CN113798785A

CN113798785A - Installation and manufacturing process of intelligent wireless communication equipment device

Info

Publication number: CN113798785A
Application number: CN202110929924.XA
Authority: CN
Inventors: 李国龙
Original assignee: Individual
Current assignee: Yibin Tianlong Communication Co ltd
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2021-12-17
Anticipated expiration: 2041-08-13
Also published as: CN113798785B

Abstract

The invention provides an installation and manufacturing process of an intelligent wireless communication device, which relates to the technical field of intelligent wireless communication device production and comprises the following steps: s1, injection molding: putting the mixed copper liquid into a forming cavity, extruding the copper liquid in the forming cavity and keeping for a period of time to cool and form the copper liquid in the forming cavity and taking out the copper liquid to obtain an injection-molded heat-radiating cylinder; s2, cutting and slotting: cutting and slotting the surface of the heat dissipation cylinder after injection molding in the step S1; through the sequentially finished processing flows, the production quality of the heat dissipation device can be effectively improved, burrs on the surface of the formed heat dissipation device are reduced, particularly, the effective removal rate of burrs on the edge of the grooved heat dissipation blade can reach more than ninety percent, the whole-process processing is realized through the rapid reversing of the steering assembly without manual operation, the production and processing safety is improved, and the processing efficiency of the heat dissipation device is improved.

Description

Installation and manufacturing process of intelligent wireless communication equipment device

Technical Field

The invention relates to the technical field of intelligent wireless communication equipment production, in particular to an installation and manufacturing process of an intelligent wireless communication equipment device.

Background

The communication equipment, ICD for short, is used for wired communication equipment and wireless communication equipment in industrial control environment, and the wireless communication equipment mainly comprises electronic equipment such as a wireless AP, a wireless bridge, a wireless network card, a wireless lightning arrester, a wireless camera, an antenna, a mobile phone, a computer and the like.

When the inside of any wireless communication equipment works, components can generate heat, so that electronic components need to be radiated by using a radiating device, common radiating devices comprise a heat conduction pipe, a radiating fan and a radiating cylinder specially designed according to a specific device, the traditional radiating cylinder is a copper device with a cylindrical structure, after the heat of the components is absorbed by the radiating cylinder, the radiating cylinder generates heat, the heat is difficult to diffuse out quickly, the temperature of the components in the wireless communication equipment is easy to rise again, in order to improve the radiating effect, the conventional radiating cylinder is provided with a plurality of radiating fins distributed at equal intervals on the outer circumferential surface, the quick diffusing speed of the temperature is increased through gaps inside the radiating fins, and for the manufacturing of the radiating fins on the outer circumferential surface of the radiating cylinder, the conventional technology is cutting processing by using a cutting or gear hobbing mode, the manufacturing of the radiating fins is realized, and the technical problems of low processing efficiency, non-uniform structural characteristics of the radiating fins and the like exist in the processing mode.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide an installation and manufacturing process of an intelligent wireless communication device, which solves the technical problems that in the prior art, in order to improve the heat dissipation effect, a plurality of heat dissipation fins distributed at equal intervals are often arranged on the outer circular surface of a heat dissipation cylinder, the rapid diffusion speed of temperature is increased through gaps inside the heat dissipation fins, and for the manufacturing of the heat dissipation fins on the outer circular surface of the heat dissipation cylinder, the cutting processing is often carried out in the prior art by utilizing a cutting or gear hobbing mode to realize the manufacturing of the heat dissipation fins, and the processing mode has the technical problems of low processing efficiency, non-uniform structural characteristics of the heat dissipation fins and the like.

The technical problem to be solved by the invention is realized by adopting the following technical scheme: an intelligent wireless communication equipment device installation manufacturing process comprises the following steps:

s1, injection molding: putting the mixed copper liquid into a forming cavity, extruding the copper liquid in the forming cavity and keeping for a period of time to cool and form the copper liquid in the forming cavity and taking out the copper liquid to obtain an injection-molded heat-radiating cylinder;

s2, cutting and slotting: cutting and slotting the surface of the heat radiating cylinder subjected to injection molding in the step S1, enabling a plurality of equally spaced cutting blades to be close to the heat radiating cylinder, cutting and slotting the outer circular surface of the heat radiating cylinder, fixing the cutting blades in position in the cutting process, and enabling the cutting blades to cut the outer circular surface of the heat radiating cylinder for a circle by rotating the heat radiating cylinder;

s3, polishing the groove wall: in the step S2, in the process of cutting the external circular surface of the heat dissipation cylinder by the cutting blade, polishing the groove wall after cutting and slotting to ensure that the surface of the groove wall after cutting and slotting the external circular surface of the heat dissipation cylinder is smooth and flat;

s4, deburring: deburring the outer circular surface of the heat dissipation cylinder polished in the step S3, rotating the second polishing rollers in the slots of the two adjacent partition plates on the outer circular surface of the heat dissipation cylinder at a high speed through a plurality of second polishing rollers, and polishing the surfaces on the two sides of the partition plates at a high speed;

s5, reshaping reason: shaping the outer circular surface of the heat dissipation cylinder subjected to the deburring in the step S4, extending shaping sheets between two adjacent partition plates, and pressing and leveling each partition plate with bending deformation on the outer circular surface of the heat dissipation cylinder through expansion of two sides of the two adjacent shaping sheets to enable each cooling fin on the outer circular surface of the heat dissipation cylinder to be upright, flat and equidistant;

s6, taking out the heat dissipation cylinder: taking out the heat dissipation cylinder shaped in the step S5, repeating the steps S1-S5 after taking out the heat dissipation cylinder, and circularly processing a plurality of heat dissipation cylinders;

the mounting and manufacturing process of the intelligent wireless communication device in the steps S1-S6 is mainly completed by matching an intelligent wireless communication device mounting and manufacturing device, wherein the intelligent wireless communication device mounting and manufacturing device comprises a steering component, an injection molding workbench, a cutting and forming workbench, a deburring workbench and a shaping workbench, the injection molding workbench, the cutting and forming workbench, the deburring workbench and the shaping workbench are arranged in a square shape, the steering component is arranged in the middle of the square shape, and the device is sequentially subjected to injection molding, cutting and forming, deburring treatment and fin shaping through the steering component;

the injection molding workbench comprises a mold workbench, the top surface of the mold workbench is a horizontal plane, a bottom mold is fixedly installed on the top surface of the mold workbench, a molding cavity with a circular hole structure is formed in the top surface of the bottom mold, and a first boss with a circular ring structure is arranged in the middle of the bottom surface of the molding cavity;

the bottom end of the die workbench is fixedly provided with a first supporting leg which is erected at the bottom end of the die workbench, the steering assembly comprises a rotating shaft which is erected on the ground, the rotating shaft is rotatably connected to the rear side of the die workbench, the bottom end of the rotating shaft is rotatably connected to the ground, the outer circular surface of the rotating shaft is rotatably connected with a lifting lug plate through a bearing, the lifting lug plate is fixed on a fifth electric push rod, and the bottom end of the fifth electric push rod is fixed on the ground;

a grooved pulley is fixedly installed on the outer circular surface of the rotating shaft, a fifth motor is fixedly installed at the bottom end of the mold workbench close to the outer circular surface of the rotating shaft, an output shaft extends upwards from the fifth motor, a thumb wheel is fixedly installed at the top end of the output shaft of the fifth motor, and the thumb wheel is intermittently meshed with the grooved pulley;

the top of axis of rotation has set firmly the rolling disc, the excircle face of rolling disc has set firmly four support arms along the circumference equidistant, each the top fixed mounting of support arm has centre gripping seal assembly.

As a preferred technical scheme of the invention, the clamping and sealing assembly comprises a push rod base fixedly arranged at the top end of the supporting arm, a second electric push rod is fixedly arranged at the top end of the push rod base, a lifting sealing plate capable of lifting up and down is arranged below the push rod base, and a second push rod extends downwards from each second electric push rod;

the lifting sealing plate is fixed at the bottom end of the second push rod below the push rod base, a downward vertical fixed shaft rod is fixedly arranged in the middle of the bottom end of the push rod base, a through abdicating hole is formed in the middle of the lifting sealing plate, the bottom end of the fixed shaft rod penetrates through the abdicating hole and extends out to the bottom end of the lifting sealing plate, and a second boss is rotatably connected to the bottom end of the fixed shaft rod extending out of the bottom end of the lifting sealing plate;

the bottom face of lifting seal plate sets firmly a plurality of and erects in the shaping baffle of lifting seal plate bottom, a plurality of shaping baffle is at lifting seal plate bottom along stepping down the hole axis and according to the equidistant distribution of circumference.

As a preferred technical scheme of the invention, the second boss comprises an inner clamping block, a second abdicating groove, a second tension spring, a second material returning groove, a second walking roller and a second cone frustum, the second boss is of a cylindrical structure, the outer circular surface of the second boss is provided with a plurality of square hole-shaped second abdicating grooves at equal intervals according to the circumference, each second abdicating groove is connected with an inner clamping block in a sliding manner, the outer circular surface of each inner clamping block is equal in height to the outer circular surface of the second boss, and each inner clamping block is pulled in the second abdicating groove by the tension spring;

a second material returning groove with a circular hole structure is formed in the middle of the second boss, a straight rod is fixedly arranged on the inner clamping block which is connected in each second yielding groove in a sliding mode, the straight rod extends into the second material returning groove, and the top end of each straight rod extending into the second material returning groove is rotatably connected with a second walking roller;

the top fixed mounting of push rod base has first electric putter, first electric putter stretches out downwards has the lift axostylus axostyle, the inside round hole that link up of seting up of fixed axostylus axostyle, the round hole that the lift axostylus axostyle bottom passed fixed axostylus axostyle stretches into in second moves back the silo, stretches into in second moves back the silo the lift axostylus axostyle bottom sets firmly the second circular cone platform of circular cone structure, each second walking gyro wheel all with second circular cone platform surface rolling contact.

As a preferred technical scheme of the invention, the bottom end of the lifting sealing plate is fixedly provided with a sealing ring, the sealing ring is a rubber ring, and the diameter of the sealing ring is larger than that of the abdicating hole.

As a preferred technical scheme of the invention, the cutting forming workbench comprises a second servo motor, a second cutting blade, a second rotating shaft rod, a cutting blade support, a third electric push rod, a second workbench, a first motor, a second supporting leg and a third boss, wherein the top surface of the second workbench is arranged in a horizontal plane, the bottom end of the second workbench is fixedly provided with the second supporting leg which is vertically arranged at the bottom end of the second workbench, the top end of the second workbench is rotatably connected with the third boss, the bottom end of the third boss is fixedly provided with the first motor, and the third boss is driven to rotate by the first motor;

it is close to peripheral that the third boss is peripheral second workstation top sliding connection has the cutting piece support, the cutting piece support sets up to the U-shaped frame, the middle part of cutting piece support is rotated and is connected with the second rotation axostylus axostyle parallel with third boss axis, equidistant fixed mounting has a plurality of second cutting piece in second rotation axostylus axostyle middle part, the top fixed mounting of cutting piece support has second servo motor, second servo motor drive second rotates the axostylus axostyle and rotates, the outside of cutting piece support is provided with third electric putter and promotes, third electric putter fixed mounting is on second workstation top.

As a preferred technical scheme of the present invention, the second cutting blade is configured to be a disc structure, two ends of an outer circumferential surface of the second cutting blade are symmetrically provided with bevel edges, the outer circumferential surface of the second cutting blade forms a sharp cutting edge through the two bevel edges, two end surfaces of the second cutting blade are fixedly provided with a plurality of polishing felts at equal intervals, and each polishing felt is configured to be a rectangular block structure formed by coiling steel wire strips.

As a preferred technical scheme of the invention, the deburring workbench comprises a fifth boss, a second grinding roller, a third workbench, second ribs, a first lifting sleeve, a fourth electric push rod, third support legs and slideways, the top surface of the third workbench is a horizontal plane, the top end of the third workbench is rotatably connected with the fifth boss of a cylindrical structure, a plurality of slideways penetrating through the bottom end of the third workbench are arranged on the outer circumferential surface of the fifth boss at equal intervals, the plurality of slideways are distributed on the outer circumferential surface of the fifth boss at equal intervals according to the circumference, and each slideway corresponds to a radiating fin gap on the outer circumferential surface of the formed radiating cylinder.

A second grinding roller which is upright on the top surface of a third workbench is connected in each slide in a sliding manner, the bottom end of each second grinding roller penetrates through the slide and extends out to the bottom end of the third workbench, the bottom end of the second grinding roller which extends out to the bottom end of the third workbench is rotatably connected with a rotating shaft hinged support, the bottom end of the third workbench is fixedly provided with a central shaft which is upright on the bottom end of the third workbench, the outer circular surface of the central shaft is connected with a first lifting sleeve in a sliding manner, second ribs with the number corresponding to that of the second grinding rollers are hinged on the outer circular surface of the first lifting sleeve at equal intervals, and the top end of each second rib is hinged on the corresponding rotating shaft hinged support;

a fourth electric push rod is fixedly installed at the bottom end of the central shaft, and the first lifting sleeve is pushed to lift through the fourth electric push rod;

and the second grinding rollers extending towards the bottom end of the third working table are driven to rotate by a transmission belt.

As a preferred technical scheme of the present invention, a workbench rotating shaft is fixedly disposed at the bottom end of the fifth boss rotatably connected to the top end of the third workbench, the workbench rotating shaft extends out of the bottom of the third workbench, a rotating shaft ear plate is fixedly disposed on the outer circumferential surface of the workbench rotating shaft, a second motor is fixedly disposed on one side of the rotating shaft ear plate, a crank is fixedly disposed at the top end of an output shaft of the second motor, a tension spring fixing seat is fixedly disposed on the other side of the rotating shaft ear plate, first tension springs are symmetrically disposed on two sides of the rotating shaft ear plate, the first tension spring on one side is fixed on the tension spring fixing seat, a cross frame is fixed at the top end of the first tension spring on the other side, and the cross frame is slidably connected with the crank.

According to a preferable technical scheme of the invention, a plurality of round rod-structured polishing hair rods are fixedly arranged on the outer circumferential surface of each second polishing roller at equal intervals, the polishing hair rods are made of soft plastic materials, and the polishing hair rods are in a drooping state when the second polishing rollers do not rotate.

As a preferred technical scheme of the invention, the shaping workbench comprises a fourth boss, shaping sheets, a fourth workbench, a fourth crank, a fourth motor, a fourth tension spring, a second rotating shaft ear plate, a fourth supporting leg, a steering slideway, a shaping sheet rotating ring, a second tension spring fixing seat, a second tension spring and a fourth cross frame, wherein the top surface of the fourth workbench is a horizontal plane, the middle part of the top surface of the fourth workbench is rotatably connected with the fourth boss, a plurality of upright shaping sheets are arranged on the outer circular surface of the fourth boss, the shaping sheets are arranged on the outer circular surface of the fourth boss at equal intervals according to the circumference, each shaping sheet is set to be a square sheet, and air bag bags are arranged on two sides of each shaping sheet;

the top surface of the fourth workbench is provided with steering slideways with the number corresponding to the number of the shaping sheets at equal intervals, each steering slideway is of an arc-shaped hole structure, each steering slideway is vertically intersected with each corresponding shaping sheet, the bottom end of each shaping sheet is provided with a shaft rod embedded into the steering slideway, the bottom end of the shaft rod embedded into the steering slideway extends to the bottom end of the fourth workbench, the bottom end of each shaft rod extending out of the bottom end of the fourth workbench is fixed on a shaping sheet rotating ring, and the outer circular surface of the shaping sheet rotating ring is fixedly provided with a second rotating shaft lug plate;

one of them side fixed mounting of second pivot otic placode has the fourth motor, the output shaft top fixed mounting of fourth motor has the fourth crank, the opposite side fixed mounting of second pivot otic placode has second extension spring fixing base, the bilateral symmetry of second pivot otic placode is provided with the fourth extension spring, one of them side on the fourth extension spring is fixed in second extension spring fixing base, the opposite side fourth extension spring top is fixed with the fourth crossbearer, the fourth crossbearer with fourth crank sliding connection.

Compared with the prior art, the invention at least comprises the following beneficial effects:

firstly, the invention arranges an injection molding working table, a cutting molding working table, a deburring working table and a shaping working table in a square shape, a steering component is arranged at the middle position of the square shape, copper liquid is poured into a molding cavity and is pressed in the molding cavity through a clamping and sealing component, so that the copper liquid is cooled and molded in the molding cavity according to the outline of the molding cavity, a heat dissipation device cooled and molded in the molding cavity is taken out through the clamping and sealing component, the heat dissipation device is simply rotated through the steering component, the heat dissipation device is rotated to any one working table through the steering component and is stopped for a period of time, the outer circular surface of the heat dissipation device is processed through the corresponding working table, so that each heat dissipation device sequentially completes the processing flows of injection molding, cutting molding, deburring treatment, fin shaping and the like, and the like through the sequentially completed processing flows, the production quality of the heat dissipation device can be effectively improved, the surface burrs of the formed heat dissipation device are reduced, particularly, the effective removal rate of the burrs on the edge of the heat dissipation blade after being grooved can reach more than ninety percent, the whole process is realized by quickly reversing the steering assembly without manual operation, the production and processing safety is improved, and the processing efficiency of the heat dissipation device is improved.

And secondly, four supporting arms with the same number as the working tables are arranged on the outer circular surface of the rotating disc at equal intervals, the rotating disc is pushed by a fifth electric push rod before rotating through the rotating matching of a shifting wheel and a sheave mechanism, so that the rotating disc is lifted upwards and then rotates, when the rotating disc rotates on another working table, each rotating disc is rotated by a certain angle and stays for a period of time, and the stay period of time controls the rotating disc to fall downwards through the fifth electric push rod.

Thirdly, the top surface of the injection molding workbench is provided with a molding cavity, so that copper liquid can be conveniently poured into the molding cavity manually, after the pouring is finished, the top end of the molding cavity is pressed and sealed tightly through a lifting sealing plate, the bottom end of the lifting sealing plate is fixedly provided with a molding partition plate, the outer circular surface of the heat dissipation device forms a heat dissipation blade in the molding cavity through the molding partition plate, when the heat dissipation device falls off after being cooled and molded in the molding cavity, the molded heat dissipation device is clamped through an inner clamping block protruding outwards, the clamping force is provided for the formed heat dissipation device to fall off from the molding cavity by matching with the fact that the partition plate is embedded in the heat dissipation device and does not fall off, the molded heat dissipation device is lifted upwards through a rotating disc, the molded heat dissipation device is pulled out from the molding cavity, the primary separation of the heat dissipation device is realized, the demolding speed of the heat dissipation device from the molding cavity is favorably improved, and the heat dissipation device is prevented from being clamped in the molding cavity, the efficiency of the drawing of patterns is improved, after the drawing of patterns, rethread lift closing plate upwards rises and drives the shaping baffle and extract from the heat dissipation device on the radiator, make the heat dissipation device after shaping baffle and shaping carry out the second grade separation, the heat dissipation device after the separation need not to dismantle, the direct interior grip block through the second boss continues the chucking and realizes shifting, this operation makes the heat dissipation device after the shaping need not artifical manual full-automatic and disassembles, and the heat dissipation device after the dismantlement need not to carry out the clamping once more, continue to use at next process, the efficiency of production and processing has been improved, the work load of work has been alleviateed, the production safety has been improved.

Fourthly, the invention is rotationally connected at the bottom end of the fixed shaft lever through the second lug bosses, so that the clamped heat dissipation device can also rotate at the bottom end of the fixed shaft lever, the lifting sealing plate in the prior art is lifted upwards, the forming partition plate is lifted upwards so as to cut a groove on the outer circular surface of the formed heat dissipation device and avoid movement interference, the height of the rotating disc is lowered, the bottom of the formed heat dissipation device is placed on a third lug boss on the top surface of the cutting forming workbench, the high-speed rotation of the third lug boss is utilized to drive the heat dissipation device to rotate at a high speed, the heat dissipation device is matched with a plurality of second cutting blades at the side for high-speed rotary cutting, the third electric push rod is pushed forwards to cut a plurality of second cutting blades into the outer circular surface of the heat dissipation device, the outer circular surface of the heat dissipation device is subjected to equidistant grooving, and the inner wall after the grooving is polished through two end surfaces of each second cutting blade in the grooving process, so that the surface of the inner wall of the grooved groove is smooth.

Fifthly, the heat dissipation device after the cutting of the top surface of the cutting and forming workbench is clamped by the second boss and continuously transferred to the deburring workbench, the height of the rotating disc is reduced, the bottom of the formed heat dissipation device is placed on the fifth boss on the top surface of the deburring workbench, the second grinding rollers which are distributed at equal intervals on the outer circular surface of the fifth boss move to the space between two adjacent heat dissipation fins on the outer circular surface of the heat dissipation device, each second grinding roller rotates at high speed, the drooping grinding burr rods can be thrown in the high-speed rotation process of the second grinding rollers, and the edge burrs after the slotting between the two adjacent heat dissipation fins are thrown by the grinding burr rods, so that the burrs fall off from the edges of the slotting.

Sixth, the height of the rotating disc is reduced, the bottom of the formed heat dissipation device is placed on a fifth boss on the top surface of the deburring workbench, then second grinding rollers distributed on the outer circular surface of the fifth boss at equal intervals rotate at a high speed and gradually approach to gaps between two adjacent heat dissipation fins of the heat dissipation device, in the approaching process, the fifth boss rotates in a reciprocating mode at a certain angle, the gaps between the heat dissipation fins on the outer circular surface of the heat dissipation device swing in a reciprocating mode, the second grinding rollers move to the gaps between the two adjacent heat dissipation fins conveniently, in the reciprocating rotating process of the fifth boss at a certain angle, the fifth boss is elastically pulled through first tension springs on two sides of a rotating shaft lug plate, the fifth boss also has an elastic yielding function in the rotating process, and therefore the second grinding rollers can conveniently swing in a reciprocating mode through the heat dissipation fins before entering the heat dissipation fins on the outer circular surface of the heat dissipation device, and each second grinding roller can search the most suitable gap between the two adjacent heat dissipation fins in a self-adaptive mode Go into and polish, after the second roller of polishing not getting into the fin of the outer disc of heat abstractor, the elasticity through the pivot otic placode is stepped down, makes the fin block through the second roller of polishing and can not carry out the horizontal hunting, and then can guarantee the normal work of polishing.

Seventhly, the heat dissipation device which is clamped on the top surface of the deburring worktable through the second boss is continuously transferred to the shaping worktable, the bottom of the formed heat dissipation device is placed on the fourth boss on the top surface of the shaping workbench through the descending of the height of the rotating disc, when the heat dissipation device is placed, the shaping sheets rotate back and forth along the outer circular surface of the fourth boss, so that the shaping sheets can accurately extend between two corresponding adjacent radiating fins and are inflated by the air bags on the two sides of each shaping sheet after being scattered to expand, each radiating fin is extruded after the air bags on the two adjacent shaping fins are expanded, the radiating fins which are bent obliquely are extruded and flattened, the shaping treatment of the radiating fins on the outer circular surface of the radiating device is improved, the structural attractiveness of the formed radiating device is improved, the structural characteristic uniformity of each radiating fin is improved, and the quality of the formed radiating device is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of an intelligent wireless communication device installation and manufacturing process of the present invention;

FIG. 2 is a schematic diagram of a top view of an apparatus for mounting and manufacturing an intelligent wireless communication device according to the present invention;

FIG. 3 is a front view structural schematic diagram of the new energy automobile battery case forming preparation device of the invention;

FIG. 4 is a left side view structural schematic diagram of the new energy automobile battery case forming preparation device of the invention;

FIG. 5 is a cross-sectional front view of the clamping seal assembly of the present invention;

FIG. 6 is a schematic view of a second cutting blade according to the present invention;

FIG. 7 is a schematic structural view of a thumb wheel and a sheave of the present invention;

FIG. 8 is a schematic structural view of the formed partition plate and the second boss on the bottom surface of the lifting sealing plate according to the present invention;

FIG. 9 is a schematic top view of a second grinding roll of the present invention grinding a gap in the top surface of a third platen against a forming partition;

FIG. 10 is a schematic view of the drive connection of a second grinding roll of the present invention to the bottom surface of a third platen;

FIG. 11 is a schematic left view of the belt of the present invention in a staggered configuration in the shape of an "∞" on a second grinding roll;

FIG. 12 is a schematic top view of a shaping sheet of the present invention shaping a shaped spacer on the top surface of a fourth platen;

FIG. 13 is a schematic view of a bottom end driving structure of a fourth worktable according to the present invention;

FIG. 14 is an enlarged fragmentary view at C of FIG. 12 in accordance with the teachings of the present invention;

FIG. 15 is an enlarged fragmentary view at D of FIG. 9 in accordance with the teachings of the present invention;

FIG. 16 is a schematic view of a heat dissipating cylinder manufactured and molded according to the present invention;

in the figure: 1. a steering assembly; 101. rotating the disc; 102. a support arm; 103. clamping the seal assembly; 104. a rotating shaft; 105. lifting the sealing plate; 106. a first electric push rod; 107. a second electric push rod; 108. forming the partition board; 109. a second boss; 1091. an inner clamping block; 1092. a second abdicating groove; 1093. a second tension spring; 1094. a second material returning groove; 1095. a second traveling roller; 1096. a second truncated cone; 110. a push rod base; 111. fixing the shaft lever; 112. a second push rod; 113. a lifting shaft lever; 114. a hole of abdication; 115. a seal ring; 116. a thumb wheel; 117. a fifth motor; 118. a lifting lug plate; 119. a fifth electric push rod; 120. a grooved wheel; 2. an injection molding workbench; 201. a bottom mold; 202. a molding cavity; 203. a first boss; 204. a mold table; 205. a first support leg; 3. cutting and forming the workbench; 301. a second servo motor; 302. a second cutting blade; 3021. a bevel edge; 3022. polishing the felt; 303. a second rotating shaft; 304. cutting the slice bracket; 305. a third electric push rod; 306. a second table; 307. a first motor; 308. a second support leg; 309. a third boss; 4. a deburring workbench; 401. a third boss; 402. a second grinding roller; 4021. polishing the hair pole; 403. a third working table; 405. a second motor; 406. a second rib; 407. a first lifting sleeve; 408. a fourth electric push rod; 409. a third support leg; 410. a slideway; 411. a rotating shaft hinged support; 412. a first primary pulley; 413. a second slideway; 414. a second spring; 415. a second tensioning wheel; 416. a worktable rotating shaft; 417. a rotating shaft ear plate; 418. a tension spring fixing seat; 419. a first tension spring; 420. a transmission belt; 421. a cross frame; 422. a crank; 423. a central shaft; 5. a shaping workbench; 501. a fourth boss; 502. shaping sheets; 5021. an air bag; 504. a fourth table; 505. a fourth crank; 506. a fourth motor; 507. a fourth tension spring; 508. a second shaft lug; 509. a fourth support leg; 510. a steering slide way; 511. a shaping sheet rotating ring; 512. a second tension spring fixing seat; 513. a second tension spring; 514. and a fourth cross frame.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

Please refer to fig. 1-16, which are schematic structural diagrams illustrating an overall structure of an installation and manufacturing process of an intelligent wireless communication device;

an intelligent wireless communication equipment device installation manufacturing process comprises the following steps:

the mounting and manufacturing process of the intelligent wireless communication equipment device in the steps S1-S6 is mainly completed by matching an intelligent wireless communication equipment device mounting and manufacturing device, the intelligent wireless communication equipment device mounting and manufacturing device comprises a steering component 1, an injection molding workbench 2, a cutting and forming workbench 3, a deburring workbench 4 and a shaping workbench 5, the injection molding workbench 2, the cutting and forming workbench 3, the deburring workbench 4 and the shaping workbench 5 are arranged in a square shape, the steering component 1 is arranged in the middle of the square shape, and the device is sequentially subjected to injection molding, cutting and forming, deburring treatment and partition board shaping through the steering component 1;

the injection molding workbench 2 comprises a mold workbench 204, the top surface of the mold workbench 204 is a horizontal plane, a bottom mold 201 is fixedly installed on the top surface of the mold workbench 204, a molding cavity 203 with a circular hole structure is formed in the top surface of the bottom mold 201, and a first boss 203 with a circular ring structure is arranged in the middle of the bottom surface of the molding cavity 203;

the bottom end of the mold workbench 204 is fixedly provided with a first supporting leg 205 which is vertically arranged at the bottom end of the mold workbench 204, the steering assembly 1 comprises a rotating shaft 104 which is vertically arranged on the ground, the rotating shaft 104 is rotatably connected to the rear side of the mold workbench 204, the bottom end of the rotating shaft 104 is rotatably connected to the ground, the outer circular surface of the rotating shaft 104 is rotatably connected with a lifting lug plate 118 through a bearing, the lifting lug plate 118 is fixed on a fifth electric push rod 119, and the bottom end of the fifth electric push rod 119 is fixed on the ground;

a grooved pulley 120 is fixedly arranged on the outer circular surface of the rotating shaft 104, a fifth motor 117 is fixedly arranged at the bottom end of the mold workbench 204 close to the outer circular surface of the rotating shaft 104, an output shaft extends upwards from the fifth motor 117, a thumb wheel 116 is fixedly arranged at the top end of the output shaft of the fifth motor 117, and the thumb wheel 116 is intermittently meshed with the grooved pulley 120;

the top end of the rotating shaft 104 is fixedly provided with a rotating disc 101, the outer circular surface of the rotating disc 101 is fixedly provided with four supporting arms 102 at equal intervals along the circumference, and the top end of each supporting arm 102 is fixedly provided with a clamping sealing component 103.

Specifically, the injection molding workbench 2, the cutting molding workbench 3, the deburring workbench 4 and the shaping workbench 5 are arranged in a square shape, the steering assembly is arranged in the middle of the square shape, the copper liquid is poured into the molding cavity 202 and is pressed in the molding cavity 202 through the clamping and sealing assembly 103, so that the copper liquid is cooled and molded in the molding cavity 202 according to the outline of the molding cavity 202, the heat dissipation device cooled and molded in the molding cavity 202 is taken out through the clamping and sealing assembly 103, the heat dissipation device is simply rotated through the steering assembly, the heat dissipation device is rotated to any workbench through the steering assembly and is stopped for a period of time, the outer circular surface of the heat dissipation device is processed through the corresponding workbench, and each heat dissipation device sequentially completes the processing procedures of injection molding, cutting molding, deburring, heat dissipation plate shaping and the like, through this machining process who accomplishes in proper order, can improve the production quality of heat dissipation device effectively, reduce the heat dissipation device surface burr after the shaping, especially can effectively the clearance reach more than ninety percent to the cooling fin edge burr after the fluting, realize through turning to the quick switching-over of subassembly that whole processing need not manual operation, improve the production and processing security, improve heat dissipation device machining efficiency.

Specifically, four supporting arms 102 with the same number as the number of the working tables are arranged on the outer circumferential surface of the rotating disc 101 at equal intervals, the rotating disc 101 is in rotating fit with the geneva gear 120 through the thumb wheel 116, the rotating disc 101 is pushed by the fifth electric push rod 119 before rotating, so that the rotating disc 101 is lifted upwards and then rotates, when the other working table rotates, the rotating discs 101 are rotated by a certain angle and stay for a period of time, and the stay period of time controls the rotating discs 101 to descend downwards through the fifth electric push rod 119.

The clamping and sealing assembly 103 comprises a push rod base 110 fixedly arranged at the top end of the supporting arm 102, second electric push rods 107 are fixedly arranged at the top end of the push rod base 110, a lifting sealing plate 105 capable of lifting up and down is arranged below the push rod base 110, and a second push rod 112 extends downwards from each second electric push rod 107;

the lifting sealing plate 105 is fixed at the bottom end of a second push rod 112 below the push rod base 110, a downward vertical fixed shaft rod 111 is fixedly arranged in the middle of the bottom end of the push rod base 110, a through abdicating hole 114 is formed in the middle of the lifting sealing plate 105, the bottom end of the fixed shaft rod 111 passes through the abdicating hole 114 and extends out to the bottom end of the lifting sealing plate 105, and the bottom end of the fixed shaft rod 111 extending out of the bottom end of the lifting sealing plate 105 is rotatably connected with a second boss 109;

the bottom end face of the lifting sealing plate 105 is fixedly provided with a plurality of forming partition plates 108 standing upright at the bottom end of the lifting sealing plate 105, and the plurality of forming partition plates 108 are distributed at equal intervals along the axis of the abdicating hole 114 at the bottom end of the lifting sealing plate 105.

Specifically, the top surface of the injection molding workbench 2 of the invention is provided with the molding cavity 202, which is convenient for pouring copper liquid into the molding cavity 202 manually, after the pouring is completed, the lifting sealing plate 105 presses downwards to press and seal the top end of the molding cavity 202 tightly, the bottom end of the lifting sealing plate 105 is fixedly provided with the molding partition plate 108, the outer circular surface of the heat dissipation device forms a heat dissipation blade in the molding cavity 202 through the molding partition plate 108, when the heat dissipation device falls off after being cooled and molded in the molding cavity 202, the molded heat dissipation device is clamped through the outward bulge of the inner clamping block 1091, the molding partition plate 108 is embedded in the heat dissipation plate and does not fall off, so that the clamping force is provided for the formed heat dissipation device to fall off from the molding cavity 202, the rotating disc 101 rises upwards to pull out the molded heat dissipation device from the molding cavity 202, the primary separation of the heat dissipation device is realized, and the speed of the heat dissipation device from the molding cavity 202 is improved, avoid radiator block in shaping chamber 202, improve the efficiency of drawing of patterns, after the drawing of patterns, rethread lift closing plate 105 rises to and drives shaping baffle 108 and extract on the radiator from the radiator, make the radiator after shaping baffle 108 and shaping carry out the second grade separation, the radiator after the separation need not to dismantle, directly continue the chucking and realize shifting through interior clamping block 1091 of second boss 109, this operation makes the radiator after the shaping need not artifical manual full-automatic disassembling, and the radiator after the dismantlement need not to carry out the clamping once more, continue to use at next process, the efficiency of production and processing has been improved, the work load of work has been alleviateed, production safety has been improved.

The second boss 109 comprises an inner clamping block 1091, a second receding groove 1092, a second tension spring 1093, a second material returning groove 1094, a second walking roller 1095 and a second truncated cone 1096, the second boss 109 is of a cylindrical structure, the outer circular surface of the second boss 109 is provided with a plurality of square hole-shaped second receding grooves 1092 at equal intervals according to the circumference, each second receding groove 1092 is internally and slidably connected with the inner clamping block 1091, the outer circular surface of each inner clamping block 1091 is equal in height to the outer circular surface of the second boss 109, each inner clamping block 1091 is pulled in the second receding groove 1092 through the tension spring, and after the second truncated cone 1096 moves upwards, the inner clamping block 1091 can automatically rebound into the second receding groove 1092.

A second material returning groove 1094 with a circular hole structure is formed in the middle of the second boss 109, a straight rod is fixedly arranged on an inner clamping block 1091 which is slidably connected in each second receding groove 1092, the straight rod extends into the second material returning groove 1094, and a second traveling roller 1095 is rotatably connected to the top end of each straight rod extending into the second material returning groove 1094;

top fixed mounting of push rod base 110 has first electric putter 106, first electric putter 106 stretches out downwards has lift axostylus axostyle 113, the inside round hole that link up of seting up of fixed axostylus axostyle 111, the round hole that fixed axostylus axostyle 111 was passed to lift axostylus axostyle 113 bottom stretches into in second material returned groove 1094, the 113 bottom of the lift axostylus axostyle that stretches into in second material returned groove 1094 sets firmly the second circular cone platform 1096 of conical structure, each second walking gyro wheel 1095 all with second circular cone platform 1096 surface rolling contact, grip block 1091 outwards stretches out in being convenient for promote, through stretching out of interior grip block 1091 in order to improve the interior centre gripping fastness of second boss 109 to the heat dissipation device.

The bottom end of the lifting sealing plate 105 is fixedly provided with a sealing ring 115, the sealing ring 115 is a rubber ring, and the diameter of the sealing ring 115 is larger than that of the abdicating hole 114.

When the lifting sealing plate 105 is pressed on the top surface of the molding cavity 202 by the sealing ring 115, the lifting sealing plate 105 is in sealing fit with the second boss 109 to prevent copper liquid from seeping out, and after the lifting sealing plate 105 rises upwards, the sealing ring 115 is separated from the second boss 109, so that the rotation of the second boss 109 on the top surface of the fixed shaft rod 111 is not influenced.

The cutting and forming workbench 3 comprises a second servo motor 301, a second cutting blade 302, a second rotating shaft 303, a cutting blade support 304, a third electric push rod 305, a second workbench 306, a first motor 307, a second supporting leg 308 and a third boss 309, the top surface of the second workbench 306 is set to be a horizontal plane, the bottom end of the second workbench 306 is fixedly provided with the second supporting leg 308 standing at the bottom end of the second workbench 306, the top end of the second workbench 306 is rotatably connected with the third boss 309, the bottom end of the third boss 309 is fixedly provided with the first motor 307, and the third boss 309 is driven to rotate by the first motor 307;

close to the peripheral second workstation 306 top sliding connection of third boss 309 has cutting piece support 304, cutting piece support 304 sets up to the U-shaped frame, cutting piece support 304's middle part is rotated and is connected with the second rotation axostylus axostyle 303 parallel with third boss 309 axis, equidistant fixed mounting has a plurality of second cutting piece 302 in second rotation axostylus axostyle 303 middle part, cutting piece support 304's top fixed mounting has second servo motor 301, second servo motor 301 drives second rotation axostylus axostyle 303 and rotates, cutting piece support 304's the outside is provided with third electric putter 305 and promotes, third electric putter 305 fixed mounting is on second workstation 306 top.

Specifically, the clamped heat dissipation device is rotatably connected to the bottom end of the fixed shaft 111 through the second boss 109, the clamped heat dissipation device is also rotatably connected to the bottom end of the fixed shaft 111, the former lifting sealing plate 105 is lifted upwards, the forming partition 108 is lifted upwards, so that the outer circumferential surface of the formed heat dissipation device is cut to avoid movement interference, the bottom of the formed heat dissipation device is placed on the third boss on the top surface of the cutting and forming workbench 3 through the descending of the height of the rotating disc 101, the heat dissipation device is driven to rotate at high speed through the high-speed rotation of the third boss, the second cutting pieces 302 beside the heat dissipation device are matched to perform high-speed rotary cutting, the second cutting pieces 302 are pushed forwards through the third electric push rod to cut into the outer circumferential surface of the heat dissipation device to perform equidistant slotting on the outer circumferential surface of the heat dissipation device, and the inner wall of the slotted heat dissipation device is polished through the polishing felts 3022 on the two end surfaces of each second cutting piece 302 in the slotting process, so that the surface of the inner wall of the grooved groove is smooth.

Specifically, the heat dissipation device after being cut on the top surface of the cutting and forming workbench 3 is clamped by the second boss 109 and continuously transferred to the deburring workbench 4, the height of the rotating disc 101 is lowered, the bottom of the formed heat dissipation device is placed on the fifth boss on the top surface of the deburring workbench 4, the second grinding rollers 402 which are distributed at equal intervals on the outer circular surface of the fifth boss move towards two adjacent heat dissipation fins on the outer circular surface of the heat dissipation device, each second grinding roller 402 rotates at a high speed, in the process of high-speed rotation of the second grinding rollers 402, the drooping grinding burr bars 4021 can be swung, and the edge burrs after slotting between the two adjacent heat dissipation fins are extracted and thrown by the grinding burr bars 4021, so that the burrs fall off from the edges of the slotting.

Second cutting piece 302 sets up to the disc structure, the outer disc both ends symmetry of second cutting piece 302 is provided with hypotenuse 3021, make the outer disc of second cutting piece 302 form sharp cutting edge through two hypotenuses 3021, improve cutting efficiency and cutting speed, the equidistant felt 3022 of having set firmly a plurality of to polish in the both ends face of second cutting piece 302, each felt 3022 of polishing all sets up the rectangular structure of rolling into by the wire rod dish, form a fluffy wire rod through rolling, so that scutching the inner wall between two adjacent fin, the speed of deburring is improved.

The deburring workbench 4 comprises a fifth boss 401, a second grinding roller 402, a third workbench 403, second ribs 406, a first lifting sleeve 407, a fourth electric push rod 408, third supporting legs 409 and slideways 410, the top surface of the third workbench 403 is set to be a horizontal plane, the fifth boss 401 of a cylinder structure is rotatably connected to the top end of the third workbench 403, a plurality of slideways 410 penetrating through the bottom end of the third workbench 403 are arranged on the outer circular surface of the fifth boss 401 at equal intervals, the plurality of slideways 410 are distributed on the outer circular surface of the fifth boss 401 at equal intervals according to the circumference, and each slideway 410 corresponds to a radiating fin gap of the outer circular surface of the formed radiating cylinder.

A second grinding roller 402 erected on the top surface of the third workbench 403 is connected in each slide 410 in a sliding manner, the bottom end of each second grinding roller 402 penetrates through the slide 410 and extends towards the bottom end of the third workbench 403, the bottom end of the second grinding roller 402 extending towards the bottom end of the third workbench 403 is rotatably connected with a rotating shaft hinge support 411, the bottom end of the third workbench 403 is fixedly provided with a central shaft 423 erected on the bottom end of the third workbench 403, the outer circular surface of the central shaft 423 is connected with a first lifting sleeve 407 in a sliding manner, second ribs 406 with the number corresponding to that of the second grinding rollers 402 are hinged on the outer circular surface of the first lifting sleeve 407 at equal intervals, and the top end of each second rib 406 is hinged on the corresponding rotating shaft hinge support 411;

a fourth electric push rod 408 is fixedly installed at the bottom end of the central shaft 423, and the first lifting sleeve 407 is pushed to lift through the fourth electric push rod 408;

the plurality of second grinding rollers 402 extending toward the bottom end of the third worktable 403 are driven to rotate by a belt 420.

Specifically, the height of the rotating disc 101 is lowered, the bottom of the formed heat dissipation device is placed on a fifth boss 401 on the top surface of the deburring worktable 4, then the second grinding rollers 402 distributed on the outer circular surface of the fifth boss 401 at equal intervals rotate at a high speed and gradually approach to the gaps between two adjacent heat dissipation fins of the heat dissipation device, and in the approaching process, the fifth boss 401 rotates in a reciprocating manner at a certain angle to enable the gaps between the heat dissipation fins on the outer circular surface of the heat dissipation device to swing in a reciprocating manner, so that the second grinding rollers 402 move to the gaps between the two adjacent heat dissipation fins, and in the reciprocating rotation process of the fifth boss at a certain angle, the fifth boss is elastically pulled by first tension springs 419 on two sides of a rotating shaft lug plate 417, so that the fifth boss has an elastic abdicating function in the rotating process, so that the second grinding rollers 402 do not enter the heat dissipation fins on the outer circular surface of the heat dissipation device, through fin reciprocating swing to each second grinding roller 402 self-adaptation is sought the gap entering between the two adjacent fin of the most suitable and is polished, and after second grinding roller 402 did not get into the fin of the outer disc of heat dissipation device, through the elasticity of pivot otic placode 417 abdication, make the fin block through second grinding roller 402 and can not carry out the horizontal hunting, and then can guarantee the normal work of polishing.

A workbench rotating shaft 416 is fixedly arranged at the bottom end of the fifth boss 401 rotatably connected to the top end of the third workbench 403, the workbench rotating shaft 416 extends out of the bottom of the third workbench 403, a rotating shaft ear plate 417 is fixedly arranged on the outer circular surface of the workbench rotating shaft 416, a second motor 405 is fixedly arranged on one side of the rotating shaft ear plate 417, a crank 422 is fixedly arranged at the top end of an output shaft of the second motor 405, a tension spring fixing seat 418 is fixedly arranged on the other side of the rotating shaft ear plate 417, first tension springs 419 are symmetrically arranged on two sides of the rotating shaft ear plate 417, a first tension spring 419 on one side is fixed on the tension spring fixing seat 418, a cross frame 421 is fixed at the top end of the first tension spring 419 on the other side, and the cross frame 421 is slidably connected with the crank 422.

The driving belt 420 is installed in an infinity shape, the infinity-shaped driving belt 420 is sleeved on the outer circumferential surface of each second grinding roller 402 in a left circle, so as to the second grinding roller 402 that distributes according to the circumference equidistant laminating transmission, each is the inboard fixed mounting of the right circle of drive belt 420 of "∞" style of calligraphy has first main belt pulley 412 drive to rotate, first main belt pulley 412 is rotatory through independent motor drive, the inboard of the first main belt pulley 412 that is close to first main belt pulley 412 periphery has seted up a plurality of second slide 413, there is second take-up pulley 415 through sliding connection in each second slide 413, each second take-up pulley 415 meshes the transmission with drive belt 420, second take-up pulley 415 of sliding connection in second slide 413 passes through second spring 414 elastic support, realize the tensioning control to drive belt 420, make and keep the close transmission between drive belt 420 and each second grinding roller 402 all the time.

Wherein, the outer disc of each second grinding roller 402 is equidistant to set firmly the hair pole 4021 of polishing that has a plurality of round bar structure, and the hair pole of polishing is the mild plastic material, and the hair pole 4021 of polishing is the flagging state when the second grinding roller 402 irrotational, and the hair pole of polishing can float for the mild plastic material makes when rotatory to inner wall between two adjacent fin polishes.

The shaping workbench 5 comprises a fourth boss 501, shaping sheets 502, a fourth workbench 504, a fourth crank 505, a fourth motor 506, a fourth tension spring 507, a second rotating shaft lug plate 508, a fourth supporting leg 509, a steering slideway 510, a shaping sheet rotating ring 511, a second tension spring fixing seat 512, a second tension spring 513 and a fourth cross frame 514, the top surface of the fourth workbench 504 is a horizontal plane, the middle part of the top surface of the fourth workbench 504 is rotatably connected with the fourth boss 501, a plurality of upright shaping sheets 502 are arranged on the outer circular surface of the fourth boss 501 at equal intervals according to the circumference, each shaping sheet 502 is a square sheet, and two sides of each shaping sheet 502 are provided with 502bags 1;

the top surface of the fourth workbench 504 is provided with turning slideways 510 at equal intervals, the number of the turning slideways 510 corresponds to that of the shaping sheets 502, each turning slideway 510 is of an arc-shaped hole structure, each turning slideway 510 is vertically intersected with each corresponding shaping sheet 502, the bottom end of each shaping sheet 502 is provided with a shaft rod embedded in each turning slideway 510, the bottom end of the shaft rod embedded in each turning slideway 510 extends to the bottom end of the fourth workbench 504, the bottom end of each shaft rod extending out of the bottom end of the fourth workbench 504 is fixed on a shaping sheet rotating ring 511, and the outer circular surface of each shaping sheet rotating ring 511 is fixedly provided with a second rotating shaft lug plate 508;

a fourth motor 506 is fixedly mounted on one side of the second rotating shaft ear plate 508, a fourth crank 505 is fixedly mounted at the top end of an output shaft of the fourth motor 506, a second tension spring fixing seat 512 is fixedly mounted on the other side of the second rotating shaft ear plate 508, fourth tension springs 507 are symmetrically arranged on two sides of the second rotating shaft ear plate 508, the fourth tension spring 507 on one side is fixed on the second tension spring fixing seat 512, a fourth cross frame 514 is fixed at the top end of the fourth tension spring 507 on the other side, and the fourth cross frame 514 is in sliding connection with the fourth crank 505.

Specifically, the heat radiator after the top surface of the deburring workbench 4 is clamped by the second boss 109 and is continuously transferred to the shaping workbench 5, the height of the rotating disc 101 is reduced, the bottom of the shaped heat radiator is placed on the fourth boss 501 on the top surface of the shaping workbench 5, when the heat radiator is placed, the shaping sheets 502 rotate back and forth along the outer circular surface of the fourth boss 501 through the plurality of shaping sheets 502, so that the shaping sheets 502 can accurately extend between two corresponding adjacent heat radiating fins, the air bags 5021 on two sides of each shaping sheet 502 are inflated to expand after being scattered, each heat radiating fin is extruded after the air bags 5021 on the two adjacent shaping sheets 502 are expanded, the obliquely bent heat radiating fins are extruded and flattened, the shaping treatment of the heat radiating fins on the outer circular surface of the heat radiator is improved, the structural attractiveness of the shaped heat radiator is improved, and the structural characteristics of each heat radiating fin are unified, the quality of the formed heat dissipation device is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An intelligent wireless communication equipment device installation manufacturing process is characterized by comprising the following steps:

2. The intelligent wireless communication device installation and manufacturing process of claim 1, wherein: the clamping sealing assembly comprises a push rod base fixedly arranged at the top end of the supporting arm, second electric push rods are fixedly arranged at the top end of the push rod base, a lifting sealing plate capable of lifting up and down is arranged below the push rod base, and each second electric push rod extends downwards to form a second push rod;

3. The intelligent wireless communication device installation and manufacturing process of claim 2, wherein: the second boss comprises an inner clamping block, a second abdicating groove, a second tension spring, a second material returning groove, a second walking roller and a second cone frustum, the second boss is of a cylindrical structure, a plurality of square hole-shaped second abdicating grooves are formed in the outer circular surface of the second boss at equal intervals according to the circumference, the inner clamping block is connected in each second abdicating groove in a sliding mode, the outer circular surface of each inner clamping block is equal in height to the outer circular surface of the second boss, and each inner clamping block is pulled in the second abdicating groove through the tension spring;

4. The intelligent wireless communication device installation and manufacturing process of claim 2, wherein: the bottom fixed mounting of lift closing plate has the sealing ring, the sealing ring is the rubber ring, the sealing ring diameter is greater than the hole diameter of stepping down.

5. The intelligent wireless communication device installation and manufacturing process of claim 1, wherein: the deburring workstation includes that fifth boss, second polish roller, third workstation, second rib, first lifting sleeve, fourth electric putter, third supporting leg, slide, third workstation top surface sets up to the horizontal plane, the top of third workstation is rotated and is connected with the fifth boss of drum structure, the equidistant slide of having a perfect understanding in the third workstation bottom, a plurality of having seted up of the outer disc of fifth boss the equidistant slide is according to the equidistant distribution of circumference at the outer disc of fifth boss, each the slide all corresponds with the fin gap of the outer disc of cooling cylinder after the shaping.

6. The intelligent wireless communication device installation and manufacturing process of claim 5, wherein: rotate to connect in third workstation top fifth boss bottom has set firmly the workstation pivot, the workstation pivot stretches out in third workstation bottom, the outer disc fixed mounting of workstation pivot has the pivot otic placode, one of them side fixed mounting of pivot otic placode has the second motor, the output shaft top fixed mounting of second motor has the crank, the opposite side fixed mounting of pivot otic placode has the extension spring fixing base, the bilateral symmetry of pivot otic placode is provided with first extension spring, one of them side first extension spring is fixed in on the extension spring fixing base, the opposite side first extension spring top is fixed with the crossbearer, the crossbearer with crank sliding connection.

7. The intelligent wireless communication device installation and manufacturing process of claim 1, wherein: each the second is polished the outer disc of roller equidistant the hair pole of polishing that has set firmly a plurality of round bar structure, the hair pole of polishing is soft plastic material, and polishes the hair pole and be the flagging state when the second is polished the roller irrotational.

8. The intelligent wireless communication device installation and manufacturing process of claim 1, wherein: the shaping workbench comprises a fourth boss, a shaping sheet, a fourth workbench, a fourth crank, a fourth motor, a fourth tension spring, a second rotating shaft lug plate, a fourth supporting leg, a steering slideway, a shaping sheet rotating ring, a second tension spring fixing seat, a second tension spring and a fourth cross frame, the top surface of the fourth workbench is a horizontal plane, the middle part of the top surface of the fourth workbench is rotatably connected with the fourth boss, a plurality of upright shaping sheets are arranged on the outer circular surface of the fourth boss, the shaping sheets are arranged on the outer circular surface of the fourth boss at equal intervals according to the circumference, each shaping sheet is a square sheet, and air bag bags are arranged on two sides of each shaping sheet;