CN203401180U - Induction welding device - Google Patents
Induction welding device Download PDFInfo
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- CN203401180U CN203401180U CN201320462645.8U CN201320462645U CN203401180U CN 203401180 U CN203401180 U CN 203401180U CN 201320462645 U CN201320462645 U CN 201320462645U CN 203401180 U CN203401180 U CN 203401180U
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- moving device
- ferrite
- auxiliary moving
- welding
- controller
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Abstract
The utility model discloses an induction welding device which comprises at least one ferrite assembly, at least one auxiliary moving device and a controller. The ferrite assembly comprises a pair of ferrites. A coil winding is wound on the pair of ferrites, one end of each ferrite is installed on the auxiliary moving device and the other end of each ferrite is a welding contact portion. The coil winding is connected with the controller. In welding, a welded product is arranged between the two ferrites and the controller is used for moving the auxiliary moving device, so that the ferrites move to the product to be welded until the welding contact portions are in contact with the product to be welded. The coil winding is electrified to generate a high-frequency current magnetic field. Tin can be heated in extremely short time and welding is finished. The working efficiency is greatly improved. Compared with a traditional manner, electric energy is effectively saved, welding time is saved, welding operation is simple and manufacturing cost of the device is extremely low.
Description
Technical field
The utility model relates to welding equipment, particularly a kind of induction welding equipment.
Background technology
Induction welding equipment is that a kind of electromagnetic induction that utilizes makes the tin heating between the magnetic line of force that wire conductor is welded in to the welding equipment on connector, when the welding position of wire conductor and connector is welded, adopt the molten tin welding method of high-frequency induction heating to realize welding, the magnetic field changing by high frequency generates heat the welding position generation current vortex of wire conductor, tin and connector, after tin is cooling, the welding position of wire conductor and connector is combined, finally realize the welding processing of wire conductor and connector.
Existing a kind of welding manner is the mode that is permanently connected to heating welding, and this welding manner heat time is long, must cause the waste of electric energy.Existing another kind of welding manner adopts U-shaped structure winding away from the contactless welding of welding position, and while welding single connector, the cycle is required to be more than 10 seconds, and its welding efficiency is low, and bad ratio defective product is high, and automatic welding is difficult for reaching.In addition, the associated production welding equipment that uses other method to manufacture, its cost is high, and industry is promoted difficult, and is difficult to realize welding operation together with the assembly of a plurality of wire conductors and connector body, gives and brings in the industry puzzlement.
In view of this, the utility model provides a kind of induction welding equipment.
Summary of the invention
In view of above-mentioned the deficiencies in the prior art part, the purpose of this utility model is to provide a kind of induction welding equipment, to solve the problem that prior art welding efficiency is low.
In order to achieve the above object, the utility model has been taked following technical scheme:
An equipment, it comprises: at least one ferrite group, at least one auxiliary moving device and controller; Described ferrite group comprises a pair of ferrite, on described a pair of ferrite, is wound with a coil windings, and described ferritic one end is installed on described auxiliary moving device, and the ferritic other end is welding contact site; Described coil windings connects described controller.
In described induction welding equipment, described ferrite group and auxiliary moving device are more than two.
In described induction welding equipment, described auxiliary moving device is electronic mobile device or pneumatic transfer devices.
In described induction welding equipment, described controller comprises the action control module moving for controlling described auxiliary moving device, and described action control module connects described auxiliary moving device.
In described induction welding equipment, described controller also comprises for regulating the power conditioning module of bonding power and for driving the driver module of described coil windings, described power conditioning module, driver module and coil windings are connected successively.
An equipment, it comprises: at least one ferrite group, at least one auxiliary moving device and controller; Described ferrite group comprises a pair of ferrite, is all wound with a coil windings on each ferrite, and described ferritic one end is installed on described auxiliary moving device, and the ferritic other end is welding contact site; Described coil windings connects described controller.
In described induction welding equipment, described ferrite group and auxiliary moving device are more than two.
In described induction welding equipment, described auxiliary moving device is electronic mobile device or pneumatic transfer devices.
In described induction welding equipment, described controller comprises the action control module moving for controlling described auxiliary moving device, and described action control module connects described auxiliary moving device.
In described induction welding equipment, described controller also comprises for regulating the power conditioning module of bonding power and for driving the driver module of described coil windings, described power conditioning module, driver module and coil windings are connected successively.
Compared to prior art, the induction welding equipment that the utility model provides, when welding, welding product is placed between two ferrites, by controller, auxiliary moving device is moved, and ferrite is moved to product to be welded, until welding contact site contacts product to be welded, make again coil windings energising produce high frequency electric magnetic field, make the welding of being heated of tin between the magnetic line of force within the extremely short time, improved greatly operating efficiency.It is compared with traditional approach, effectively saved electric energy, saved weld interval, and welding operation is simple, equipment manufacturing cost is extremely low.
Accompanying drawing explanation
The structural representation of the induction welding equipment that Fig. 1 provides for the utility model one preferred embodiment.
The specific embodiment
The utility model provides a kind of induction welding equipment, for making the purpose of this utility model, technical scheme and effect clearer, clear and definite, referring to the accompanying drawing embodiment that develops simultaneously, the utility model is further described.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.
The induction welding equipment that the utility model provides has multiple implementation, refers to Fig. 1, the structural representation of the induction welding equipment that it provides for the utility model one preferred embodiment.As shown in Figure 1, described induction welding equipment comprises: at least one ferrite group (not marking in figure), at least one auxiliary moving device 20 and controller 30.Wherein, described auxiliary moving device 20 is for controlling ferrite group transverse shifting, and described controller 30 produces the magnetic line of force for controlling ferrite group, and controls auxiliary moving device 20 and carry out move operation.
In the present embodiment, described ferrite group comprises a pair of ferrite 10, one end of described ferrite 10 is installed on described auxiliary moving device 20, the other end of ferrite 10 is welding contact site 102, and the welding contact site 102 of this pair of ferrite 10 is oppositely arranged, thereby can clamp welding product, and can realize welding product cutting magnetic line.
Correspondingly, the corresponding left and right two parts that are divided into of described auxiliary moving device 20, are above-mentioned a pair of ferrite 10 for controlling two ferrite 10() separate and close up.If the solid arrow direction in Fig. 1 is that while closing up, auxiliary moving device 20 is controlled the direction that ferrite 10 moves, dotted arrow direction is that while separating, auxiliary moving device 20 is controlled the direction that ferrites 10 move.
In the present embodiment, on described a pair of ferrite 10, be wound with a coil windings 101, described coil windings 101 connects described controller 30.Particularly, on this pair of ferrite 10, be wound around a coil windings 101, the lead-in wire at coil windings 101 two ends connects respectively two splicing ears (not marking in figure) of controller 30.In other embodiments, on described a pair of ferrite 10, also a coil windings 101 can be respectively set, two coil windings 101 be composed in series after a coil, then connect controller 30.The utility model is not restricted the quantity of coil windings and building form, as long as can make to produce the magnetic line of force in ferrite 10 after coil windings 101 energisings.
Connect with welding device main body 40 and wire conductor 50 for example, the welding contact site 102 of this pair of ferrite 10 is symmetrical placement centered by connector body 40, so that auxiliary moving device 20 is controlled the mobile distance of left and right part while moving, equates.When welding, tin on the welding position of connector body 40 401 need are first pre-, the assembly of the welding position 401 of wire conductor 50 and connector body 40 is placed on to two ferrites 10 middle, by controller 30, sending control signal afterwards makes auxiliary moving device 20 move two ferrites 10 are closed up by the solid arrow direction of Fig. 1, until welding contact site 102 trolley wire conductors 50, then by controller 30 output high frequency electrics, make coil windings 101 produce high frequency electric magnetic field, between this pair of ferrite 10, form magnetic force money, thereby make the welding position 401 of connector body 40 produce current vortex, make the middle tin rapid melting of the magnetic line of force, thereby make wire conductor 50 together with connector body 40 rapid welding, after welding completes, controller 30 control auxiliary moving devices 20 move by the dotted arrow direction of Fig. 1, make two ferrites 10 separately, take out the product having welded.
The induction welding equipment that the utility model the provides heating of switching within the extremely short time can reach effective temperature and complete welding within a second, is applicable to the welding of single wire conductor 50 and connector body 40 assemblys.In order further to increase work efficiency, described ferrite group and auxiliary moving device 20 are more than two, thereby can once to two or more products, weld simultaneously, have further improved production efficiency, the production cost that has reduced induction welding equipment, has improved market competitive power.
In the utility model embodiment, described auxiliary moving device 20 is electronic mobile device or pneumatic transfer devices.Described pneumatic transfer devices includes but not limited to cylinder, sends a control signal cylinder is moved by controller 30.Because the technology of the pneumatic transfer devices such as current electronic mobile device and cylinder is very ripe, the utility model is not described in detail this.
Further, described controller 30 comprises the action control module (not shown) moving for controlling described auxiliary moving device 20, described action control module connects described auxiliary moving device 20, for sending action signal, to auxiliary moving device 20, controls its execution.
Further, described controller 30 also comprises for regulating the power conditioning module (not shown) of bonding power and for driving the driver module (not shown) of described coil windings 101, described power conditioning module, driver module and coil windings 101 are connected successively.This power conditioning module arranges different frequencies and power according to actual welding product, and described driver module consists of bridge circuit, and drive coil winding 101 produces magnetic field.Because the technology of power conditioning module and driver module is comparatively ripe, be not described further herein.
The induction welding equipment that another preferred embodiment of the present utility model provides comprises: at least one ferrite group, at least one auxiliary moving device and a controller.Described ferrite group comprises a pair of ferrite, and described ferritic one end is installed on described auxiliary moving device, and the ferritic other end is welding contact site.The difference of the present embodiment and above-described embodiment is only to be all wound with on each ferrite a coil windings, and described coil windings all connects described controller.Can be regarded as: in the present embodiment, be all wound with a coil windings on each ferrite, and two coil windings all connect controller, two coils adopt mode in parallel to connect controller herein.
Because the other parts (as the concrete structure of the concrete structure of the quantity of ferrite group and auxiliary moving device, action control module, driver module, operation principle etc.) of the induction welding equipment of the present embodiment are same as the previously described embodiments, repeat no more herein.
In sum, the induction welding equipment that the utility model provides, by controller, making auxiliary moving device control ferrite moves to product to be welded, make to weld contact site and contact product to be welded, and make coil windings energising produce high frequency electric magnetic field by controller, it can make the tin welding of being heated of switching within the extremely short time, has improved greatly operating efficiency.Its compared with prior art, the utility model can complete welding within the time of 1 second, its solder joint is even, simple to operate, and whole welding equipment simple in structure, equipment manufacturing cost is extremely low, is applicable to industrial automation and produces, be applicable to promoting the use of.
In addition, the utility model is used plural ferrite group, can be precisely to a plurality of products row weld job simultaneously, further improved operating efficiency, further improved the market competitiveness of induction welding equipment.
Be understandable that; for those of ordinary skills; can be equal to replacement or change according to the technical solution of the utility model and utility model design thereof, and all these changes or replacement all should belong to the protection domain of the appended claim of the utility model.
Claims (10)
1. an induction welding equipment, is characterized in that, comprising: at least one ferrite group, at least one auxiliary moving device and controller; Described ferrite group comprises a pair of ferrite, on described a pair of ferrite, is wound with a coil windings, and described ferritic one end is installed on described auxiliary moving device, and the ferritic other end is welding contact site; Described coil windings connects described controller.
2. induction welding equipment according to claim 1, is characterized in that, described ferrite group and auxiliary moving device are more than two.
3. induction welding equipment according to claim 1 and 2, is characterized in that, described auxiliary moving device is electronic mobile device or pneumatic transfer devices.
4. induction welding equipment according to claim 3, is characterized in that, described controller comprises the action control module moving for controlling described auxiliary moving device, and described action control module connects described auxiliary moving device.
5. induction welding equipment according to claim 4, it is characterized in that, described controller also comprises for regulating the power conditioning module of bonding power and for driving the driver module of described coil windings, described power conditioning module, driver module and coil windings are connected successively.
6. an induction welding equipment, is characterized in that, comprising: at least one ferrite group, at least one auxiliary moving device and controller; Described ferrite group comprises a pair of ferrite, is all wound with a coil windings on each ferrite, and described ferritic one end is installed on described auxiliary moving device, and the ferritic other end is welding contact site; Described coil windings connects described controller.
7. induction welding equipment according to claim 6, is characterized in that, described ferrite group and auxiliary moving device are more than two.
8. according to the induction welding equipment described in claim 6 or 7, it is characterized in that, described auxiliary moving device is electronic mobile device or pneumatic transfer devices.
9. induction welding equipment according to claim 8, is characterized in that, described controller comprises the action control module moving for controlling described auxiliary moving device, and described action control module connects described auxiliary moving device.
10. induction welding equipment according to claim 9, it is characterized in that, described controller also comprises for regulating the power conditioning module of bonding power and for driving the driver module of described coil windings, described power conditioning module, driver module and coil windings are connected successively.
Priority Applications (1)
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CN201320462645.8U CN203401180U (en) | 2013-07-31 | 2013-07-31 | Induction welding device |
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CN201320462645.8U CN203401180U (en) | 2013-07-31 | 2013-07-31 | Induction welding device |
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CN203401180U true CN203401180U (en) | 2014-01-22 |
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CN201320462645.8U Expired - Fee Related CN203401180U (en) | 2013-07-31 | 2013-07-31 | Induction welding device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109243805A (en) * | 2018-10-22 | 2019-01-18 | 江苏盛久变压器有限公司 | A kind of transformer coil docking facilities |
-
2013
- 2013-07-31 CN CN201320462645.8U patent/CN203401180U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109243805A (en) * | 2018-10-22 | 2019-01-18 | 江苏盛久变压器有限公司 | A kind of transformer coil docking facilities |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140122 Termination date: 20160731 |
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CF01 | Termination of patent right due to non-payment of annual fee |