CN107790837A - A kind of automatic tin dipping device - Google Patents

Abstract

The invention discloses a kind of automatic tin dipping device, including rotating disk, soldering flux applying mechanism and tin sticky mechanism, the soldering flux applying mechanism is located on the outside of the rotating disk with the tin sticky mechanism and is distributed along the rotating disk periphery, multiple thread clamping mechanisms are provided with along its even circumferential, each thread clamping mechanism being capable of soldering flux applying mechanism described in face and the tin sticky mechanism successively in the rotating disk rotation process on the rotating disk.The automatic tin dipping device of the present invention utilizes the mode of turntable rotation, and in multiple thread clamping mechanisms provided circumferentially about of rotating disk, soldering flux applying mechanism and tin sticky mechanism are worked simultaneously, i.e. soldering flux applying mechanism is when being operated, tin sticky mechanism can carry out tin sticky operation to the coaxial line for being stained with scaling powder simultaneously, substantially increase the efficiency of tin sticky in coaxial line process.

Description

A kind of automatic tin dipping device

Technical field

The present invention relates to coaxial line processing technique field, more particularly to a kind of automatic tin dipping device.

Background technology

The production process of tin sticky can be related in the process of coaxial line, the conventional method of the process there are two kinds, one kind It is to use pure artificial tin sticky method, such a method has the defects of tin sticky efficiency is low and tin sticky is of poor quality, therefore can not be adapted to big Produce in batches in occasion.Another kind is the tin sticky method of machinery, makes the tin sticky end of the coaxial line on wire clamp by overturning wire clamp After first inserting scaling powder pond, it is inserted on tin stove, to realize the tin sticky purpose at the tin sticky end of wire rod, still, the side of such a tin sticky Method efficiency is still not high enough, is on the one hand mainly that the speed of complete machine can be had a certain impact by the upset of wire clamp, so as to reduce Efficiency；On the other hand it is that can only process a coaxial line the same time, i.e. can not be coaxial to another when soldering flux applying Line carries out tin sticky, and scaling powder pond is in idle waiting state when tin sticky, causes the profligacy of resource.

In view of it is above-mentioned the defects of, the design people, be actively subject to research and innovation, to found a kind of the automatic of new structure Wetting device, make it with more the value in industry.

The content of the invention

It is an object of the invention to propose a kind of automatic tin dipping device, to improve the effect of tin sticky in coaxial line process Rate.

To use following technical scheme up to this purpose, the present invention：

A kind of automatic tin dipping device, including rotating disk, soldering flux applying mechanism and tin sticky mechanism, the soldering flux applying mechanism and institute State tin sticky mechanism to be located on the outside of the rotating disk and be distributed along the rotating disk periphery, along its even circumferential provided with multiple on the rotating disk Thread clamping mechanism, each thread clamping mechanism being capable of soldering flux applying mechanism described in face and institutes successively in the rotating disk rotation process Tin sticky mechanism is stated, wherein,

The soldering flux applying mechanism includes the first bearing, the scaling powder box being arranged on first bearing, is arranged on institute State the first pressure that on the first bearing and the coaxial line end that the thread clamping mechanism clamps can be pressed in the scaling powder box Head；

The tin sticky mechanism includes the second bearing, and second bearing is provided with tin guide frame, send tin component, tin stove, tin stove Cleaning assemblies and line pressing component, wherein,

The tin guide frame is arranged on second holder top, for placing tin silk volume；

It is described to send tin component to be arranged on second holder top and below the tin guide frame, it is described for clamping Tin silk volume on tin silk and be delivered to the Xi Luchu；

The tin stove is sent below tin component positioned at described, for sending the tin component tin silk that conveying comes heating to melt by described Change；

The tin stove cleaning assemblies is used for the oxide for cleaning the tin stove surface；

The line pressing component is used to the end for being stained with scaling powder of the coaxial line being pressed in the tin stove；

The thread clamping mechanism is used to clamp the coaxial line.

Further, the first pressure head drive cylinder is installed, first pressure head is arranged on described on first bearing On first pressure head drive cylinder and towards the scaling powder box.

Further, it is described to send tin component to include eyelet strip, two Wire guide rollers, conduit and wire roll drive motor, its In,

The eyelet strip, which is installed on, to be arranged on the riser of second holder top, and the eyelet strip is parallel to described Tin stove, which is provided with cable-through hole, and the cable-through hole passes through for the tin silk towards the tin stove；

Two Wire guide rollers are rotatably arranged on the riser and mutual adjacent, the tin passed through from the cable-through hole Silk is clipped between two Wire guide rollers；

The conduit is arranged on second bearing and below two Wire guide roller, the conduit direction The tin stove, for the tin silk of two Wire guide roller clampings to be guided into the tin stove；

The wire roll drive motor is arranged on second bearing, and its output shaft passes with one of them described Wire guide roller Dynamic connection.

Further, the tin stove cleaning assemblies includes scraper plate, oxide transfer hopper, scraper plate drive cylinder, wherein,

One end of the scraper plate is bending structure, and the end is stretched into the tin stove and contacted with the surface of the tin stove；

The adjacent tin stove of oxide transfer hopper, the oxidation scraped for accepting the scraper plate from the tin stove Thing；

The scraper plate drive cylinder is used to drive the relatively described tin stove of the scraper plate to move horizontally.

Further, the line pressing component include be arranged on second holder top on the second pressure head drive cylinder, The second pressure head on the second pressure head drive cylinder, second pressure head is towards the tin stove.

Further, the straight line mould for driving the relatively described second bearing lifting of the tin stove is additionally provided with second bearing Group.

Further, the thread clamping mechanism includes bottom plate, cable support block, two the first cylinders, two clamping plates, wherein,

The bottom plate is arranged on the disk edge；

The cable support block is arranged on the bottom plate；

Two first cylinders are oppositely arranged on the bottom plate and are located at the cable support block both sides respectively, are used for Two clamping plates of driving are mutually drawn close or are separated from each other；

Two clamping plates are respectively arranged in the output end of two first cylinders, the relative end face of two clamping plates It is provided with cable neck, after two clamping plates are drawn close on the cable support block, and two clamping plates are drawn close, two institutes State and enclose cable clamp mouth between cable neck and the cable support block.

Further, the rotating disk is provided with the one-to-one keeper in position with the thread clamping mechanism, the positioning Part is provided with positioning hole；

The automatic tin dipping device also includes detent mechanism, and the detent mechanism includes the support below rotating disk, peace Dress on the bracket and the second cylinder towards the rotating disk, the guide rod that is connected with the expansion link of second cylinder, works as institute When stating guide rod and being injected under the driving of second cylinder in the positioning hole, the thread clamping mechanism is positioned.

Beneficial effects of the present invention are：Using the mode of turntable rotation, and in multiple wire holding machines provided circumferentially about of rotating disk Structure so that soldering flux applying mechanism and tin sticky mechanism can work simultaneously, i.e. soldering flux applying mechanism is when being operated, tin sticky mechanism Tin sticky operation can be carried out to the coaxial line for being stained with scaling powder simultaneously, substantially increase the effect of tin sticky in coaxial line process Rate.

Brief description of the drawings

Fig. 1 is the structural representation for the automatic tin dipping device that the specific embodiment of the invention provides；

Fig. 2 is the structural representation of the soldering flux applying mechanism in the automatic tin dipping device that the specific embodiment of the invention provides Figure；

Fig. 3 is the structural representation of the tin sticky mechanism in the automatic tin dipping device that the specific embodiment of the invention provides；

Fig. 4 is the structural representation of the thread clamping mechanism in the automatic tin dipping device that the specific embodiment of the invention provides；

Fig. 5 is the structural representation of the clamping plate in thread clamping mechanism；

Fig. 6 is the structural representation of the detent mechanism in the automatic tin dipping device that the specific embodiment of the invention provides.

In figure：100- rotating disks, 102- keepers, 103- tubing passages, 300- thread clamping mechanisms, 301- bottom plates, 302- cables Support block, the cylinders of 303- first, 304- clamping plates, 305- cable necks, 400- detent mechanisms, 401- supports, the cylinders of 402- second, 403- guide rods, 500- coaxial lines, 600- soldering flux applying mechanisms, the bearings of 601- first, 602- scaling powder boxes, the pressure heads of 603- first, 604- the first pressure head drive cylinders, 700- tin sticky mechanism, the bearings of 701- second, 702- tin guide frames, 703- tin silk volume, 704- tin Stove, 705- risers, 706- eyelet strips, 707- Wire guide rollers, 708- conduits, 709- wire roll drive motors, 710- scraper plates, 711- Oxide transfer hopper, 712- scraper plate drive cylinders, 713- the second pressure head drive cylinders, the pressure heads of 714- second, 715- straight line modules.

Embodiment

Further illustrate technical scheme below in conjunction with the accompanying drawings and by embodiment.

As shown in Figures 1 to 6, automatic tin dipping device of the invention, including rotating disk 100, soldering flux applying mechanism 600 and solder machine Structure 700, soldering flux applying mechanism 600 are located at the outside of rotating disk 100 with tin sticky mechanism 700 and are distributed along the periphery of rotating disk 100, rotating disk 100 On along its even circumferential be provided with multiple thread clamping mechanisms 300, each thread clamping mechanism 300 can be successively in the rotation process of rotating disk 100 Face soldering flux applying mechanism 600 and tin sticky mechanism 700.

Specifically, as shown in Fig. 2 soldering flux applying mechanism 600 includes the first bearing 601, is arranged on the first bearing 601 Scaling powder box 602, it is arranged on the first bearing 601 and the end of coaxial line 500 that thread clamping mechanism 300 clamps can be pressed on and helped The first pressure head 603 in welding flux box 602；First pressure head drive cylinder 604 is installed, the first pressure head 603 is pacified on first bearing 601 On the first pressure head drive cylinder 604 and towards scaling powder box 602.When rotating disk 100 is right with some in thread clamping mechanism 300 During quasi- soldering flux applying mechanism 600, the first pressure head drive cylinder 604 drives the first pressure head 603 to push, and the thread clamping mechanism 300 is pressed from both sides The end for the coaxial line held is pressed in scaling powder box 602, to pick scaling powder.

As shown in figure 3, tin sticky mechanism 700 includes the second bearing 701, the second bearing 701 is provided with tin guide frame 702, send tin Component, tin stove 704, tin stove cleaning assemblies and line pressing component, wherein, tin guide frame 702 is arranged on the top of the second bearing 701, is used 703 are rolled up in placing tin silk；Tin component is sent to be arranged on the top of the second bearing 701 above and positioned at the lower section of tin guide frame 702, for clamping tin Silk is rolled up the tin silk on 703 and is delivered at tin stove 704；Tin stove 704 is positioned at sending below tin component, for tin component conveying will to be sent Tin silk heating and melting；Tin stove cleaning assemblies is used for the oxide for cleaning the surface of tin stove 704；Line pressing component is used for coaxial line 500 end for being stained with scaling powder is pressed in tin stove 704.

Specifically, tin component is sent to include 706, two Wire guide rollers 707 of eyelet strip, conduit 708 and wire roll drive motor 709, eyelet strip 706, which is installed on, to be arranged on the riser 705 at the top of the second bearing 701, and eyelet strip 706 is parallel to tin stove 704, Cable-through hole is which is provided with, cable-through hole passes through for tin silk towards tin stove 704；Two Wire guide rollers 707 be rotatably arranged on riser 705 and Mutually it is adjacent, from cable-through hole through tin silk be clipped in two Wire guide rollers 707；Conduit 708 is arranged on the second bearing 701 And positioned at two lower sections of Wire guide roller 707, towards tin stove 704, the tin silk for two Wire guide rollers 707 to be clamped draws conduit 708 It is directed in tin stove 704；Wire roll drive motor 709 is arranged on the second bearing 701, its output shaft and one of Wire guide roller 707 drive connections.When wire roll drive motor 709 starts, be connected therewith a Wire guide roller 707 rotates, and drives another One Wire guide roller 707 rotates, and so as to clip Xi Si and pull out tin silk, leads to tin stove 704 by conduit 708, tin stove 704 will Tin silk is fused into tin liquor.

After tin stove 704 suspends use, when enabling again, the molten of tin silk can be influenceed in one layer of oxide of its Surface Creation Change, therefore, it is necessary to the oxide on the surface of tin stove 704 is disposed by tin stove cleaning assemblies.Tin stove cleaning group in the present invention Part includes scraper plate 710, oxide transfer hopper 711, scraper plate drive cylinder 712, wherein, one end of scraper plate 710 is bending structure, and The end is stretched into tin stove 704 and contacted with the surface of tin stove 704；The adjacent tin stove 704 of oxide transfer hopper 711, scraped for accepting The oxide that plate 710 scrapes from tin stove 704；Scraper plate drive cylinder 712 is used to drive scraper plate 710 is horizontal with respect to tin stove 704 to move It is dynamic.When in tin stove 704 in the presence of the oxide for needing to clear up, scraper plate drive cylinder 712 starts, and drives scraper plate 710 along tin stove 704 Surface is moved, and the oxide on the surface of tin stove 704 is scraped off, and is scraped at oxide transfer hopper 711, and oxide drops into oxide Transfer hopper 711 is discharged.

Line pressing component includes the second pressure head drive cylinder 713, the installation being arranged on the top of the second bearing 701 in the present invention The second pressure head 714 on the second pressure head drive cylinder 713, the second pressure head 714 is towards tin stove 704.Need the end to coaxial line During portion's tin sticky, the second pressure head drive cylinder 713 starts, and the second pressure head 714 of driving declines, and the second pressure head 714 is by the end of coaxial line Portion is pressed on tin sticky in tin stove 704, and then the second pressure head drive cylinder 713 drives the second pressure head 714 to return to original position.

For that can depart from from tin stove 704 after ensuring the end tin sticky of coaxial line, the present invention is also set on the second bearing 701 There is the straight line module 715 of relative second bearing 701 lifting of driving tin stove 704.After the end tin sticky of coaxial line, straight line module 715 driving tin stoves 704 decline, and the coaxial line after tin sticky is departed from from tin stove 704, to avoid tin sticky excessive.

As shown in figs. 4 and 5, thread clamping mechanism 300 of the invention is used to clamp coaxial line, including bottom plate 301, cable support Block 302, two the first cylinders, 303, two clamping plates 304, wherein, bottom plate 301 is arranged on rotating disk frontside edge；Cable support block 302 are arranged on bottom plate 301；Two the first cylinders 303 are oppositely arranged on bottom plate 301 and are located at cable support block 302 respectively Both sides, for driving two clamping plates 304 mutually to draw close or be separated from each other；Two clamping plates 304 are respectively arranged in two the first cylinders 303 output end, the relative end face of two clamping plates 304 are provided with cable neck 305, and two clamping plates 304 are drawn close in cable support On block 302, and after two clamping plates 304 are drawn close, cable clamp is enclosed between two cable necks 305 and cable support block 302 Mouthful.Thread clamping mechanism 300 can clamp the coaxial line in the tubing passage 103 on rotating disk 100, and clamp coaxial line 500 with rotating disk 100 rotations.After multiple thread clamping mechanisms 300 clamp coaxial line 500 simultaneously, soldering flux applying mechanism 600 is when being operated, tin sticky Mechanism 700 can carry out tin sticky operation to the coaxial line for being stained with scaling powder simultaneously, substantially increase in coaxial line process The efficiency of tin sticky.

As shown in fig. 6, the automatic tin dipping device of the present invention also includes the detent mechanism positioned to thread clamping mechanism 300 400.Specifically, the present invention is provided with the one-to-one mounting hole in position with thread clamping mechanism 300 on rotating disk 100, in mounting hole Equipped with keeper 102, keeper 102 is provided with positioning hole；Detent mechanism 400 include the support 401 positioned at the lower section of rotating disk 100, The second cylinder 402 on support 401 and towards rotating disk 100, the guide rod 403 being connected with the expansion link of the second cylinder 402, When being injected under driving of the guide rod 403 in the second cylinder 402 in positioning hole, thread clamping mechanism 300 is positioned.Pass through localization machine Structure 400 can be further assured that two thread clamping mechanisms 300 while be respectively aligned to soldering flux applying mechanism 600 and tin sticky mechanism 700 so that Soldering flux applying mechanism 600 and tin sticky mechanism 700 are simultaneously operable.

To sum up, automatic tin dipping device of the invention utilizes the mode that rotating disk 100 rotates, and is set on the circumference of rotating disk 100 Put multiple thread clamping mechanisms 300 so that soldering flux applying mechanism 600 and tin sticky mechanism 700 can work simultaneously, i.e. soldering flux applying mechanism 600 when being operated, and tin sticky mechanism 700 can carry out tin sticky operation to the coaxial line for being stained with scaling powder simultaneously, carry significantly The efficiency of tin sticky in high coaxial line process.

The technical principle of the present invention is described above in association with specific embodiment.These descriptions are intended merely to explain the present invention's Principle, and limiting the scope of the invention can not be construed in any way.Based on explanation herein, the technology of this area Personnel would not require any inventive effort the other embodiments that can associate the present invention, and these modes are fallen within Within protection scope of the present invention.

Claims (8)

1. a kind of automatic tin dipping device, it is characterised in that including rotating disk, soldering flux applying mechanism and tin sticky mechanism, described be stained with helps weldering Agent mechanism is located on the outside of the rotating disk with the tin sticky mechanism and is distributed along the rotating disk periphery, equal along its circumference on the rotating disk Even to be provided with multiple thread clamping mechanisms, each thread clamping mechanism can be stained with described in face successively in the rotating disk rotation process helps weldering Agent mechanism and the tin sticky mechanism, wherein,

The soldering flux applying mechanism includes the first bearing, the scaling powder box being arranged on first bearing, is arranged on described the On one bearing and the first pressure head that the coaxial line end that the thread clamping mechanism clamps can be pressed in the scaling powder box；

The tin sticky mechanism includes the second bearing, and second bearing is provided with tin guide frame, send tin component, tin stove, the cleaning of tin stove Component and line pressing component, wherein,

The tin guide frame is arranged on second holder top, for placing tin silk volume；

It is described to send tin component to be arranged on second holder top and below the tin guide frame, for clamping the tin silk Tin silk on volume is simultaneously delivered to the Xi Luchu；

The tin stove is sent below tin component positioned at described, for sending the tin component tin silk heating and melting that conveying comes by described；

The tin stove cleaning assemblies is used for the oxide for cleaning the tin stove surface；

The line pressing component is used to the end for being stained with scaling powder of the coaxial line being pressed in the tin stove；

The thread clamping mechanism is used to clamp the coaxial line.

2. automatic tin dipping device according to claim 1, it is characterised in that be provided with the first pressure head on first bearing Drive cylinder, first pressure head are arranged on the first pressure head drive cylinder and towards the scaling powder box.

3. automatic tin dipping device according to claim 1, it is characterised in that it is described send tin component include eyelet strip, two Wire guide roller, conduit and wire roll drive motor, wherein,

The eyelet strip, which is installed on, to be arranged on the riser of second holder top, and the eyelet strip is parallel to the tin Stove, which is provided with cable-through hole, and the cable-through hole passes through for the tin silk towards the tin stove；

Two Wire guide rollers are rotatably arranged on the riser and mutually adjacent, the tin silk folder passed through from the cable-through hole Between two Wire guide rollers；

The conduit is arranged on second bearing and below two Wire guide rollers, the conduit is described in Tin stove, for the tin silk of two Wire guide roller clampings to be guided into the tin stove；

The wire roll drive motor is arranged on second bearing, and its output shaft connects with one of them described Wire guide roller transmission Connect.

4. automatic tin dipping device according to claim 1, it is characterised in that the tin stove cleaning assemblies includes scraper plate, oxygen Compound transfer hopper, scraper plate drive cylinder, wherein,

One end of the scraper plate is bending structure, and the end is stretched into the tin stove and contacted with the surface of the tin stove；

The adjacent tin stove of oxide transfer hopper, the oxide scraped for accepting the scraper plate from the tin stove；

The scraper plate drive cylinder is used to drive the relatively described tin stove of the scraper plate to move horizontally.

5. automatic tin dipping device according to claim 1, it is characterised in that the line pressing component includes being arranged on described the The second pressure head drive cylinder on two holder tops, the second pressure head on the second pressure head drive cylinder, described Two pressure heads are towards the tin stove.

6. according to the automatic tin dipping device described in claim any one of 1-5, it is characterised in that be additionally provided with second bearing Drive the straight line module of the relatively described second bearing lifting of the tin stove.

7. automatic tin dipping device according to claim 1, it is characterised in that the thread clamping mechanism includes bottom plate, cable branch Bracer, two the first cylinders, two clamping plates, wherein,

The bottom plate is arranged on the disk edge；

The cable support block is arranged on the bottom plate；

Two first cylinders are oppositely arranged on the bottom plate and are located at the cable support block both sides respectively, for driving Two clamping plates are mutually drawn close or are separated from each other；

Two clamping plates are respectively arranged in the output end of two first cylinders, and two clamping plates are set on relative end face There is a cable neck, after two clamping plates are drawn close on the cable support block, and two clamping plates are drawn close, two lines Cable clamp mouth is enclosed between cable neck and the cable support block.

8. automatic tin dipping device according to claim 7, it is characterised in that the rotating disk is provided with and the thread clamping mechanism The one-to-one keeper in position, the keeper is provided with positioning hole；

The automatic tin dipping device also includes detent mechanism, and the detent mechanism includes support below rotating disk, is arranged on The second cylinder on the support and towards the rotating disk, the guide rod being connected with the expansion link of second cylinder, lead when described When bar is injected in the positioning hole under the driving of second cylinder, the thread clamping mechanism is positioned.