (113), so that automatic blanking is realized.

2. The automatic processing technology of the fan stand column according to claim 1, characterized in that: the mounting rack (1) is vertically arranged, the outer pipe column feeding device (2) and the inner pipe column feeding device (3) are symmetrically arranged at the top of the mounting rack (1), the column feeding mobile device (4) is arranged at the side of the mounting rack (1), the column feeding mobile device (4) is in sliding fit with the mounting rack (1), the column fixing device (5) is arranged on the mounting rack (1), the column fixing device (5) is in sliding fit with the mounting rack (1), the column cutting device (6) is arranged at the top of the support frame (14), the support frame (14) is arranged at the side of the mounting rack (1), the column moving device (7) is arranged on the support frame (14), the column punching device (8) is arranged at the top of the support frame (14) and the column punching device (8) is arranged above the column moving device (7), the blanking fixing frame (10) is located on the side wall of the supporting frame (14), and the upright post blanking device (11) is located on the blanking fixing frame (10).

3. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: outer tube stand loading attachment (2) and inner tube stand loading attachment (3) structure are the same, outer tube stand loading attachment (2) are including material loading frame (21), material loading plectane (22) and two material loading cylinders (23), material loading frame (21) are located the top one end of mounting bracket (1), two material loading cylinders (23) symmetry set up on material loading frame (21) and the flexible end of two material loading cylinders (23) is vertical upwards to be set up, every all be equipped with riser (24) on the flexible end of material loading cylinders (23), riser (24) and material loading frame (21) sliding fit, the both ends and two riser (24) fixed connection of material loading plectane (22).

4. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: the upright post feeding moving device (4) comprises a feeding seat (41), a feeding motor (42), a feeding disc (43), a first feeding plate (44), a second feeding plate (45), a feeding different plate (46), a feeding cylinder (47) and a feeding fixing block (48), wherein the feeding seat (41) is vertically arranged at the side of the mounting frame (1), the feeding motor (42) is arranged on the side wall of one end of the feeding seat (41), the feeding disc (43) is positioned at the other end of the feeding seat (41) and is connected with a main shaft of the feeding motor (42), the feeding disc (43) is provided with a feeding column (49), the bottom of the first feeding is rotatably connected with the feeding seat (41), the feeding different plate (46) is fixedly connected with the middle position of the first feeding plate (44), the bottom of the second feeding plate (45) is rotatably connected with the top of the first feeding plate (44), the special feeding plate is characterized in that a sliding groove in sliding fit with the feeding column (49) is formed in the feeding special plate (46), the feeding fixing block (48) is fixedly installed at the top of the mounting frame (1), one end of the feeding cylinder (47) is rotatably connected with the top of the second feeding plate (45), and the feeding cylinder (47) is in sliding fit with the feeding fixing block (48).

5. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: the upright post fixing device (5) comprises a first fixed motor (51), a fixed gear (52), two fixed toothed plates (53), two fixed moving frames (54) and two fixed plates (55), the first fixed motor (51) is arranged at the bottom of the mounting rack (1) and the main shaft of the first fixed motor (51) is vertically arranged upwards, be equipped with storage tank (12) on mounting bracket (1), fixed gear (52) set up on the main shaft of first fixed motor (51) and are located storage tank (12), two fixed pinion rack (53) symmetry sets up in storage tank (12) and two fixed pinion rack (53) mesh with fixed gear (52), two fixed removal frame (54) respectively with two fixed pinion rack (53) fixed connection, two fixed plate (55) symmetry respectively sets up on two fixed removal frames (54) and the top sliding fit of two fixed plate (55) and mounting bracket (1).

6. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: stand cutting device (6) are including cutting frame (61), cutting cylinder (62), motor cabinet (63), cutting motor (64), cutting dish (65) and spray pipe (66), cutting frame (61) sets up the top at mounting bracket (1), cutting cylinder (62) set up the top at cutting frame (61), the flexible end fixed connection of motor cabinet (63) and cutting cylinder (62), cutting motor (64) fixed connection is on motor cabinet (63), the main shaft fixed connection of cutting dish (65) and cutting motor (64), spray pipe (66) set up on cutting frame (61) and the delivery end of spray pipe (66) is towards cutting dish (65), be equipped with net case (13) on mounting bracket (1), net case (13) are located the below of cutting frame (61).

7. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: the upright post moving device (7) comprises a storage plate (71), a moving motor (72) and a moving roller (73), the storage plate (71) is horizontally arranged at the top of a support frame (14), the moving motor (72) is arranged on the support frame (14), two ends of the moving roller (73) are respectively connected with the support frame (14) in a rotating manner, the moving motor (72) is fixedly connected with one end of the moving roller (73), the moving roller (73) is matched with the storage plate (71) in a rotating manner, the upright post punching device (8) comprises a punching frame (81), a punching cylinder (82), a punching motor (83), a punching drill (84) and a punching box (85), the punching frame (81) is arranged at the top of the support frame (14) and positioned above the storage plate (71), the punching cylinder (82) is arranged at the top of the punching frame (81), and the punching box (85) is fixedly connected with the punching cylinder (82) in a telescopic manner, the punching machine is characterized in that the punching motor (83) is arranged on the punching box (85), a main shaft of the punching motor (83) is vertically arranged downwards, and the punching drill bit (84) is fixedly connected with the main shaft of the punching motor (83).

8. The automatic processing technology of the fan stand column according to claim 1, characterized in that: stand unloader (11) are including unloading seat (111), unloading motor (112), unloading removal frame (113) and unloading roller (114), unloading seat (111) set up the top at unloading mount (10), unloading roller (114) rotate to be connected on unloading seat (111), unloading motor (112) set up on unloading seat (111) and the main shaft of unloading motor (112) is connected with the one end transmission of unloading roller (114), the unloading removes the side that frame (113) slope set up at unloading mount (10).

9. The automatic processing technology of the fan stand column as claimed in claim 2, wherein: the upright post shaping device (9) comprises an upright post rotating component (91), an upright post conveying component (92), an upright post stamping component (93), a dust cleaning component (94), an upright post inner circle spinning shaping component (95), an upright post outer circle spinning shaping component (96) and two upright post both sides fixing components (97), wherein the upright post rotating component (91) is arranged on the supporting frame (14) and the upright post rotating component (91) is rotatably connected with the supporting frame (14), the upright post both sides fixing components (97) are symmetrically arranged at the two ends of the top of the upright post rotating component (91), the upright post conveying component (92) is vertically arranged on the upright post rotating component (91), the upright post stamping component (93) is arranged on the upright post rotating component (91) and the upright post stamping component (93) is positioned at the side of the upright post conveying component (92), the upright post inner circle spinning shaping component (95) and the upright post outer circle spinning shaping component (96) are symmetrically arranged at a fixed frame (91) 10) The dust cleaning assembly (94) is arranged on the side wall of the support frame (14) and is positioned above the upright post rotating assembly (91), the upright post rotating assembly (91) comprises a rotating motor (911), a rotating disc (912) and an upright post fixing plate (913), the rotating motor (911) is arranged at the bottom of the support frame (14) and a spindle of the rotating motor (911) is vertically and upwards arranged, the rotating disc (912) is rotatably connected to the support frame (14) and the bottom of the rotating disc (912) is fixedly connected with the spindle of the rotating motor (911), the upright post fixing plate (913) is horizontally arranged at the top of the rotating disc (912), the upright post inner circle spinning shaping assembly (95) comprises a first shaping frame (951), a sliding cylinder (952), a fixing frame (953), an inner circle motor (954) and an inner circle shaping cutter head (955), the first shaping frame (951) is arranged at the top of the blanking fixing frame (10), the sliding cylinder (952) is fixedly connected to the top of the first shaping frame (951), the fixing frame (953) is fixedly connected with the telescopic end of the sliding cylinder (952), the inner circle shaping motor (954) is fixedly connected to the fixing frame (953), the inner circle shaping cutterhead (955) and a main shaft of the inner circle shaping motor (954) are eccentrically arranged, the upright column outer circle spinning shaping assembly (96) comprises a second shaping frame (961), a sliding motor (962), a sliding gear (963), a sliding plate (964), an outer circle shaping motor (965) and an outer circle shaping cutterhead (966), the second shaping frame (961) is vertically arranged at the top of the blanking fixing frame (10), the sliding plate (964) is slidably connected to the second shaping frame (961), the sliding motor (962) is fixedly connected to the sliding plate (964), and the sliding gear (963) is fixedly connected to the main shaft of the sliding motor (962), the second shaping frame (961) is provided with a tooth groove meshed with the sliding gear (963), the outer circle shaping motor (965) is fixedly arranged at the bottom of the sliding plate (964), the outer circle shaping cutter head (966) and a main shaft of the outer circle shaping motor (965) are eccentrically arranged, each upright post two-side fixing component (97) comprises a fixing frame (971), a driving motor (972), a driving disc (973), a driving disc (974) and an upright post circular plate (975), the fixing frame (971) is arranged at the top of the upright post fixing plate (913), the driving motor (972) is arranged at the top of the fixing frame (971), the driving disk (973) is fixedly connected with the main shaft of the driving motor (972), a moving groove is arranged on the fixed bracket (971), the top of the driving plate (974) is rotationally connected with the driving plate (973), the column circular plate (975) is fixedly connected with the bottom of the driving plate (974).

10. The automatic processing technology of the fan stand column according to claim 9, characterized in that: the upright post conveying assembly (92) comprises a conveying frame (921), a moving cylinder (922), a conveying seat (923), a conveying motor (924) and conveying rollers (925), wherein the conveying frame (921) is located at the top of an upright post fixing plate (913), the moving cylinder (922) is located at the top of the conveying frame (921), the conveying seat (923) is fixedly connected with the telescopic end of the moving cylinder (922), the conveying rollers (925) are rotatably connected on the conveying seat (923), the conveying motor (924) is arranged on the side wall of the conveying seat (923), the main shaft of the conveying motor (924) is fixedly connected with one end of the conveying rollers (925), the upright post stamping assembly (93) comprises a stamping frame (931), a stamping motor (932), a stamping rod (933), a stamping plate (934), a stamping head (935), a connecting plate (936) and two sliding seats (937), the stamping frame (931) is vertically arranged at the top of the upright post fixing plate (913), stamping motor (932) sets up on the lateral wall of punching press frame (931), punching press pole (933) rotate to be connected on punching press frame (931) and the one end of punching press pole (933) and stamping motor (932) main shaft fixed connection, the intermediate position of punching press pole (933) is return bend (938), two sliding seat (937) symmetry sets up on the inside wall of punching press frame (931), punching press board (934) level sets up on two sliding seat (937) and punching press board (934) and two sliding seat (937) sliding fit, punching press head (935) sets up the bottom at punching press board (934), the both ends of connecting plate (936) rotate with punching press board (934) and return bend (938) respectively and are connected.