CN101837495B - Method for sealing shielding can - Google Patents

Abstract

The invention discloses a method for sealing a shielding can, comprising the following steps: providing a shielding can riveted with a connector, wherein an assembling gap is formed between the shielding can and the connector; providing an stannum ring with the shape corresponding to that of the gap; sheathing the stannum ring on the connector to cover the gap between the shielding can and the connector; providing a radio frequency heater connected with an inductance coil; preparing the inductance coil into a shape corresponding to that of the stannum ring; and sheathing the connector in the inductance coil, positioning the stannum ring below the inductance coil, and leading the stannum ring to lean a certain angle relative to the inductance coil, thus the strength of magnetic fields generated by the inductance coil at a region at which the stannum ring is positioned to be almost same. The radio frequency heater electrifies the inductance coil to generate a magnetic field; and the inductance coil is heated and molten in the magnetic field to fill the gap. The method for sealing the shielding can of the invention has good sealing effect and higher qualification rate and production efficiency.

Description

Method for sealing shielding can

Technical field

The present invention relates to machining process, relate more specifically to a kind of method for sealing shielding can.

Background technology

Along with the continuous quickening of social informatization process, various information household appliances such as STB, mobile phone or the like are constantly put on market.The radome that is used for various information household appliances is connected with at least one connector usually, and connector generally is fixed on the radome with the mode of riveting, so the slit has appearred in the junction of connector and radome inevitably.For the sealing that realizes radome to ensure its screening ability preferably, need after connector is fixed in radome, connect place, slit and carry out encapsulation process it.The following dual mode of the general employing of existing encapsulation process:

A kind of sealing means is pure handwork, artificial uses junction that electric iron is welded in connector and radome with scolder (being generally the tin silk) to realize its sealing.This manual welding mode causes face of weld out-of-flatness or not exclusively sealing easily owing to there is individual difference, and qualification rate is low and production efficiency is also low.

Another kind of sealing means is the operation of Reflow Soldering flowing water type, prior to place, the slit between radome and connector spot printing tin cream, then whole radome is put into similar streamline body of heater headed by this welding process, makes the tin cream fusing, reaches the scolding tin effect.Because scolder is to adopt tin cream, it is inhomogeneous and make face of weld out-of-flatness or not exclusively sealing to occur spot printing easily though the sealing mode can be enhanced productivity relatively, and qualification rate is low.In addition, this processing mode places whole radome in the streamline body of heater and transmits, and whole radome is in heated condition in the long period; Be easy to generate magnetization phenomenon; And place the tin material of commissure past dirty, further cause tin material skewness, reduce qualification rate because of the effect of gravity.

Therefore, be necessary to provide the higher method for sealing shielding can of a kind of good sealing effect, qualification rate and production efficiency to overcome above-mentioned defective.

Summary of the invention

The purpose of this invention is to provide the higher method for sealing shielding can of a kind of good sealing effect, qualification rate and production efficiency.

To achieve these goals, the present invention proposes a kind of method for sealing shielding can, and it comprises: the radome that provides riveted joint that connector is arranged forms the assembling slit between said connector and the said radome; Provide and the corresponding Xi Quan of the shape in said slit; With said tin snare on the said connector and cover the slit between said radome and the said connector; The high frequency that is connected with induction coil heater is provided; Said induction coil is processed and the corresponding shape of said tin circle; Said connector is placed in the said induction coil; Make said Xi Quan be positioned at the below of said induction coil, and said relatively induction coil inclination certain angle, thereby the magnetic field that said induction coil is produced is roughly the same in the intensity of said Xi Quan region; To produce magnetic field, said Xi Quan is heated fusing and fills said slit said high frequency heater in said magnetic field to said induction coil energising.

Preferably, the angle ranging from 2 ° to 35 ° the scope.Form an appropriate tilt angle so that the heat that is distributed on the Xi Quan is basic identical between induction coil plane, place and the plane, said Xi Quan place, Xi Quan can reach fusing basically simultaneously, further improves welding effect.

Preferably, said tin snare was also being comprised before said connector: scaling powder is added in the junction at said connector and said radome.The interpolation of scaling powder can further improve welding efficiency and welding performance.

Preferably, method for sealing shielding can also comprises: said radome is cooled off with fan normal temperature in Xi Quan fusing back.

Compared with prior art, method for sealing shielding can of the present invention adopts the Xi Quan corresponding with the connector profile as scolder, and the tin snare is in covering slit on the radome on the connector exactly with the smooth of assurance face of weld and the complete sealing of welding.In addition, adopt the high frequency heater that is provided with induction coil that Xi Quan is partly evenly heated, reduce heated perimeter and avoid radome to produce magnetization phenomenon, further improve qualification rate and productivity ratio.

Through following description and combine accompanying drawing, it is more clear that the present invention will become, and these accompanying drawings are used to explain embodiments of the invention.

Description of drawings

In order to be illustrated more clearly in the technical scheme of the embodiment of the invention; To do to introduce simply to the accompanying drawing of required use among the embodiment below; Obviously, the accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work property, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the flow chart of an embodiment of method for sealing shielding can of the present invention.

Fig. 2 is the flow chart of another embodiment of method for sealing shielding can of the present invention.

Fig. 3 is for adopting a view of method for sealing shielding can processing radome of the present invention.

Fig. 4 is for adopting another view of method for sealing shielding can processing radome of the present invention.

Fig. 5 is the part enlarged drawing of view shown in Figure 4.

The specific embodiment

To combine the accompanying drawing in the embodiment of the invention below, the technical scheme among the embodiment is carried out clear, intactly description, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the present invention's protection.

See also Fig. 1, the invention provides a kind of method for sealing shielding can, it may further comprise the steps:

S101: the radome that provides riveted joint that connector is arranged forms the assembling slit between said connector and the said radome;

S102: provide and the corresponding Xi Quan of the shape in said slit;

S103: with said tin snare on the said connector and cover the slit between said radome and the said connector;

S104: the high frequency that is connected with induction coil heater is provided; Said induction coil is processed and the corresponding shape of said tin circle; Said connector is placed in the said induction coil; Make said Xi Quan be positioned at the below of said induction coil, and said relatively induction coil inclination certain angle, thereby the magnetic field that said induction coil is produced is roughly the same in the intensity of said Xi Quan region;

S105: to produce magnetic field, said Xi Quan is heated fusing and fills said slit said high frequency heater in said magnetic field to said induction coil energising.

Below describe preferred embodiment of method for sealing shielding can of the present invention in detail.

See also Fig. 2-5, method for sealing shielding can of the present invention may further comprise the steps:

S201: the radome 10 that provides riveted joint that connector 20 is arranged forms the assembling slit between said connector 20 and the said radome 10.

S202: provide and the corresponding tin circle 30 of the shape in said slit.

S203: add scaling powder in the said connector 20 and the junction of said radome 10.

S204: said tin circle 30 is placed on the said connector 20 and covers the slit between said radome 10 and the said connector 20.

S205: the high frequency heater 50 that is connected with induction coil 40 is provided; Said induction coil 40 is processed and said tin circle 30 corresponding shapes; Said connector 20 is placed in the said induction coil 40; Make said tin circle 30 be positioned at the below of said induction coil 40, and said relatively induction coil 40 inclination certain angles, thereby the magnetic field that said induction coil 40 is produced is roughly the same in the intensity of said tin circle 30 regions.Particularly, the angle that tilts with respect to said induction coil 40 of said tin circle 30 is the included angle A between the axis 31 of axis 41 and said tin circle 30 of said induction coil 40.Preferably, said included angle A is in 2 ° to 35 ° the scope.In this specific embodiment, said included angle A value is 16 °.

S206: 50 pairs of said induction coil 40 energisings of said high frequency heater are to produce magnetic field, and said tin circle 30 is heated fusing and fills said slit in said magnetic field.

S207: said radome 10 is cooled off with fan normal temperature in tin circle 30 fusing backs.

Radome 10 encapsulating methods of the present invention have added scaling powder so that further improve welding efficiency and welding performance in process.Adopt tin circle 30 as scolder, it is placed in the slit that can cover exactly after the connector 20 on the radome 10 to guarantee the complete sealing of the smooth of face of weld and welding.High frequency heater 50 heats through 40 pairs of tin circles 30 of induction coil, and heated perimeter is concentrated, and makes tin circle 30 to melt fast, and welding effect is better.Wherein, induction coil 40 is that tin circle 30 is carried out eddy-current heating, and induction coil 40 does not directly contact tin circle 30, but through electromagnetic induction electrical energy transfer to tin circle 30, electric energy is a heat energy at tin circle 30 inner transformations then, thus tin circle 30 has been melted.Distance between the conduction time of induction coil 40 and itself and the tin circle 30 all can influence the heat that produces on the tin circle 30, and longer or induction coil 40 is the closer to tin circle 30 when 40 conduction times of induction coil that are positioned at tin circle 30 tops, and tin circle 30 melts soon more.In this specific embodiment; Compare its opposite side near high frequency heater 50 1 sides in each circle of induction coil 40 and feed electric current more earlier; Caused induction coil 40 to compare its opposite side and conducted heat sooner,, made said tin circle 30 with respect to said induction coil 40 inclination certain angles in order to remedy the defective of this skewness near high frequency heater 50 1 sides; Form feasible slower induction coil 40 1 sides of conducting heat of suitable angle between the axis of the axis of said induction coil 40 and said tin circle 30 more near tin circle 30; Thereby make that the heat that is distributed on the tin circle 30 is basic identical, tin circle 30 can reach fusing basically simultaneously, further improves welding effect.

Compared with prior art; Method for sealing shielding can of the present invention adopts the tin circle 30 corresponding with connector 20 profiles as scolder, and tin circle 30 is placed in the slit that can cover exactly on the connector 20 on the radome 10 with the smooth of assurance face of weld and the complete sealing of welding.In addition, adopt 50 pairs of tin circle 30 parts of high frequency heater that are provided with induction coil 40 evenly to heat, reduce heated perimeter and avoid radome 10 to produce magnetization phenomenon, further improve qualification rate and productivity ratio.

Need to prove that above-mentioned each step of radome 10 encapsulating methods of the present invention is not limited to the order of foregoing description, can change according to the concrete operations needs.Other step of radome 10 encapsulating methods of the present invention and the principle of high frequency heater 50 are well known to those of ordinary skill in the art, no longer do detailed explanation at this.

Invention has been described more than to combine most preferred embodiment, but the present invention is not limited to the embodiment of above announcement, and should contain various modification, equivalent combinations of carrying out according to essence of the present invention.

Claims (4)

1. a method for sealing shielding can is characterized in that, comprising:

The radome that provides riveted joint that connector is arranged forms the assembling slit between said connector and the said radome; Provide and the corresponding Xi Quan of the shape in said slit;

With said tin snare on the said connector and cover the slit between said radome and the said connector;

The high frequency that is connected with induction coil heater is provided; Said induction coil is processed and the corresponding shape of said tin circle; Said connector is placed in the said induction coil; Make said Xi Quan be positioned at the below of said induction coil, and said relatively induction coil inclination certain angle, thereby the magnetic field that said induction coil is produced is roughly the same in the intensity of said Xi Quan region;

To produce magnetic field, said Xi Quan is heated fusing and fills said slit said high frequency heater in said magnetic field to said induction coil energising.

2. method for sealing shielding can according to claim 1 is characterized in that: the angle ranging from 2 ° to 35 ° the scope.

3. method for sealing shielding can according to claim 1 is characterized in that, said tin snare was also being comprised before said connector: scaling powder is added in the junction at said connector and said radome.

4. method for sealing shielding can according to claim 1 is characterized in that, also comprises: said radome is cooled off with fan normal temperature in Xi Quan fusing back.

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