CN208844167U - A kind of guide shaft oil add-on system of tinned wire - Google Patents

Abstract

The utility model provides a kind of guide shaft oil add-on system of tinned wire, and guide shaft oil add-on system includes pressure stabilizing fueller and adding set, and adding set includes oil guide pipe and the component that oils, and guide shaft oil is added dropwise on the component that oils by oil guide pipe for pressure stabilizing fueller.Pressure stabilizing fueller includes oil storage tank, oil supply tank, oil pick-up tube, return pipe and pump, the level height of oil supply tank is greater than the level height of oil storage tank, oil pick-up tube is connected between oil storage tank and oil supply tank, pump is installed in oil pick-up tube, return pipe is connected between oil storage tank and oil supply tank, and mounting height of the return pipe on oil supply tank is concordant with the highest liquid level in oil supply tank.The guide shaft oil add-on system of the utility model realizes automation addition guide shaft oil, and the adding speed of guide shaft oil can be controlled in certain range, reduces manually-operated fault.

Description

A kind of guide shaft oil add-on system of tinned wire

Technical field

The utility model relates to tinned wire production technical field, in particular to the guide shaft oil add-on system of a kind of tinned wire.

Background technique

Tinned wire is a kind of wire rod that a thin layer metallic tin is plated on core wire surface, and core wire is mainly copper wire, this tin plating Line is generally also referred to as tinned wird.Copper wire due to its excellent performance and cheap price, be widely used in electronic information, The fields such as lubrication, catalysis and metallurgy.But copper easily aoxidizes in air, and granularity is thinner, aoxidizes more serious.In order to improve copper Antioxygenic property, can copper surface coat inert metal.Cladding inert metal layer can not only improve the antioxygen of copper more significantly Change performance, and can preferably keep its electric conductivity.Although tin is not belonging to inert metal, property is also sprinkled than work in copper, but under room temperature Tin is very stable in air, because the surface of tin can generate one layer of fine and close oxidation film, tin is prevented to continue to aoxidize.Therefore, copper Electroplating surfaces with tin can improve the inoxidizability of copper to a certain extent.It is the stability of tinned wird, electric conductivity, wearability, anticorrosive Property and electromagnetic wave shielding are all preferable, have a good application prospect.

The production method of tinned wire generally comprise unwrapping wire, annealing, cooling, upper scaling powder, tin plating, cooling, upper leading axle oil and Take-up, wherein the main function of upper leading axle oil be play cleaning copper line surface glass putty, increase lubricity, brightness and Protect copper line surface anti-oxidation etc..Currently, the mode of the upper leading axle oil in tinned wire production is all by brush in undershirt cloth table Face paints guide shaft oil, and for tinned wire after passing through in undershirt cloth, guide shaft oil stays in the surface of tinned wire.The defect of existing method is: Need personnel constantly brush guide shaft oil, great work intensity, if brush guide shaft oil is easy to appear not in time on undershirt cloth on undershirt cloth Guide shaft oil is lacked, it is very few so as to cause the guide shaft oil content in tinned wire；If guide shaft is covered with paint or varnish excessive, guide shaft oil is from undershirt cloth surface It overflows, causes the waste of guide shaft oil.

Summary of the invention

The purpose of the utility model is to provide a kind of guide shaft oil add-on systems for facilitating addition guide shaft oil.

In order to achieve the above-mentioned main objectives, the utility model provides a kind of guide shaft oil add-on system of tinned wire, including steady Press fueller and adding set；Adding set includes oil guide pipe and the component that oils, and pressure stabilizing fueller is upward by oil guide pipe Guide shaft oil is added dropwise on oily component.

As seen from the above technical solution, since pressure stabilizing fueller is able to maintain the stability hydraulic of guide shaft oil, guide shaft oil Rate of addition stablize, the additive amount of consumption and guide shaft oil of the tinned wire through guide shaft oil later from the component that oils is protected Maintain an equal level weighing apparatus, and the guide shaft oil in the component that prevents from oiling adds the defect for causing the guide shaft oil content in tinned wire very few not in time, real Show automatic dripping guide shaft oil, reduces manually-operated fault.

Further embodiment is that pressure stabilizing fueller includes oil storage tank, oil supply tank, oil pick-up tube, return pipe and pump, in plummet On direction, the level height of oil supply tank is greater than the level height of oil storage tank, and oil pick-up tube is connected between oil storage tank and oil supply tank, takes out Pump is installed, return pipe is connected between oil storage tank and oil supply tank, mounting height and confession of the return pipe on oil supply tank on oil pipe Highest liquid level in oil tank is concordant.

As it can be seen that can be by the guide shaft oil in oil storage tank by working as confession in the continual suction oil supply tank of oil pick-up tube by pump When the liquid level of guide shaft oil in oil tank is higher than highest liquid level, it is back in oil storage tank by return pipe, to maintain in oil supply tank Guide shaft oil liquid level always in the position of highest liquid level so that hydraulic holding in oil supply tank is stablized.

Further embodiment is, the oil supply tank is equipped with the first nozzle and the second nozzle, the return pipe and described the The connection of one nozzle, the oil pick-up tube is connect with second nozzle, and on plummet direction, first nozzle is located at described second The top of nozzle.

As it can be seen that the guide shaft in oil supply tank is oily " bottom in and top out ", is conducive to keep liquid level stabilizing, reduces the disturbance of liquid.

Further embodiment is that oil guide pipe includes main flow pipe and isocon, and one end of main flow pipe and pressure stabilizing fueller connect It connects, more isocons are connected on main flow pipe, and guide shaft oil can be added dropwise in isocon on the component that oils.

As it can be seen that can oil simultaneously to multiple components that oil by isocon, production efficiency is improved.

Further embodiment is that tapping valve is provided on main flow pipe, and tapping valve is located to be supplied in first isocon and pressure stabilizing Between oily device.

As it can be seen that can unify to open and close isocon by tapping valve, facilitate the processing of emergency.

Further embodiment is that isocon includes the first isocon and the second isocon, and the first isocon is arranged in mainstream Between pipe and the second isocon, the both ends of the second isocon are provided with the first minim pipette and the second minim pipette, the first minim pipette and Guide shaft oil can be added dropwise in second minim pipette on felt supporting plate.

As it can be seen that passing through the second diffluence of the second isocon, so that guide shaft oil is added dropwise to hair from two different minim pipettes On the different location of felt, guide shaft oil is enabled quickly to soak felt, the portion of felt is prevented to lack guide shaft oil.

Further embodiment is to be provided with the first control on the second isocon between the first minim pipette and the first isocon Valve is provided with the second control valve on the second isocon between the second minim pipette and the first isocon.

As it can be seen that can control the rate of addition of the first minim pipette by the first control valve according to actual needs, pass through second Control valve controls the rate of addition of the second minim pipette.

Further embodiment is that the second isocon is parallel with main flow pipe, and the first isocon is vertical with the second isocon.It is this Set-up mode is conducive to reasonable arrangement space.

It includes felt supporting plate and the felt that is arranged on felt supporting plate that further embodiment, which is the component that oils, oil guide pipe to Guide shaft oil is added dropwise on felt.Felt has good lipophilicity, and guide shaft oil can sufficiently soak felt, is conducive to carry out to tinned wire It oils.

Further embodiment is that adding set further includes catch tray, and felt supporting plate is installed on the collection tray by fixed column, Felt supporting plate is in the upper end opening that the projection of vertical direction is fully located at catch tray.

As it can be seen that can be collected extra guide shaft oil by catch tray, the waste of guide shaft oil is prevented.

Further embodiment is that catch tray has the cross-sectional area being gradually expanded from bottom wall to upper end opening.This structure Be conducive to guide shaft oil stream to enter on the bottom wall of catch tray.

Further scheme is that guide shaft oil add-on system further includes cruise control, and cruise control includes motor and constant speed Wheel, the rotation of motor driven constant speed wheel, on the direction of travel of tinned wire, cruise control is located at the upstream end of adding set.

It can be seen that can control speed of the tinned wire by felt by constant speed wheel, enough guide shafts are obtained in tinned wire While oily, guarantee production efficiency.

Detailed description of the invention

Fig. 1 is the structure chart of the guide shaft oil add-on system embodiment of the utility model.

Fig. 2 is the part-structure enlarged drawing of the guide shaft oil add-on system embodiment Dropping feeder of the utility model.

Fig. 3 is the felt supporting plate of the guide shaft oil add-on system embodiment of the utility model and the top view of catch tray.

Fig. 4 is the felt supporting plate of the guide shaft oil add-on system embodiment of the utility model and the structural exploded view of catch tray.

Fig. 5 is the working principle diagram of the guide shaft oil add-on system embodiment of the utility model.

The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.

Specific embodiment

The utility model provides a kind of guide shaft oil add-on system of tinned wire, including pressure stabilizing fueller and adding set, Adding set includes oil guide pipe and the component that oils, and guide shaft oil is added dropwise on the component that oils by oil guide pipe for pressure stabilizing fueller.By The stability hydraulic of guide shaft oil is able to maintain in pressure stabilizing fueller, therefore the rate of addition of guide shaft oil is stablized, so that tinned wire is from upper It is able to maintain balance through the consumption of guide shaft oil and the additive amount of guide shaft oil later in oily component, the guide shaft in the component that prevents from oiling is oily Add the defect for causing the guide shaft oil content in tinned wire very few not in time.

It is the structure chart of the guide shaft oil add-on system embodiment of the utility model referring to Fig. 1, Fig. 1.Guide shaft oil add-on system Including pressure stabilizing fueller and adding set, adding set includes oil guide pipe and the component that oils.Pressure stabilizing fueller includes oil storage Tank 1, oil supply tank 2, oil pick-up tube 3, return pipe 4 and pump 5, oil storage tank 1 are provided with guide shaft oil.Oil storage tank 1 and oil supply tank 2 are mounted on branch On frame 10, oil storage tank 1 is located at the lower layer of bracket 10, and oil supply tank 2 is located at the upper layer of bracket, i.e. the level height of oil supply tank 2 is greater than The level height of oil storage tank 1, in the present embodiment, oil supply tank 2 is located at the surface of oil storage tank 1.Oil pick-up tube 3 is connected to oil storage tank 1 Between oil supply tank 2, pump 5 is installed in oil pick-up tube 3, the guide shaft oil in oil storage tank 1 is pumped by oil pick-up tube 3 by pump 5 and is supplied In oil tank 2.Return pipe 4 is connected between oil storage tank 1 and oil supply tank 2, and return pipe 4 flows back guide shaft oil extra in oil supply tank 2 To oil storage tank 1.Return pipe 4 is greater than mounting height of the oil pick-up tube 3 on oil supply tank 2, reflux in the mounting height on oil supply tank 2 Pipe 4 is concordant with the highest liquid level in oil supply tank 2 in the mounting height on oil supply tank 2, when the liquid for the guide shaft oil being pumped into oil supply tank 2 When face is higher than the mounting height of return pipe 4, guide shaft oil is back in oil storage tank 1 by return pipe 4.Oil supply tank 2 is equipped with first Nozzle 21 and the second nozzle 22, return pipe 4 are connect with the first nozzle 21, and oil pick-up tube 3 is connect with the second nozzle 22, in plummet direction On, the first nozzle 21 is located at the top of the second nozzle 22.Mounting height of the return pipe 4 on oil supply tank 2 is greater than oil pick-up tube 3 and is supplying Mounting height on oil tank 2, therefore, guide shaft oil is flowed into from the lower end of oil supply tank 2, upper end is flowed out, the side of this " bottom in and top out " The stability hydraulic in oil supply tank 2 is effectively guaranteed in formula.

Pressure stabilizing fueller can also make to obtain pressure stabilizing state in oil supply tank using other modes, such as oil storage tank Level height is greater than the level height of oil supply tank, is connected between oil storage tank and oil supply tank by conduit, conduit will be in oil storage tank In the continuous input oil supply tank of guide shaft oil, keep the output speed of the guide shaft oil in oil supply tank equal with input speed.

Referring to fig. 2, Fig. 2 is the part-structure amplification of the guide shaft oil add-on system embodiment Dropping feeder of the utility model Figure, referring also to Fig. 1, oil guide pipe includes main flow pipe 6 and isocon 7, and one end of main flow pipe 6 is connect with oil supply tank 2, two shuntings Pipe 7 is connected on main flow pipe 6, and the guide shaft oil in oil supply tank 2 is drained in isocon 7 by main flow pipe 6.The present embodiment only discloses The structure that two isocons 7 are arranged on main flow pipe 6 can also be arranged according to actual needs more in other implementations More isocons 7.One end close to oil supply tank 2 is provided with tapping valve 60 on main flow pipe 6, tapping valve 60 is for controlling main flow pipe 6 opening and closing and uninterrupted.In other implementations, tapping valve 60 also can be set in one end close to isocon 7, only Guarantee that (isocon that the guide shaft oil in main flow pipe 6 flows through at first is first shunting to tapping valve 60 positioned at first isocon Pipe) and oil supply tank 2 between.Isocon 7 is provided with isocon 70 in one end far from main flow pipe 6, in the present embodiment, point Flow tube 7 be the first isocon, isocon 70 be the second isocon, guide shaft oil after isocon 7 shunts for the first time, using divide Flow tube 70 carries out second and shunts, and guide shaft oil flows in opposite direction after shunting in isocon 70.In the present embodiment, shunt Pipe 70 is parallel with main flow pipe 6, and isocon 70 is vertical with isocon 7, connects in the middle part of the lower end of isocon 7 and the tube wall of isocon 70 It connects.The both ends of isocon 70 are provided with the first minim pipette 71 and the second minim pipette 72, and isocon 70 is in the first minim pipette 71 and divides The first control valve 73 is provided between flow tube 7, the first control valve 73 controls the guide shaft oil droplet acceleration of the first minim pipette 71；It shunts Pipe 70 is provided with the second control valve 74 between the second minim pipette 72 and isocon 7, and the second control valve 74 controls the second minim pipette 72 guide shaft oil droplet acceleration.The component that oils includes that felt supporting plate 8 and the felt being arranged on felt supporting plate 8 (do not show in figure Out), the lower section of each isocon 7 is placed with a felt supporting plate 8, the nozzle of the first minim pipette 71 and the second minim pipette 72 Guide shaft oil is added dropwise towards the felt on the felt supporting plate 8, controls the rate of addition of the first minim pipette 71 and the second minim pipette 72 For 4-8 seconds/drop.Felt supporting plate 8 is located on catch tray 9, and the guide shaft oil stream overflowed on felt supporting plate 8 enters in catch tray 9.

In other implementations, oiling component can also be using undershirt cloth or other lipophilic material.

On the direction of travel of tinned wire, the upstream end of adding set is additionally provided with cruise control, and cruise control includes electricity Machine 11 and constant speed wheel 12, motor 11 drive constant speed wheel 12 to rotate, and motor 11 can drive constant speed wheel 12 to rotate by belt, can also Constant speed wheel 12 is driven to rotate in a manner of engaging by gear, tinned wire is after constant speed wheel 12 again from the hair on felt supporting plate 8 It is passed through in felt, constant speed wheel 12 carries out constant speed to tinned wire, controls speed of the tinned wire by felt.

It is the felt supporting plate and catch tray of the guide shaft oil add-on system embodiment of the utility model referring to Fig. 3 and Fig. 4, Fig. 3 Top view, Fig. 4 is the felt supporting plate of the guide shaft oil add-on system embodiment of the utility model and the structural exploded view of catch tray. Felt supporting plate 8 is fixedly mounted on catch tray 9 by two support columns 80, and catch tray 9 is the container of upper end opening, catch tray 9 With the cross-sectional area being gradually expanded from bottom wall 90 to upper end opening 91, felt supporting plate 8 is fully located in the projection of vertical direction In the upper end opening 91 of catch tray 9, there is annular gap 81 between felt supporting plate 8 and catch tray 9, when on felt supporting plate 8 When guide shaft oil spill in felt goes out, it can flow into catch tray 9, the guide shaft oil collected in catch tray 9 may be added to that in oil storage tank 1, Reduce the waste of guide shaft oil.

It is the working principle diagram of the guide shaft oil add-on system embodiment of the utility model referring to Fig. 5, Fig. 5.Referring also to Fig. 1 Be described in detail the working principle of the guide shaft oil add-on system of the utility model with Fig. 5: copper successively pass through unwrapping wire, annealing, cooling, on After scaling powder, tin plating and cooling step, upper leading axle oil is carried out in the guide shaft oil add-on system by the utility model, wherein putting Line, annealing, cooling, upper scaling powder, tin plating and cooling step are referred to prior art progress completely, and details are not described herein.

Constant speed wheel 12 is first passed through by tinned wire after cooling to pass through from the felt on felt supporting plate 8 again, tinned wire from It soaks after being passed through in the felt for having guide shaft oil, the surface of tinned wire applies upper leading axle oil, can prevent the surface oxidation of tinned wire, most Carry out take-up again afterwards.During upper leading axle oil, by pump 5 continuously by the guide shaft in the oil storage tank 1 for being located at lower Oil is evacuated in the oil supply tank 2 of eminence, the guide shaft when the liquid level in oil supply tank 2 reaches at highest liquid level 20, in oil supply tank 2 Oil is back in oil storage tank 1 by return pipe 4, and the liquid level in oil supply tank 2 can be kept to be in the position of highest liquid level 20, thus So that the hydraulic holding in oil supply tank 2 is stablized.

After opening the tapping valve 60 on main flow pipe 6, the guide shaft oil in oil supply tank 2 flows to isocon by main flow pipe 6 7, then isocon 70 is flowed to by isocon 7, open the first control valve 73 and the second control valve 74 on isocon 70, isocon Guide shaft oil in 70 is added dropwise on the felt on felt supporting plate 8 from the first minim pipette 71 and the second minim pipette 72, by adjusting the One control valve 73 and the second control valve 74, so that the control of the rate of addition of the first minim pipette 71 and the second minim pipette 72 is 4 to 8 Second/drop can make the guide shaft oil on felt be constantly in wet effect.Hydraulic due to oil supply tank 2 remains stable, Therefore the rate of addition of the first minim pipette 71 and the second minim pipette 72 can remain unchanged, and can satisfy tinned wire upper leading axle oil mistake Guide shaft oil in journey on felt is sufficient, does not need manually to add, and can effectively prevent felt and lacks tinned wire caused by guide shaft oil The problem of upper leading axle shortage of oil.

Certainly, above-described embodiment is only the preferable embodiment of the utility model, and when practical application can also have more Variation, within the spirit and principle of the utility model, any modification, equivalent substitution, improvement and etc. done should be included in In the protection scope of the utility model claims.

Claims (12)

1. a kind of guide shaft oil add-on system of tinned wire, it is characterised in that:

Including pressure stabilizing fueller and adding set；

The adding set includes oil guide pipe and the component that oils, and the pressure stabilizing fueller is oiled by the oil guide pipe to described Guide shaft oil is added dropwise on component.

2. guide shaft oil add-on system according to claim 1, it is characterised in that:

The pressure stabilizing fueller includes oil storage tank, oil supply tank, oil pick-up tube, return pipe and pump, on plummet direction, the fuel feeding The level height of tank is greater than the level height of the oil storage tank；The oil pick-up tube be connected to the oil storage tank and the oil supply tank it Between, the pump is installed in the oil pick-up tube；The return pipe is connected between the oil storage tank and the oil supply tank, and described time Flow tube is concordant with the highest liquid level in the oil supply tank in the mounting height on the oil supply tank.

3. guide shaft oil add-on system according to claim 2, it is characterised in that:

The oil supply tank is equipped with the first nozzle and the second nozzle, and the return pipe is connect with first nozzle, the oil pumping Pipe is connect with second nozzle, and on plummet direction, first nozzle is located at the top of second nozzle.

4. guide shaft oil add-on system according to claim 1, it is characterised in that:

The oil guide pipe includes main flow pipe and isocon, and one end of the main flow pipe is connect with the pressure stabilizing fueller, and more The isocon is connected on the main flow pipe, and guide shaft oil can be added dropwise in the isocon on the component that oils.

5. guide shaft oil add-on system according to claim 4, it is characterised in that:

Tapping valve is provided on the main flow pipe, the tapping valve is located to be filled in first isocon and the pressure stabilizing fuel feeding Between setting.

6. guide shaft oil add-on system according to claim 4, it is characterised in that:

The isocon includes the first isocon and the second isocon, and first isocon setting is in the main flow pipe and described Between second isocon, the both ends of second isocon are provided with the first minim pipette and the second minim pipette, first dropping liquid Guide shaft oil can be added dropwise in pipe and second minim pipette on felt supporting plate.

7. guide shaft oil add-on system according to claim 6, it is characterised in that:

The first control valve is provided on second isocon between first minim pipette and first isocon, it is described The second control valve is provided between second minim pipette and first isocon on second isocon.

8. guide shaft oil add-on system according to claim 6, it is characterised in that:

Second isocon is parallel with the main flow pipe, and first isocon is vertical with second isocon.

9. guide shaft oil add-on system according to claim 1, it is characterised in that:

The component that oils includes felt supporting plate and the felt that is arranged on the felt supporting plate, and the oil guide pipe is to the felt Upper dropwise addition guide shaft oil.

10. guide shaft oil add-on system according to claim 9, it is characterised in that:

The adding set further includes catch tray, and the felt supporting plate is mounted on the catch tray by fixed column, the hair Felt supporting plate is fully located in the upper end opening of the catch tray in the projection of vertical direction.

11. guide shaft oil add-on system according to claim 10, it is characterised in that:

The catch tray has the cross-sectional area being gradually expanded from bottom wall to upper end opening.

12. according to claim 1 to 11 described in any item guide shaft oil add-on systems, it is characterised in that:

The guide shaft oil add-on system further includes cruise control, and the cruise control includes motor and constant speed wheel, and the motor drives Move the constant speed wheel rotation；

On the direction of travel of the tinned wire, the cruise control is located at the upstream end of the adding set.