CN209503172U - High frequency solder system - Google Patents

Abstract

The utility model discloses a kind of high frequency solder system, including tin feeding device, tin soldering equipment and control device, and tin feeding device is connect by pipeline with tin soldering equipment, and control device is electrically connected with tin feeding device, tin soldering equipment.The utility model realizes scolding tin function by setting tin feeding device, tin soldering equipment and control device, controls tin feeding device by control device and tin soldering equipment cooperates.The utility model high frequency solder system can easily be precisely controlled soldering tin amount, scolding tin time, scolding tin temperature during scolding tin, improve scolding tin quality.Moreover, not collophore in the utility model using not viscous fusing, tin under soft state metal obtained by so that the tin after molten condition will not the sticky inner wall to not collophore.And, the power source of Song Xi mechanism is compressed air again, feeding is carried out by way of air blowing, this kind of feeding style is not limited by distance, and without architectural limitation, and practicability is higher.

Description

High frequency solder system

Technical field

The utility model relates to tin-soldering device, in particular to a kind of high frequency solder system.

Background technique

In traditional scolding tin technology, electronic component or conducting wire are generally welded to by circuit board using electric iron and solder stick On, or multiple conducting wires are welded together, this welding manner is due to will first melt welding wire, and reusable liquid tin is by pad and pin Weld together with conducting wire.

Its shortcoming is that: first, this kind of scolding tin mode in operation, needs both hands to be operated, is inconvenient；Second, This kind of scolding tin mode is easy to be stained on solder horn in the process for melting tin silk, tin, causes soldering tin amount uneven, to be difficult to control The amount of tin silk；Third, this kind of traditional scolding tin mode is more demanding to the technical level of operator, leads to cost of labor mistake It is high；4th, automatic tin soldering device used in traditional tin-soldering method needs beside solder horn setting to send the knot of solder stick Structure, structure is complicated and volume is larger, leads to not realize that scolding tin, reduction automate more set tin soldering equipments simultaneously in small space Effect.

Utility model content

One aspect according to the present utility model, provides high frequency solder system, including tin feeding device, tin soldering equipment and Control device, tin feeding device are connect by pipeline with tin soldering equipment, and control device is electrically connected with tin feeding device, tin soldering equipment；

Tin feeding device is configured to send tin silk into tin soldering equipment；

Tin soldering equipment is configured to melt tin silk and be welded on solder joint；

Control device is configured to control tin feeding device and tin soldering equipment.

The utility model realizes scolding tin function by setting tin feeding device, tin soldering equipment and control device, passes through control Device control tin feeding device and tin soldering equipment cooperate.During scolding tin, quantitative tin silk is sent to weldering by tin feeding device In tin device, which is melted and the tin after fusing is wire bonded on solder joint by tin soldering equipment.The utility model high frequency scolding tin system System can easily be precisely controlled soldering tin amount, scolding tin time, scolding tin temperature during scolding tin, improve scolding tin quality.

In some embodiments, tin soldering equipment includes handle, switch block, the first feed pipe and soldering mechanism, is opened It closes component to be located in handle, the first feed pipe is located on switch block, and soldering mechanism is located at handle one end and matches with switch block It closes；Soldering mechanism includes shell, the second feed pipe and heating inner tube, and the second feed pipe and heating inner tube are each attached in shell First feed pipe, the second feed pipe and heating inner tube are interconnected.

Tin soldering equipment is controlled by the way that switch block is arranged as a result, tin silk enters soldering mechanism from the first feed pipe In, heating fusing is carried out to scolding tin by the heating inner tube in soldering mechanism and is welded on solder joint.This kind of tin soldering equipment solves , the problem of traditional scolding tin soldering iron needs both hands to operate；Solve the problems, such as that traditional scolding tin soldering iron is difficult to control soldering tin amount；It solves Traditional scolding tin soldering iron is difficult to control the problem of scolding tin temperature.

In some embodiments, switch block includes microswitch, stop collar, push pipe and reset spring, and fine motion is opened In the top of stop collar, push pipe is slidably sleeved in two stop collars off-position, and one end of push pipe is equipped with bulge loop, reset spring It is set between bulge loop and stop collar, the first feed pipe is located in push pipe, and first feed pipe one end is stretched out and sent from handle outer wall Tin installs pipes connection, and microswitch is electrically connected with control device.

Switch block can be carried out using microswitch as control switch when push pipe is squeezed on stop collar as a result, Sliding, to touch microswitch.Such control method can easily control soldering gun.Power port is switch The electric energy input port of component is also the signal output of switch block；While switch block can control soldering gun, also can Control is extraneous into tin mechanism into tin function.

In some embodiments, heating inner tube includes heating component and not collophore, and collophore is not set in heating component, The not metal tube of tin of the collophore for not viscous fusing, under soft state；Heating component includes coil group, insulating trip and heating tube, Coil group, which is spiraled, is centered around the outer wall of heating tube, and insulating trip is set between coil group and insulating trip.

Heating component heats not collophore as a result, so that collophore is not heated up, so that the inner cavity of collophore is not formed One heating environment, collophore can not melt tin silk, and heat to the low-pressure air flowed through.Heat the molten of inner tube During tin, not in collophore, tin silk melts the input of tin silk in the inner cavity of not collophore, the Xi Siyin self weight drippage weldering of molten condition On point, to realize scolding tin function.Moreover, collophore is not the heating member for directly contacting tin silk, the not collophore in the utility model Obtained by metal using the tin under not viscous fusing, soft state, so that tin after molten condition will not be sticky to not collophore Inner wall.Heating component carries out electromagnetic heating to heating tube using coil group, improves the efficiency of electromagnetic heating；In coil group and heating Insulating trip is added between pipe, insulating trip can separate coil group and heating tube, the service life of extension coil group.

In some embodiments, collophore is not straight pipe；One end of second feed pipe is equipped with installing pipe, and insulating trip is arranged In outside installing pipe, collophore fixing sleeve is not set in heating tube, and heating tube is removably sheathed in installing pipe.

As a result, when scolding tin, the outlet end of not collophore is resisted into pad, not in collophore, tin silk is sent to not to be glued the input of tin silk At the outlet end of pipe, tin silk melted by heat in outlet end, so that tin silk is welded to pad.Such tin-soldering method, can Improve scolding tin efficiency.Heating tube and the not collophore being set in heating tube can be dismantled in installing pipe, conveniently in the future To heating tube and collophore is not replaced.

In some embodiments, heating component and the middle part of collophore is not equipped with identical turn section.

Not in collophore, turn section can stop tin silk the input of tin silk as a result, the contact of tin silk not collophore inner wall and by Fusing rapidly increases the heated time of tin silk, guarantees that tin silk is molten condition before flowing out spout.

In some embodiments, tin feeding device includes rack, into tin mechanism, shearing mechanism and Song Xi mechanism, into tin Mechanism, shearing mechanism and Song Xi mechanism are set in rack, are located above shearing mechanism into tin mechanism, Song Xi mechanism and cutting The connection of mechanism pipeline.

The utility model is by sending quantitative tin silk into shearing mechanism into tin mechanism as a result, and tin silk is in shearing mechanism It is middle cut after, the tin silk of cutting is sent into tin soldering equipment by Song Xi mechanism.It automates to realize into tin function.

In some embodiments, include motor, storage rack and importing idler wheel into tin mechanism, import idler wheel and be fixed on electricity At the driving end of machine, tin roll is placed on storage rack, one end of tin roll passes through importing idler wheel and connect with shearing mechanism.

Motor is servo motor or stepper motor as a result, and motor can drive importing idler wheel to be rotated, and importing idler wheel will Welding wire is sent into shearing mechanism, and feeding amount can be controlled by controlling motor.

In some embodiments, shearing mechanism includes mounting plate, cuts component, upper mold and discharge nozzle, upper mold Tool, cutting component are respectively provided on a mounting board, cut component and upper mold cooperates, and discharge nozzle, which is located at, to be cut on component.

During cutting as a result: cutting component and cut tin silk with closed die, the tin silk after cutting falls into installation It is cutting at the discharge nozzle on component, tin silk moves to subsequent processing by discharge nozzle.

In some embodiments, cutting component includes actuator and sliding block, and the fixing end of actuator is fixed on mounting plate On, sliding block is fixed at the driving end of actuator, and sliding block is equipped with the first feed opening, and discharge nozzle connects with the first feed opening respectively Logical, upper mold is equipped with the second feed opening, and the second feed opening and the first feed opening cooperate；One end of discharge nozzle and the first feed opening connect It connects, the other end of discharge nozzle is connect with the first feed pipe, and the outer wall of discharge nozzle is equipped with air inlet；Song Xi mechanism by pipeline with into Air port connection.

During cutting as a result: the actuator driving sliding block for cutting component is slided, the first feed opening cooperation of sliding block Upper mold cuts tin silk, and the tin silk after cutting is fallen at the discharge nozzle for being mounted on and cutting on component, and tin silk passes through discharging Pipe is sent into tin soldering equipment.The power source of Song Xi mechanism is compressed air, and Song Xi mechanism is defeated by air inlet by compressed air Enter in discharge nozzle, the tin silk in discharge nozzle is sent by the connection of the first feed pipe into tin soldering equipment.

The utility model has the following beneficial effects: the utility model passes through setting tin feeding device, tin soldering equipment and control dress It sets and realizes scolding tin function, tin feeding device is controlled by control device and tin soldering equipment cooperates.The utility model high frequency Solder system can easily be precisely controlled soldering tin amount, scolding tin time, scolding tin temperature during scolding tin, improve weldering Tin quality.Moreover, not collophore in the utility model using not viscous fusing, tin under soft state metal obtained by so that Tin after molten condition will not the sticky inner wall to not collophore.And, the power source of Song Xi mechanism is compressed air again, passes through air blowing Mode carry out feeding, this kind of feeding style is not limited by distance, and without architectural limitation, and practicability is higher.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the high frequency solder system of one embodiment of the utility model.

Fig. 2 is the schematic perspective view of the tin soldering equipment in high frequency solder system shown in Fig. 1.

Fig. 3 is the overlooking structure diagram of tin soldering equipment shown in Fig. 2.

Fig. 4 is the direction the A-A schematic cross-sectional view of tin soldering equipment shown in Fig. 3.

Fig. 5 is the B partial enlargement structural representation in Fig. 4.

Fig. 6 is the schematic cross-sectional view of the soldering mechanism in tin soldering equipment shown in Fig. 4.

Fig. 7 is C partial enlargement structural representation in Fig. 6.

Fig. 8 is the schematic perspective view of the tin feeding device in high frequency solder system shown in Fig. 1.

Fig. 9 is the positive structure diagram of tin feeding device shown in Fig. 8.

Figure 10 is D partial enlargement structural representation in Fig. 8.

Figure 11 is the configuration schematic diagram of shearing mechanism in tin feeding device shown in Fig. 8.

Figure 12 is the schematic cross-sectional view of the soldering mechanism in the tin soldering equipment of another embodiment of the utility model.

Figure 13 is E partial enlargement structural representation in Figure 12.

Figure label: 1- tin feeding device, 11- rack, 12- are imported into tin mechanism, 121- motor, 122- storage rack, 123- Idler wheel, 13- shearing mechanism, 131- mounting plate, 132- cut component, 1321- actuator, 1322- sliding block, 13221- first and feed Hole, 13222- limiting slot, 133- upper mold, the second feed opening of 1331-, 1332- limited block, 134- sliding slot, 135- discharge nozzle, 1351- air inlet, 2- tin soldering equipment, 21- handle, 22- switch block, 221- microswitch, 222- stop collar, 223- push pipe, 2231- bulge loop, 2232- jacking block, 224- reset spring, 225- power port, the first feed pipe of 23-, 24- soldering mechanism, 241- shell Body, the second feed pipe of 242-, 2421- installing pipe, 243- heat inner tube, 2431- heating component, 24311- coil group, 24312- Collophore, first conical surface of 24331-, 24332- spout, 2434- do not turn by insulating trip, 24313- heating tube, 2432- heat conducting pipe, 2433- Trisection, 3- control device.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

Fig. 1 schematically shows a kind of embodiment high frequency solder system according to the present utility model, including tin is sent to fill 1, tin soldering equipment 2 and control device 3 are set, tin feeding device 1 is connect by pipeline with tin soldering equipment 2, and control device 3 is filled with tin is sent 1, tin soldering equipment 2 is set to electrically connect；

Tin feeding device 1 is configured to send tin silk into tin soldering equipment 2；

Tin soldering equipment 2 is configured to melt tin silk and be welded on solder joint；

Control device 3 is configured to control tin feeding device 1 and tin soldering equipment 2.

The utility model realizes scolding tin function by setting tin feeding device 1, tin soldering equipment 2 and control device 3, passes through control Device 3 processed controls tin feeding device 1 and tin soldering equipment 2 cooperates.It, will quantitative tin silk by tin feeding device 1 during scolding tin It send into tin soldering equipment 2, which is melted and the tin after fusing is wire bonded on solder joint by tin soldering equipment 2.The utility model is high Frequency solder system can easily be precisely controlled soldering tin amount, scolding tin time, scolding tin temperature during scolding tin, improve Scolding tin quality.

In conjunction with Fig. 1-3, tin soldering equipment 2 includes bracket, handle 21, switch block 22, the first feed pipe 23 and tin soldering machine Structure 24.Handle 21 is detachably disposed on bracket；Switch block 22 is located in handle 21, and 21 top of handle is equipped with power port 225, power port 225 is electrically connected with switch block 22.First feed pipe 23 is located on switch block 22, and soldering mechanism 24 is slidably Ground is located at 21 lower end of handle and cooperates with switch block 22.Soldering mechanism 24 includes shell 241, the second feed pipe 242 and adds Hot inner tube 243, the second feed pipe 242 and heating inner tube 243 are each attached in shell 241, and shell 241 is used for heating inner tube 243 are fixed and protect.First feed pipe 23, the second feed pipe 242 and heating inner tube 243 are interconnected.

By be arranged switch block 22 tin soldering equipment 2 and tin feeding device 1 are controlled, tin silk from the first feed pipe 23 into Enter in soldering mechanism 24, heating fusing is carried out to scolding tin by the heating inner tube 243 in soldering mechanism 24 and is welded on solder joint. The problem of this kind of tin soldering equipment 2 solves, and traditional scolding tin soldering iron needs both hands to operate；It solves traditional scolding tin soldering iron to be difficult to control The problem of soldering tin amount；Solve the problems, such as that traditional scolding tin soldering iron is difficult to control scolding tin temperature.

In conjunction with Fig. 4-5, switch block 22 includes microswitch 221, stop collar 222, push pipe 223 and reset spring 224. Stop collar 222 is linear bearing, oilless bearing or contains bearing.Microswitch 221 is fixed on 21 inner upper end of handle, and fine motion is opened 221 tops for being located at stop collar 222 are closed, stop collar 222 is equipped with two pieces.Push pipe 223 is slidably disposed on stop collar 222, top The lower end of pipe 223 is equipped with bulge loop 2231, and reset spring 224 is set between bulge loop 2231 and stop collar 222.Push pipe 223 and Two feed pipes 242 are cooperatively connected, and 223 upper end of push pipe is equipped with jacking block 2232.First feed pipe 23 is hose, and the first feed pipe 23 is set In push pipe 223.21 outer wall of handle offers slotted hole, and 23 input terminal of the first feed pipe is stretched out from the slotted hole of 21 outer wall of handle It is connect with 1 pipeline of tin feeding device, microswitch 221 is electrically connected by power port 225 with control device 3.

Switch block 22 is used as control switch using microswitch 221, can be in stop collar 222 when push pipe 223 is squeezed On slided, to touch microswitch 221.Such control method can easily control soldering gun.Power supply Mouth 225 is the electric energy input port of switch block 22, is also the signal output of switch block 22；Switch block 22 can control weldering While tin rifle, can also it control extraneous into tin mechanism 12 into tin function.

In conjunction with Fig. 6-7, heating inner tube 243 collophore 2433 including heating component 2431 and not, collophore 2433, which is not set in, adds In hot component 2431.The not metal tube of tin of the collophore 2433 for not viscous fusing, under soft state；Heating component 2431 can be to not Collophore 2433 is heated.

Heating component 2431 heats not collophore 2433, so that collophore 2433 is not heated up, so that not collophore 2433 inner cavity forms a heating environment, and collophore 2433 can not melt tin silk, and flows through not collophore 2433 Low-pressure air is heated as hot wind, and never blowout can preheat solder joint to hot wind at collophore 2433.Heat the molten tin process of inner tube 243 In, not in collophore 2433, tin silk is melted rapidly the input of tin silk in not collophore 2433, and the Xi Siyin of molten condition, which is self-possessed, to drip On solder joint, to realize scolding tin function.Moreover, collophore 2433 is not the heating member of directly contact tin silk, in the utility model Not collophore 2433 using not viscous fusing, tin under soft state metal obtained by so that the tin after molten condition will not be sticky To the inner wall of not collophore 2433.

Collophore 2433 can be not the metal tubes such as titanium, aluminium, niobium, titanium alloy, aluminium alloy or niobium alloy.Real through multiple material The result tested show that not viscous tin, not oxidizable metal have niobium, aluminium, titanium, titanium alloy, aluminium alloy or niobium alloy etc..The present embodiment In, the tin under fusing, soft state both preferably cannot not met viscously as not collophore 2433 in the present embodiment using titanium metal pipe Requirement, and it is not oxidizable at high temperature.In other embodiments, collophore 2433 can not also close for aluminium, niobium, titanium alloy, aluminium Gold or niobium alloy pipe or other general character (tin under not viscous fusing, soft state) metal tube.

In conjunction with Fig. 6-7, heating component 2431 is electromagnetic heating component, and heating component 2431 includes coil group 24311, insulation Piece 24312 and heating tube 24313, heating tube 24313 are ferrous metal pipe, and the electromagnetic heating of ferrous metal is more efficient.Coil group 24311, which spiral, is centered around the outer wall of heating tube 24313, and insulating trip 24312 is set between coil group 24311 and insulating trip 24312, Insulating trip 4313 and heating tube 4312 are to be detachably connected.Heating component 2431 using coil group 24311 to heating tube 24313 into Row electromagnetic heating improves the efficiency of electromagnetic heating；Insulating trip 24312 is added between coil group 24311 and heating tube 24313, Insulating trip 24312 can separate coil group 24311 and heating tube 24313, the service life of extension coil group 24311.

In conjunction with Fig. 6-7, the outlet end of the second feed pipe 242 is connected to not collophore 2433, the not collophore in the present embodiment 2433 be straight pipe.When scolding tin, the outlet end of not collophore 2433 is resisted into pad, tin silk inputs in not collophore 2433, tin silk quilt It send to the not outlet end of collophore 2433, tin silk melted by heat in outlet end, so that tin silk is welded to pad.Such weldering Tin method can be improved scolding tin efficiency.The lower end of second feed pipe 242 is equipped with installing pipe 2421, and the tube wall of installing pipe 2421 is set There is a plurality of gap, installing pipe 2421 has certain elasticity；Insulating trip 24312 is fixedly sheathed on outside installing pipe 2421, is not glued 2433 fixing sleeve of pipe is set in heating tube 24313, and heating tube 24313 is removably sheathed in installing pipe 2421.Heating tube 24313 and the not collophore 2433, the heat conducting pipe 2432 that are set in heating tube 24313 can be carried out in installing pipe 2421 quickly Disassembly, it is convenient in the future to heating tube 24313, collophore 2433 and heat conducting pipe 2432 are not replaced.

In conjunction with Fig. 6-7,2433 input end inner wall of collophore is not equipped with first conical surface 24331.The conical surface for extending out type enables to Tin silk more swimmingly enters in not collophore 2433, increases the charging fluency of the utility model.The outlet end of collophore 2433 is not set There is spout 24332,24332 shape of spout can be round, ellipse etc., and different spouts can be arranged according to application 24332 shapes, spout 24332 are wrapped in heat conducting pipe 2432, and spout 24332 is fixed in heat conducting pipe 2432, are increased whole Body structural soundness.In the present embodiment, tin silk melts in spout 24332, and the tin silk after dissolving is welded to solder joint automatically, completes weldering Tin process.

Preferably, the material of the second feed pipe 242 is identical as the not material of collophore 2433, using titanium metal pipe.Handle 21 It is made of insulated heat material, allows manpower to contact handle 21, without coming to harm.

In conjunction with Fig. 6-7, heating inner tube 243 further includes heat conducting pipe 2432, and heat conducting pipe 2432 is filled in 2431 He of heating component Not between collophore 2433, the material of heat conducting pipe 2432 is copper.Since collophore 2433 is not the thick shape in intermediate thin both ends, so this reality Gap filling heat conducting pipe 2432 of the example between heating component 2431 and not collophore 2433 is applied, to guarantee heating component 2431 and not Heat transfer efficiency between collophore 2433.

In conjunction with Fig. 8-9, tin feeding device 1 is including rack 11, into tin mechanism 12, shearing mechanism 13 and Song Xi mechanism (in figure It is not drawn into), it is set in rack 11 into tin mechanism 12, shearing mechanism 13 and Song Xi mechanism, is located at cutting machine into tin mechanism 12 13 top of structure, Song Xi mechanism are connect with 13 pipeline of shearing mechanism.It is configured to send tin silk into shearing mechanism 13 into tin mechanism 12； Shearing mechanism 13 is configured to cut tin silk；Song Xi mechanism is configured to send the tin silk of cutting into tin soldering equipment 2.

The utility model is by sending quantitative tin silk into shearing mechanism 13 into tin mechanism 12, and tin silk is in shearing mechanism 13 It is middle cut after, the tin silk of cutting is sent into tin soldering equipment 2 by Song Xi mechanism.It automates to realize into tin function.

In some embodiments, include motor 121, storage rack 122 and importing idler wheel 123 into tin mechanism 12, import Idler wheel 123 is fixed at the driving end of motor 121, and tin roll is placed on storage rack 122, and the movable end of tin roll, which passes through, imports idler wheel 123 connect with shearing mechanism 13.Motor 121 is servo motor 121 or stepper motor 121, and motor 121 can drive importing idler wheel 123 are rotated, and are imported idler wheel 123 and are sent welding wire into shearing mechanism 13, and feeding amount can be carried out by control motor 121 Control.

In conjunction with Figure 10-11, shearing mechanism 13 include mounting plate 131, cut component 132, upper mold 133, sliding slot 134 and Discharge nozzle 135, upper mold 133, cutting component 132 are arranged on mounting plate 131, and sliding slot 134 is fixed on 131 upper end of mounting plate Face, upper mold 133 are fixed on 134 upper surface of sliding slot, cut component 132 and upper mold 133 cooperates, discharge nozzle 135 is located at cutting On component 132.

During cutting: cutting component 132 and cut tin silk with closed die 133, the tin silk after cutting falls into peace At the discharge nozzle 135 cut on component 132, tin silk moves to subsequent processing by discharge nozzle 135.

In conjunction with Figure 10-11, cutting component 132 includes actuator 1321 and sliding block 1322, and the fixing end of actuator 1321 is solid It is scheduled on mounting plate 131, sliding block 1322 is fixed at the driving end of actuator 1321, and sliding block 1322 and sliding slot 134 cooperate, driving Part 1321 can drive sliding shoe to slidably reciprocate in sliding slot 134.1322 upper surface of sliding block is equipped with limiting slot 13222, upper mold 133 lower end surface is equipped with limited block 1332, and limiting slot 13222 and limited block 1332 cooperate.First there are two being set on sliding block 1322 Feed opening 13221, so discharge nozzle 135 also is provided with two, the inner wall of the first feed opening 13221 is positive the conical surface, the card of the positive conical surface Disconnected effect is more preferable, because it is with interior expansion feature, so being not in card silk phenomenon；Two discharge nozzles 135 are separately mounted to two The lower section of first feed opening 13221, two discharge nozzles 135 are connected to two the first feed openings 13221 respectively.On mounting plate 131 Slotted hole is opened up, slotted hole is located in sliding slot 134, and slotted hole stretches out for discharge nozzle 135 and allows to sliding block 1322 Carry out positive and negative movement.Upper mold 133 is equipped with the second feed opening 1331, and the upper end inner wall of the second feed opening 1331 is inverted cone face, instead The conical surface forms a funnel shaped, and tin silk is more swimmingly entered in the second feed opening 1331；Second feed opening 1331 Cooperate with the first feed opening 13221.

During cutting: the actuator 1321 for cutting component 132 drives sliding block 1322 to be slided, and the first of sliding block 1322 Feed opening 13221 cuts tin silk with closed die 133, and the tin silk after cutting falls into be mounted on and cut on component 132 At discharge nozzle 135, tin silk is sent by discharge nozzle 135 into tin soldering equipment 2.

In conjunction with Figure 10-11, the upper end of discharge nozzle 135 is connect with the first feed opening 13221, the lower end of discharge nozzle 135 and the The outer wall of the connection of one feed pipe 23, discharge nozzle 135 is equipped with air inlet 1351；Song Xi mechanism is connected by pipeline and air inlet 1351 It connects.The power source of Song Xi mechanism is compressed air, and Song Xi mechanism is by compressed air by inputting discharge nozzle 135 at air inlet 1351 In, the tin silk in discharge nozzle 135 is sent by the connection of the first feed pipe 23 into tin soldering equipment 2.

Consumptive material used in the utility model is mainly tin roll, and tin roll can be pure tin or leaded tin alloy or containing it The tin alloy of his auxiliary material.

In conjunction with Fig. 1-11, the specific scolding tin process of the present embodiment one is as follows:

In order to improve scolding tin efficiency, before each 2 scolding tin of tin soldering equipment, reserved in the discharge nozzle 135 in tin feeding device 1 A bit of tin silk, for the use of tin soldering equipment 2；

S1, into tin: S1.1, preheating: Song Xi mechanism can continue to input low-pressure air in the first feed pipe 23, in the mistake into tin Cheng Zhong, low-pressure air are heated by not collophore 2433, and low-pressure air is heated into after hot wind to be blown out from spout 24332, hot wind pair Solder joint is preheated.So soldering mechanism 24 can blow out hot wind butt welding point and be preheated while into tin.

S2.1, storage tin: after the tin silk conveying of deposit, tin feeding device 1 can carry out cutting tin automatically, and lay in, for weldering next time Tin uses.The tin process of cutting of tin feeding device 1 includes S1.1.1 and S1.1.2 step.

(S2.1.1, charging: driving into 121 pairs of importing idler wheels 123 of motor in tin mechanism 12, imports 123 turns of idler wheel Quantitative tin silk is sent into shearing mechanism 13 on dynamic ground.

S2.1.2, cutting: tin silk enters in shearing mechanism 13 in upper mold 133, second charging of the tin silk in upper mold 133 It is protruded into hole 1331 in the sliding block 1322 for cutting component 132, sliding block 1322 is driven by actuator 1321, on sliding block 1322 Second feed opening 1331 of the first feed opening 13221 and upper mold 133 generates displacement, so that tin silk is cut, is cut part It falls into discharge nozzle 135, waits next time into tin process.)

S2.2, molten tin: tin silk enters not collophore 2433 from the second feed pipe 242, high because collophore 2433 is not straight pipe The tin silk of speed conveying can be fed directly to stop at the spout 24332 of not collophore 2433 and by pad, and tin silk is in not collophore Melted by heat at 2433 spout 24332.

S3, go out tin: the tin silk under molten condition is directly welded to the solder joint on pad, completes scolding tin process.

Hot wind is to continue to blow out from spout 24332, as long as spout 24332 is directed at solder joint, energy butt welding point is preheated； S2.1 storage tin and the molten tin of S2.2 carry out simultaneously.As a result, by this kind of tin-soldering method, scolding tin efficiency, Neng Gougeng can be improved Reduce to big degree the scolding tin time of the utility model.In order to improve scolding tin quality, weldering can be set in advance at controller Tin amount and scolding tin temperature.

In the present embodiment, heating tube 24313, the parts such as collophore 433 can not be dismantled in installing pipe 2421, convenient In the future to heating tube 24313, collophore 2433 and heat conducting pipe 2432 are not replaced；And in the present embodiment, tin silk can be direct It is sent at the not outlet end of collophore 2433, tin silk melted by heat in outlet end, so that tin silk is welded to pad, scolding tin It is high-efficient.

Embodiment two

In conjunction with attached drawing 12-13, the present embodiment is roughly the same with embodiment one, and difference is, the heating tube in embodiment 24313 and insulating trip 24312 be to be detachably connected, and heating tube 24313 and insulating trip 24312 are fixed connect in the present embodiment It connects.Moreover, the second feed pipe 242 in the soldering mechanism 24 of the present embodiment eliminates 2421 structure of installing pipe of lower end, this reality The second feed pipe 242 applied in example is fixedly set in heating tube 24313.It is additionally provided in the present embodiment with flowering structure:

In the present embodiment, heating component 2431 and the not middle part of collophore 2433 are equipped with identical turn section 2434.Tin In silk transmission process, turn section 2434 can stop tin silk, and tin silk contacts the not inner wall of collophore 2433 and melted rapidly Change, increase the heated time of tin silk, guarantees that tin silk is molten condition before ejection.

Consumptive material used in the utility model is mainly tin silk, and tin silk can be pure tin or leaded tin alloy or containing it The tin alloy of his auxiliary material.

In conjunction with Fig. 1-11, the specific scolding tin process of the present embodiment two is as follows:

The scolding tin process of the present embodiment two and the scolding tin process of embodiment one are roughly the same, and difference is in S2.2 and S3,

S2.2, molten tin: tin silk enters not collophore 2433 from the second feed pipe 242, because of the intermediate position of not collophore 2433 Equipped with turn section 2434, the tin silk of high speed conveying can be by 2434 buffer deceleration of turn section and uniform melt.

S3, go out tin: the Xi Siyin self gravity under molten condition flows out from spout 24332, thus drop at solder joint, Complete scolding tin process.

For embodiment two compared with embodiment one, embodiment increases turn section 2434, and turn section 2434 can be to conveying Tin silk is buffered, and the heated time of tin silk is increased, and guarantees that tin silk is molten condition before flowing out spout 24332.

Can be arranged in embodiment one and embodiment two multiple tin soldering equipments simultaneously/compartment of terrain carries out in the same pad Scolding tin increases the automation effect of the utility model solder system.

The utility model has the following beneficial effects: the utility model passes through setting tin feeding device 1, tin soldering equipment 2 and control Device 3 realizes scolding tin function, controls tin feeding device 1 by control device 3 and tin soldering equipment 2 cooperates.This is practical new Type high frequency solder system can easily be precisely controlled soldering tin amount, scolding tin time, scolding tin temperature during scolding tin, Improve scolding tin quality.Moreover, the metal institute of the not viscous fusing of the use of not collophore 2433 in the utility model, the tin under soft state It is made, so that the tin after molten condition will not the sticky inner wall to not collophore 2433.And, the power source of Song Xi mechanism is compression again Air carries out feeding by way of air blowing, this kind of feeding style is not limited by distance, and without architectural limitation, and practicability is more It is high.

Above-described is only some embodiments of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to practical Novel protection scope.

Claims (10)

1. high frequency solder system, which is characterized in that described including tin feeding device (1), tin soldering equipment (2) and control device (3) Tin feeding device (1) is connect by pipeline with tin soldering equipment (2), the control device (3) and tin feeding device (1), tin soldering equipment (2) It electrically connects；

The tin feeding device (1) is configured to send tin silk into tin soldering equipment (2)；

The tin soldering equipment (2) is configured to melt tin silk and be welded on solder joint；

The control device (3) is configured to control tin feeding device (1) and tin soldering equipment (2).

2. high frequency solder system according to claim 1, which is characterized in that the tin soldering equipment (2) include handle (21), Switch block (22), the first feed pipe (23) and soldering mechanism (24), the switch block (22) are located in handle (21), institute It states the first feed pipe (23) to be located on switch block (22), the soldering mechanism (24) is located at handle (21) one end and and switching group Part (22) cooperation；The soldering mechanism (24) includes shell (241), the second feed pipe (242) and heating inner tube (243), institute State the second feed pipe (242) and heating inner tube (243) be each attached in shell (241), first feed pipe (23), second into Expects pipe (242) and heating inner tube (243) are interconnected.

3. high frequency solder system according to claim 2, which is characterized in that the switch block (22) includes microswitch (221), stop collar (222), push pipe (223) and reset spring (224), the microswitch (221) are located at stop collar (222) Top, the push pipe (223) is slidably disposed on stop collar (222), and one end of the push pipe (223) is equipped with bulge loop (2231), the reset spring (224) is set between bulge loop (2231) and stop collar (222)；First feed pipe (23) It is located in push pipe (223), described first feed pipe (23) one end is stretched out from handle (21) outer wall to be connected with tin feeding device (1) pipeline It connects, the microswitch (221) electrically connects with control device (3).

4. high frequency solder system according to claim 2, which is characterized in that the heating inner tube (243) includes heating group Part (2431) and not collophore (2433), the not collophore (2433) are set in heating component (2431)；The heating component It (2431) include coil group (24311), insulating trip (24312) and heating tube (24313), the coil group (24311) is spiraled Be centered around the outer wall of heating tube (24313), the insulating trip (24312) be set to coil group (24311) and insulating trip (24312) it Between.

5. high frequency solder system according to claim 4, which is characterized in that the not collophore (2433) is straight pipe；Institute The one end for stating the second feed pipe (242) is equipped with installing pipe (2421), and insulating trip (24312) fixing sleeve is set to installing pipe (2421) outside, not collophore (2433) fixing sleeve is set in heating tube (24313), and the heating tube (24313) is removably It is sheathed in installing pipe (2421).

6. high frequency solder system according to claim 4, which is characterized in that the heating component (2431) and not collophore (2433) identical turn section (2434) is equipped in the middle part of.

7. -6 any high frequency solder system according to claim 1, which is characterized in that the tin feeding device (1) includes machine Frame (11), into tin mechanism (12), shearing mechanism (13) and Song Xi mechanism, it is described into tin mechanism (12), shearing mechanism (13) with And Song Xi mechanism is set on rack (11), described to be located above shearing mechanism (13) into tin mechanism (12), the Song Xi mechanism It is connect with shearing mechanism (13) pipeline.

8. high frequency solder system according to claim 7, which is characterized in that it is described into tin mechanism (12) include motor (121), storage rack (122) and importing idler wheel (123), the driving end for importing idler wheel (123) and being fixed on motor (121) Locate, tin roll is placed on the storage rack (122), one end of the tin roll, which passes through, imports idler wheel (123) and shearing mechanism (13) Connection.

9. high frequency solder system according to claim 8, which is characterized in that the shearing mechanism (13) includes mounting plate (131), component (132), upper mold (133) and discharge nozzle (135) are cut, the upper mold (133) cuts component (132) It is arranged on mounting plate (131), the cutting component (132) and upper mold (133) cooperate, and the discharge nozzle (135) is located at It cuts on component (132).

10. high frequency solder system according to claim 9, which is characterized in that the cutting component (132) includes actuator (1321) it is fixed on mounting plate (131) with sliding block (1322), the fixing end of the actuator (1321), the sliding block (1322) It is fixed at the driving end of actuator (1321), the sliding block (1322) is equipped with the first feed opening (13221), the discharge nozzle (135) it being connected to respectively with the first feed opening (13221), the upper mold (133) is equipped with the second feed opening (1331), and described second Feed opening (1331) and the first feed opening (13221) cooperate；One end and the first feed opening (13221) of the discharge nozzle (135) Connection, the other end of the discharge nozzle (135) connect with the first feed pipe (23), the outer wall of the discharge nozzle (135) equipped with into Air port (1351)；The Song Xi mechanism is connect by pipeline with air inlet (1351).