CN203386920U - Riveting terminal equipped with buttonhole mechanism - Google Patents
Riveting terminal equipped with buttonhole mechanism Download PDFInfo
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- CN203386920U CN203386920U CN201220752034.2U CN201220752034U CN203386920U CN 203386920 U CN203386920 U CN 203386920U CN 201220752034 U CN201220752034 U CN 201220752034U CN 203386920 U CN203386920 U CN 203386920U
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- cramp
- antenna
- wire clamp
- buttonhole
- button hole
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Abstract
Provided is a riveting terminal equipped with a buttonhole mechanism. The terminal is combined between a coaxial wire and an antenna and includes a wire clamp unit, and the wire clamp unit is provided with a first wire clamp and a second wire clamp, so that the terminal can be riveted with a central conductor of the coaxial wire directly via the first wire clamp and riveted with an external conductor of the coaxial wire directly via the second wire clamp; and a buckle piece unit is also included, the wire clamp unit is connected with the buckle piece unit which is provided with a first buckle piece and a second buckle piece, the first buckle piece is provided with at least one first buckle hole and connected to the first wire clamp, and the second buckle piece is provided with at least one second buckle hole and connected to the second wire clamp; and the terminal is directly riveted to a signal area of the antenna via the first buckle piece and riveted to a grounding area of the antenna via the second buckle piece, and the coaxial wire and the antenna are directly integrated via the terminal.
Description
Technical field
A kind of riveted joint terminal, espespecially a kind of riveted joint terminal with buttonhole mechanism in order to coaxial cord and antenna directly are combined as a whole.
Background technology
Common notebook computer (Notebook in the market, NB), mobile phone (Mobile Phone), panel computer (Tablet PersonalComputer), personal digital assistant (Personal Digital Assistant, PDA) etc. mobile communication device is limit by space and can only be adopted built-in antenna (EmbeddedAntenna), and, along with the trend of compactization of mobile communication device, the downsizing of its built-in antenna has been trend.
The combination of the existing antenna of industry and coaxial cord, can generally be divided into and adopt welding or non-welding, as play two kinds of engineering methods such as pin type connector (POGOpinconnector) or elastic sheet connector, below two kinds of engineering methods coordinate the antenna part material of built-in antennas commonly used at this point, for the combination of itself and coaxial cord, describe respectively:
Antenna P1 as shown in the figure 34 is metalwork antenna (Stamped MetalAntennas), between antenna P1 and coaxial cord C in conjunction with mainly be still with contact, be welded as large, and antenna P2 is PCB antenna (Printed Circuit BoardAntennas as shown in the figure 35, PCBAntennas), its contact of antenna P2 is to adopt the welding engineering method to be combined with coaxial cord equally.
Flexible printed wiring board antenna (Flexible Printed CircuitBoardAntennas, FPCAntennas) be the antenna P3 shown in the 36th figure, antenna P3 is that mat bullet pin type connector P31 is combined with coaxial cord, and separately in the 37th figure, antenna P3 demonstration is combined with coaxial cord with spring-piece type connector P32.
Because compactization of mobile communication device has been trend, built-in antenna to put space seriously limited, how to improve between existing antenna and coaxial cord in conjunction with engineering method or structure, the further volume of built-in antenna and increase the degree of freedom that antenna is put in limited space in mobile communication device in the reduction mobile communication device, to meet existing market trend, it is the problem of industry utmost point wish solution at present.
Moreover, antenna is combined with coaxial cord and is adopted the welding engineering method, though can save the volume of mat connector combination, but because of global environmental consciousness surging, for reaching comprehensive unleaded requirement, the existing solder bond mode of built-in antenna certainly will be substituted gradually, therefore the research and development of unleaded engineering method and products thereof are all the problem of current industry institute utmost point wish solution.
Summary of the invention
In view of this, inventor system is improved commonly using the terminal structure of being combined with antenna, a kind of riveted joint terminal with buttonhole mechanism is provided, this terminal is in order to be incorporated between a coaxial electric wire and an antenna, the technical adopted comprises a wire clamp unit, this wire clamp unit has one first wire clamp and one second wire clamp, for this terminal, by this first wire clamp, directly with the riveted joint of one of this coaxial cord center conductor, be integrated, this second wire clamp of mat directly and one of this coaxial cord external conductor rivet and be integrated; One cramp unit, this cramp unit has one first cramp and one second cramp, there is at least one the first button hole on this first cramp and be connected in this first wire clamp, there is at least one the second button hole on this second cramp and be connected in this second wire clamp, this terminal directly is riveted on one of this antenna signal area with this first cramp, this second cramp of mat directly is riveted on one of this antenna ground area, and this coaxial cord and this antenna directly are combined as a whole by this terminal.
This first wire clamp more includes one and carries folder section, and this first wire clamp is carried folder section by this and is connected with this first cramp, makes the distance between this first wire clamp open bottom and this first cramp be greater than distance between this second wire clamp and this second cramp.
This wire clamp unit more includes one the 3rd wire clamp, and this terminal is directly riveted and is integrated with one of this coaxial cord outer insulator by the 3rd wire clamp.
The 3rd wire clamp is connected in this second cramp.
This signal area is to being provided with one first perforate in the first button hole position, and to should the first button hole and this first perforate insert one first buttonhole part, and broken this first buttonhole part of riveting is combined closely this signal area and this first cramp.
This first buttonhole part by contraposition place of this first button hole and this first perforate wherein a side enter.
The one that this first buttonhole part is solid or hollow body.
This ground area is to being provided with one second perforate in the second button hole position, and to should the second button hole and this second perforate insert one second buttonhole part, and broken this second buttonhole part of riveting is combined closely this ground area and this second cramp.
This second buttonhole part by contraposition place of this second button hole and this second perforate wherein a side enter.
The one that this second buttonhole part is solid or hollow body.
This first button hole is extended with one first button cylinder, this signal area is to being provided with one first perforate in the first button hole position, this first cramp is combined in this first perforate with this first button cylinder correspondence, and broken this first button cylinder of riveting is combined closely this signal area and this first cramp.
This first button cylinder is hollow, and has at least one first sheet.
This first button cylinder is provided with at least always ditch section in its end.
The second button hole is extended with one second button cylinder, this ground area is to being provided with one second perforate in the second button hole position, this second cramp is combined in this second perforate with this second button cylinder correspondence, and broken this second button cylinder of riveting is combined closely this ground area and this second cramp.
This second button cylinder is hollow, and has at least one second sheet.
This second button cylinder is provided with at least always ditch section in its end.
This antenna is covered with altogether riveting sheet, and this common riveting sheet is to should the first button hole with this second button hole, being provided with one first rivet hole and one second common rivet hole altogether, for this common riveting sheet and this antenna in the lump directly riveted joint be incorporated into this terminal.
This first button hole and this second button hole are covered with respectively altogether riveting sheet, and separately to should the first button hole with this second button hole, being provided with one first rivet hole and one second common rivet hole altogether, for this common riveting sheet and this antenna in the lump directly riveted joint be incorporated into this terminal.
This antenna is that metalwork antenna, flexible printed wiring board antenna or PCB antenna are wherein a kind of.
This antenna to should the first button hole and this second button hole be respectively equipped with one first buttonhole and one second buttonhole, this first cramp and this second cramp directly are riveted on this antenna.
This first cramp is connected in one first material strip, for the automatic feed operation.
This second cramp is connected in one second material strip, for the automatic feed operation.
Between this first cramp and this second cramp, with a bridge-jointing unit, join, this bridge-jointing unit is respectively at this first cramp joint with the second cramp joint, respectively being provided with one first broken line and one second broken line.
This first cramp is connected in one first material strip, and for the automatic feed operation, and this first material strip is connected in this bridge-jointing unit, and this bridge-jointing unit is connected broken line in this first material strip joint, being provided with one.
This second cramp is connected in one second material strip, and for the automatic feed operation, and this second material strip is connected in this bridge-jointing unit, and this bridge-jointing unit is connected broken line in this second material strip joint, being provided with one.
This bridge-jointing unit is extended with a lifting ear section, and this lifting ear section is provided with a lifting ear hole.
Aforementioned technological means provided by the present invention has following advantages compared to prior art:
Terminal in this creation is combined the welding manner that non-employing is commonly used with coaxial cord because of it, can avoid the lead or other heavy metal pollution problems that are caused because of welding in located by prior art, for a kind of leadless process, and do not adopt and commonly use welding manner and be combined with coaxial cord, make its material range of choice degree of freedom large, so long as metal material is all available, and can remove the plating pollution problem from simultaneously.
Moreover, as coordinated with the coaxial cord of Halogen and rivet and be combined as a whole in the lump, in the situation that is combined with antenna, more can be made into the Environmental protection antenna of lead-free and halogen-free, meet at present and stipulate as environmental protections such as the RoHS of European Union in the world, commonly use the solder bond mode of tool contaminative with replacement.
Terminal in this creation is because improveing as separately directly antenna and coaxial cord riveted being integrated by its cramp and wire clamp, can omit existing antenna in order to the bullet pin to the coaxial cord combination, spring-piece type connector and relevant circuit board thereof, except reducing costs, further reach the effect of built-in antenna volume in the reduction mobile communication device.
The accompanying drawing explanation
The 1st figure shows that this creates the first embodiment stereogram;
The 2nd figure shows that this creates the use decomposing schematic representation of the first embodiment;
The 3rd figure shows that this creates the double material strips terminal schematic perspective view of the first embodiment;
The 4th figure shows that this creates another two-piece type terminal stereogram (one) of the first embodiment;
The 5th figure shows that this creates another two-piece type terminal stereogram (two) of the first embodiment;
The 6th figure shows that this is created in the first embodiment to beat the schematic perspective view of holding operation;
The 7th figure shows that this creates the schematic perspective view that in the first embodiment, location is inserted;
The 8th figure shows that this creates the schematic perspective view that removes bridge-jointing unit in the first embodiment;
The 9th figure shows that this creates the schematic perspective view that is positioned antenna in the first embodiment;
The 10th figure shows that this creates the schematic perspective view of the first embodiment and antenna riveted joint;
The 11st figure shows that this creates contraposition in the first embodiment and insert the generalized section of buttonhole part;
The 12nd figure shows that this creates the generalized section of the broken buttonhole part of riveting in the first embodiment;
The 13rd figure shows that this creates the schematic perspective view of the broken buttonhole part of riveting in the first embodiment;
The 14th figure shows that this creates the schematic perspective view that is covered with common riveting sheet in the first embodiment;
The 15th figure shows that this creates in the first embodiment together the riveting sheet broken schematic perspective view of riveting in the lump;
The 16th figure is the generalized section that shows the 15th figure embodiment;
The 17th figure shows that this creates another button hole position schematic perspective view (one) of the first embodiment;
The 18th figure shows that this creates another button hole position schematic perspective view (two) of the first embodiment;
The 19th figure shows that this creates the second embodiment stereogram;
The 20th figure shows that this creates the use decomposing schematic representation of the second embodiment;
The 21st figure shows that this creates the schematic perspective view of button cylinder in the second embodiment;
The 22nd figure shows that this creates another button barrel structure schematic perspective view () of the second embodiment;
The 23rd figure shows that this creates another button barrel structure schematic perspective view (two) of the second embodiment;
The 24th figure shows that this creates the schematic perspective view of location movement in the second embodiment;
The 25th figure shows that this creates the schematic perspective view that is positioned antenna in the second embodiment;
The 26th figure shows that this creates the schematic perspective view of the second embodiment and antenna riveted joint;
The 27th figure shows that this creates the exploded view that the first embodiment is incorporated into the metalwork antenna;
The 28th figure shows that this creates the stereogram that the first embodiment is incorporated into the metalwork antenna;
The 29th figure shows that this creates the stereogram that the second embodiment is incorporated into the metalwork antenna;
The 30th figure is that another that show that this creates the second embodiment is incorporated into the exploded view of metalwork antenna;
The 31st figure is that another that show that this creates the second embodiment is incorporated into the stereogram of metalwork antenna;
The 32nd figure is that another that show that this creates the first embodiment is incorporated into the exploded view of metalwork antenna;
The 33rd figure is the schematic perspective view that shows the broken buttonhole of riveting in the 32nd figure embodiment;
The 34th figure shows to commonly use the schematic perspective view that the metalwork antenna is combined with coaxial cord;
The 35th figure is the schematic perspective view that shows that custom circuit plate antenna is combined with coaxial cord;
The 36th figure shows to commonly use the schematic perspective view () that the flexible circuit board antenna is combined with coaxial cord;
The 37th figure shows to commonly use the schematic perspective view (two) that the flexible circuit board antenna is combined with coaxial cord.
The primary clustering symbol description
Terminal 100,100A;
The first cramp 11;
The first button hole 111;
The first button cylinder 111A;
The second cramp 12;
The second button hole 121,122;
The second button cylinder 121A, 122A;
The first wire clamp 21;
The second wire clamp 22;
The 3rd wire clamp 23;
The first material strip 31;
The second material strip 32;
Bridge-jointing unit 40;
The first bridging piece 41;
The first broken line 411;
The second bridging piece 42;
The second broken line 421;
Connect folding red 431,432;
Lifting ear section 44;
Lifting ear hole 441;
The first buttonhole part 51;
The second buttonhole part 52;
Be total to riveting sheet 60;
First is total to rivet hole 61;
Second is total to rivet hole 621,622;
Antenna F;
Signal area F11;
The first perforate F111;
Ground area F12;
The second perforate F121, F122;
Coaxial cord C;
Center conductor C1;
External conductor C2;
Outer insulator C3;
Metalwork antenna M, M ';
The first perforate M1, M1 ':
The second perforate M21, M22, M21 ', M22 ';
Antenna Pl, P2, P3;
Play pin type connector P31:
Spring-piece type connector P32..
Embodiment
The specific embodiment that this creation adopts, will and attachedly be the further explanation of graphic do by following embodiment.
Refer to shown in the 1st figure and the 2nd figure, it is show this stereogram of creating the first embodiment and use decomposing schematic representation, and the terminal 100 in this creation includes a wire clamp unit and a cramp unit, and the wire clamp unit is connected in the cramp unit.
The cramp unit has one first cramp 11 and one second cramp 12, and the wire clamp unit has one first wire clamp 21, the second wire clamp 22 and the 3rd wire clamp 23.
The first cramp 11 has a lamellar body and be penetrated with first button hole 111, the first cramp 11 its lamellar body one side places on its lamellar body and is connected in the first wire clamp 21, and directly with the another side of its lamellar body, is connected in one first material strip 31.
The second cramp 12 has a lamellar body and be penetrated with two the second button holes 121,122 on its lamellar body, second cramp 12 its lamellar body both sides are connected to the second wire clamp 22 and the 3rd wire clamp 23, and indirectly seeing through the wherein wire clamp of a side and be connected in one second material strip 32, is to be connected in the second material strip 32 with the 3rd wire clamp 23 in figure.
Between the first cramp 11 and the second cramp 12, with a bridge-jointing unit 40, join, bridge-jointing unit 40 is extended with one first bridging piece 41 and one second bridging piece 42.
Bridge-jointing unit 40 is connected on the first cramp 11 with its first bridging piece 41, and be provided with one first broken line 411 in the first bridging piece 41 and the first cramp 11 joints, another mat the second bridging piece 42 is connected on the second cramp 12, and is provided with one second broken line 421 in both joints.。
Between the first material strip 31 and the second material strip 32, with bridge-jointing unit 40, join equally, bridge-jointing unit 40 1 sides are provided with one with the first material strip 31 joints and are connected broken line 431, and opposite side is provided with one with the second material strip 32 joints and is connected broken line 432.
Bridge-jointing unit 40 separately is extended with a lifting ear section 44, and in figure, lifting ear section 44 is between the first bridging piece 41 and the second bridging piece 42, and is provided with a lifting ear hole 441 in lifting ear section 44.
The terminal 100 that the first material strip 31 that terminal 100 mats in the present embodiment are connected and the second material strip 32 can adopt the continuous punching engineering method to be made into to have double material strips, as shown in the figure 3, play the end operation for automatic feed.
In the 3rd figure between the first cramp 11 and the second cramp 12 mat bridge-jointing unit 40 join in situation about being integrated, can select, in the terminal (not shown) that retains material strip on one side and separately form the thin material band, can utilize equally continuous punching engineering method processing and fabricating.
Moreover, between the first cramp 11 and the second cramp 12, also can as shown in the 4th, 5 figure, omit the another terminal that forms two-piece type of bridge-jointing unit 40, and carry out the continuous punching making by the first material strip 31 connected or the second material strip 32 separately.
In addition, the first cramp 11 and the second cramp 12 also can directly be made metal processing mode in addition with discontinuous punching press, connect the first wire clamp 21, the second wire clamp 22 and the 3rd wire clamp 23, and omit the first material strip 31, the second material strip 32 and bridge-jointing unit 40.
Shown in ginseng the 6th, 9 figure, terminal 100 in the present embodiment is to be incorporated between an antenna F and a coaxial electric wire C, antenna F is a flexible printed wiring board antenna (Flexible Printed Circuit BoardAntennas, FPCAntennas).
In the 6th figure, coaxial cord C includes a center conductor C1, insulating barrier, external conductor C2 and external insulation layer C3.
The rightabout of the past opening of the first wire clamp 21 1 sides is extended with one and carries folder section 211, and be connected with the lamellar body of the first cramp 11 by carrying folder section 211, make the first wire clamp 21 open bottom be positioned at the Different Plane place for the second wire clamp 22 and the 3rd wire clamp 23, the distance in figure between the first wire clamp 21 open bottom and the first cramp 11 is greater than the distance between the second wire clamp 22 and the 3rd wire clamp 23 both and the second cramp 12.
In the first embodiment, terminal 100 is directly riveted and is integrated with center conductor C1 with the first wire clamp 21, directly with external conductor C2, rivet and be integrated with the second wire clamp 22, and another mat the 3rd wire clamp 23 is direct and external insulation layer C3 riveted joint is integrated, and the first wire clamp 21 is upwards raised by carrying folder section 211, make the first wire clamp 21 when riveted joint can maintain the co-altitude with center conductor C1, as shown in the 11st, 12 figure, to obtain better alignment, guarantee its high-frequency effect simultaneously.
Because terminal 100 is designed with material strip, i.e. the first material strip 31 in the first embodiment and the second material strip 32, above-mentioned beating holds operation to start automatically to beat side pressure and after the coaxial cord C that the end wire stripping is completed inserts assigned address, uses to improve and beats end efficiency and precision.
In the first embodiment, because of the welding manner of commonly using in conjunction with the non-employing of engineering method with coaxial cord C, can avoid lead or other heavy metal pollution problem, belong to leadless process, and do not adopt the welding manner commonly used in conjunction with coaxial cord C, make its material range of choice degree of freedom large, so long as metal material is all available, and can remove the plating pollution problem from simultaneously.
Moreover, be combined as a whole as coordinated in the lump coaxial cord C with Halogen to rivet, in the situation that is combined with antenna, more can be made into the Environmental protection antenna of lead-free and halogen-free, meet at present and stipulate as environmental protections such as the RoHS of European Union in the world, commonly use the solder bond mode of tool contaminative with replacement.
The riveted joint terminal with buttonhole mechanism in this design, when routing, the first cramp 11 only needs to be connected with the wire clamp that at least one is riveted tightly in order to direct and center conductor C1, i.e. the first wire clamp 21 in the first embodiment, the second cramp 12 only needs to be connected with the wire clamp that at least one is riveted tightly in order to direct and external conductor C2, i.e. the second wire clamp 22 in the first embodiment.
Wire clamp is not limit with the relative arrangement position between cramp, as long as can make wire clamp center conductor C1 and external conductor C2 effective and coaxial cord C rivet tightly.
Shown in ginseng the 7th, 8 figure, after coaxial cord C end completes and plays the end operation, remove the first material strip 31 and second material strip 32 of terminal 100, and the lifting ear hole 441 of lifting ear section 44 on mat bridge-jointing unit 40, so that all the other partly are positioned on antenna F by terminal 100.
Shown in ginseng the 9th, 10 figure, antenna F includes F11Yu Yi ground area, a signal area F12, wherein the first button hole 111 positions of corresponding the first cramp 11 of signal area F11 are preset with one first perforate F111, and the second button hole 121,122 positions of corresponding the second cramp 12 of ground area F12 are preset with one second perforate F121, F122.
After completing and playing the end operation, terminal 100 goes to material strip mat lifting ear section 44 by the first button hole 111 be positioned first perforate F111 and second perforate F121, F122 place corresponding to the second 121,122 whiles of button hole.
Continue, in between the first button hole 111 and the first perforate F111, the first buttonhole part 51 is inserted in contraposition, and broken the first buttonhole part 51 of riveting is to combine closely signal area F11 and the first cramp 11, at the second button hole 121,122 and the second perforate F121, F122 contraposition, dispose into the second buttonhole part 52, and broken the second buttonhole part 52 of riveting is so that ground area F12 and the second cramp 12 are combined closely, as shown in the 11st, 12,13 figure.
After riveting is broken, bridge-jointing unit 40 separates with the second cramp 12 with easily-folding line architectural characteristic as shown in the figure 8 with the first cramp 11 of the second broken line 421 by its first broken line 411.
For avoiding the broken binding site of riveting partly to contact with other metals of communication equipment impacts such as causing the high-frequency signal offset frequency; can stick mark pulling-on piece, insulation gummed paper or adopt flush type to penetrate at the broken binding site of riveting the broken binding site of whole riveting is imbedded to the insulation isolation methods such as plastic cement, reach the effect of the broken binding site of protection riveting.
Above-mentioned buttonhole part can be selected to be disposed into inserting as shown in the figure 11 or by the tapping of antenna F by the button hole of terminal 100, and can to enter rear riveting by a wherein side of terminal 100 and contraposition place of antenna F broken for the first buttonhole part 51 and the second buttonhole part 52.
The first buttonhole part 51 and the second buttonhole part 52 can be hollow or adopt solid buttonhole as shown in the 9th to 13 figure, as long as can be for the broken combination of riveting.
In the present embodiment, in the situation that antenna F thickness is crossed thin or is crossed the riveted such as soft and have an opportunity to hurt antenna F, can on antenna F, cover as shown in the figure 14 add altogether after riveting sheet 60 with antenna F in the lump directly riveted joint be incorporated into terminal 100, common riveting sheet 60 materials can adopt as insulating properties materials such as PET (Polyethylene terephthalate), phenolic resins.
Upper the first perforate F111 in order to riveted joint of riveting sheet 60 respective antenna F and the second perforate F121, F122 are provided with first and are total to rivet hole 61 and second rivet hole 621,622 altogether altogether, and respectively with the first perforate F111 and the second perforate F121, F122 insert riveting for the first buttonhole part 51 and the second buttonhole part 52 in the lump and break as shown in the 15th, 16 figure, use and increase antenna F thickness, avoid damaging antenna F and can promote riveting intensity.
In the present embodiment, riveting sheet 60 also can be several pieces (not shown) altogether, correspondence is overlying on the first button hole 111 and the second button hole 121,122 places respectively, and corresponding the first button hole 111 and the second button hole 121,122 are provided with one first and are total to rivet hole 61 and one second rivet hole 621,622 altogether separately, therefore altogether the number of riveting sheet 60, antenna F together riveting sheet 60 order and antenna F together the relative position of 60 riveted joints of riveting sheet do not limit shown in figure, as long as can effectively increase riveted joint place thickness to promote riveting intensity.
The button hole position of the first cramp 11 and the second cramp 12 also can be selected to arrange as shown in the 17th figure or the 18th figure, as long as have at least 1 button hole on the first cramp 11 and the second cramp 12, can rivet for itself and antenna F.
Refer to shown in the 19th figure and the 20th figure, it is show this stereogram of creating the second embodiment and use decomposing schematic representation, its primary structure of terminal 100A in the second embodiment is identical with the first embodiment, and have the effect identical with the first embodiment, therefore the description thereof will be omitted and be marked with the same components symbol.
On the second embodiment and the first example structure, difference is, the first wire clamp 21 of terminal 100A is to be directly connected in the first cramp 11, and the first button hole 111 on the first cramp 11 is extended with one first button cylinder 111A, and the second button hole 121,122 places on the second cramp 12 respectively are extended with one second button cylinder 121A, 122A.
The first button cylinder 111A of terminal 100A and second button tin 121A, a 122A can be the complete tubular of a hollow as shown in the figure 21 or include two first sheet 1111A and second sheet 1211A, 1221A or four first sheet 1111A and second sheet 1211A, 1221A as shown in the 22nd, 23 figure, or buckleing cylinder a 121A, 122A end in the first button cylinder 111A and second is provided with and runs through the ditch section of the passing through (not shown) of buckle cylinder, and the first button cylinder 111A and second detains tin 121A, a 122A and also can select to adopt and take out the structure (not shown) that is made as solid.
Shown in ginseng the 24th figure, in figure, antenna F is a flexible printed wiring board antenna, antenna F includes F11Yu Yi ground area, a signal area F12, wherein F11 corresponding the first button hole 111 positions in signal area are provided with the first perforate F111, and F12 another corresponding the second button hole 121,122 positions in ground area are provided with the second perforate F121, F122.
Shown in ginseng the 25th, 26 figure, the first cramp 11 is combined in the first perforate F111 with the first button cylinder 111A correspondence, and broken the first button cylinder 111A of riveting is to combine closely signal area F11 and the first cramp 11, and the second cramp 12 is combined in the second perforate F121, F122 place with its second button cylinder 121A, 122A correspondence, and broken the second button cylinder 121A, the 122A of riveting is to combine closely ground area F12 and the second cramp 12.
In the second embodiment, the material that can reduce its riveted joint place surrounding of antenna F is thick, the outer portion F1221 of the second perforate F122 as shown in the 25th, 26 figure, to avoid the problem of its button cylinder excessive height after riveted, and the button hole of terminal 100A is not limit shown in the 21st to 23 figure with the button barrel shape, also can be as shown in the figure 31, its shape only needs to combine closely and to get final product with antenna for the broken cramp correspondence that makes of riveting.
In this design, in the first embodiment and the second embodiment, terminal structure is except being applied to the flexible printed wiring board antenna, also applicable to PCB antenna (Printed Circuit Board Antennas, PCB Antennas) and metalwork antenna (Stamped Metal Antennas).
Because PCB antenna thickness is larger, the first embodiment detains the whole length of cylinder applicable to any PCB antenna as long as select longer buttonhole part or increase in the second embodiment.
Terminal structure in the first embodiment is applicable to metalwork antenna M as shown in the 27th, 28 figure, in corresponding the first embodiment of metalwork antenna M, the first button hole 111 is provided with the first perforate M1 and the second perforate M21, M22 with the second button hole 121,122, and respectively with the first button hole 111 and the second button hole 121,122 confession the first buttonhole part 51 and the second buttonhole part 52 are inserted riveting and are broken in the lump.
And the terminal structure in the second embodiment is applicable to metalwork antenna M as shown in the figure 29, the first cramp 11 is combined in the first perforate M1 with the first button cylinder 111A correspondence, and broken the first button cylinder 111A of riveting is to combine closely with the first cramp 11, and the second cramp 12 is combined in the second perforate M21, M22 place with its second button cylinder 121A, 122A correspondence, and broken the second button cylinder 121A of riveting, 122A is to combine closely with the second cramp 12.
As shown in the 30th, 31 figure, the second button hole 121,122 on the second cramp 12 in the second embodiment can be preset as to semicircle place and also only partly be extended with second sheet 1211A, 1221A of a slice arc, for shortening the second cramp 12 Len reqs, the first perforate M1 and the second perforate M21, A22 also are preset as semicircle, and in the broken mode of riveting, combine closely in metalwork antenna M equally, this structure also is applicable to flexible printed wiring board antenna and PCB antenna.
In the second embodiment, the button hole on cramp and the perforate on antenna do not limit graphic shown in, can get final product for broken the combining closely of riveting.
As shown in the figure 32, metalwork antenna M ' utilizes the ductile characteristic of its metal, stamp out the first buttonhole M1 ' and the second buttonhole M21 ', M22 ' of the first button hole 111 and the second button hole 121,122 in corresponding the first embodiment in metalwork antenna M ' itself, with by the first cramp 11 and the second button hole 12 and metalwork antenna M ' as shown in the figure 33 rivet clasp be integrated.
The foregoing is only the preferred embodiment of this creation, non-so limit to the scope of the claims of this creation, therefore such as use this creation specification and graphic content institute for it simple and easy modification and equivalent structure change, all should in like manner be contained in the scope of the claims of the present invention.
Claims (10)
1. the riveted joint terminal with buttonhole mechanism, this terminal in order to be incorporated between a coaxial electric wire and an antenna, is characterized in that, comprising:
One wire clamp unit, this wire clamp unit has one first wire clamp and one second wire clamp, for this terminal, by this first wire clamp, directly with the riveted joint of one of this coaxial cord center conductor, be integrated, this second wire clamp of mat directly and one of this coaxial cord external conductor rivet and be integrated;
One cramp unit, this cramp unit has one first cramp and one second cramp, there is at least one the first button hole on this first cramp and be connected in this first wire clamp, there is at least one the second button hole on this second cramp and be connected in this second wire clamp, this terminal directly is riveted on one of this antenna signal area with this first cramp, this second cramp of mat directly is riveted on one of this antenna ground area, and this coaxial cord and this antenna directly are combined as a whole by this terminal.
2. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this first wire clamp more includes one and carries folder section, this first wire clamp is carried folder section by this and is connected with this first cramp, makes the distance between this first wire clamp open bottom and this first cramp be greater than the distance between this second wire clamp and this second cramp; This wire clamp unit more includes one the 3rd wire clamp, and this terminal is directly riveted and is integrated with one of this coaxial cord outer insulator by the 3rd wire clamp; The 3rd wire clamp is connected in this second cramp.
3. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this signal area is to being provided with one first perforate in the first button hole position, and to should the first button hole and this first perforate insert one first buttonhole part, and broken this first buttonhole part of riveting is combined closely this signal area and this first cramp; This first buttonhole part by contraposition place of this first button hole and this first perforate wherein a side enter; The one that this first buttonhole part is solid or hollow body.
4. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this ground area is to being provided with one second perforate in the second button hole position, and to should the second button hole and this second perforate insert one second buttonhole part, and broken this second buttonhole part of riveting is combined closely this ground area and this second cramp; This second buttonhole part by contraposition place of this second button hole and this second perforate wherein a side enter; The one that this second buttonhole part is solid or hollow body.
5. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this first button hole is extended with one first button cylinder, this signal area is to being provided with one first perforate in the first button hole position, this first cramp is combined in this first perforate with this first button cylinder correspondence, and broken this first button cylinder of riveting is combined closely this signal area and this first cramp; This first button cylinder is hollow, and has at least one first sheet; This first button cylinder is provided with at least always ditch section in its end.
6. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this second button hole is extended with one second button cylinder, this ground area is to being provided with one second perforate in the second button hole position, this second cramp is combined in this second perforate with this second button cylinder correspondence, and broken this second button cylinder of riveting is combined closely this ground area and this second cramp; This second button cylinder is hollow, and has at least one second sheet; This second button cylinder is provided with at least always ditch section in its end.
7. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this antenna is covered with riveting sheet altogether, altogether the riveting sheet to should the first button hole with this second button hole be provided with one first altogether rivet hole be total to rivet hole with one second, directly rivet and be incorporated into this terminal in the lump for this common riveting sheet and this antenna; This antenna is that metalwork antenna, flexible printed wiring board antenna or PCB antenna are wherein a kind of.
8. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this first button hole and this second button hole are covered with respectively riveting sheet altogether, and separately to should the first button hole and this second button hole be provided with one first rivet hole and one second rivet hole altogether altogether, directly rivet and be incorporated into this terminal in the lump for this common riveting sheet and this antenna.
9. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, this antenna to should the first button hole and this second button hole be respectively equipped with one first buttonhole and one second buttonhole, this first cramp and this second cramp directly are riveted on this antenna; This first cramp is connected in one first material strip, for the automatic feed operation; This second cramp is connected in one second material strip, for the automatic feed operation.
10. the riveted joint terminal with buttonhole mechanism as claimed in claim 1, it is characterized in that, between this first cramp and this second cramp, with a bridge-jointing unit, join, this bridge-jointing unit is respectively at this first cramp joint with this second cramp joint, respectively being provided with one first broken line and one second broken line; This first cramp is connected in one first material strip, and for the automatic feed operation, and this first material strip is connected in this bridge-jointing unit, and this bridge-jointing unit is connected broken line in this first material strip joint, being provided with one; This second cramp is connected in one second material strip, and for the automatic feed operation, and this second material strip is connected in this bridge-jointing unit, and this bridge-jointing unit is connected broken line in this second material strip joint, being provided with one; This bridge-jointing unit is extended with a lifting ear section, and this lifting ear section is provided with a lifting ear hole.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201220752034.2U CN203386920U (en) | 2012-12-31 | 2012-12-31 | Riveting terminal equipped with buttonhole mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201220752034.2U CN203386920U (en) | 2012-12-31 | 2012-12-31 | Riveting terminal equipped with buttonhole mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203386920U true CN203386920U (en) | 2014-01-08 |
Family
ID=49875374
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201220752034.2U Expired - Fee Related CN203386920U (en) | 2012-12-31 | 2012-12-31 | Riveting terminal equipped with buttonhole mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203386920U (en) |
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106532308A (en) * | 2015-09-10 | 2017-03-22 | 泰连德国有限公司 | Sheet metal part with improved connection tab geometry |
| WO2017148803A1 (en) * | 2016-03-02 | 2017-09-08 | Amphenol-Tuchel Electronics Gmbh | Shield connection element for a printed circuit board |
| CN109524808A (en) * | 2017-09-20 | 2019-03-26 | 泰科电子(上海)有限公司 | Connector, electrical connection module and the device for being electrically connected and managing in battery pack |
| WO2021248812A1 (en) * | 2020-06-11 | 2021-12-16 | 苏州富强科技有限公司 | Material belt convenient to feed |
| WO2023275127A1 (en) * | 2021-07-02 | 2023-01-05 | Agc Glass Europe | Electrical connector, antenna system and associated methods |
| WO2023078705A1 (en) * | 2021-11-02 | 2023-05-11 | Agc Glass Europe | Electrical connector, antenna system and associated methods |
-
2012
- 2012-12-31 CN CN201220752034.2U patent/CN203386920U/en not_active Expired - Fee Related
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106532308A (en) * | 2015-09-10 | 2017-03-22 | 泰连德国有限公司 | Sheet metal part with improved connection tab geometry |
| WO2017148803A1 (en) * | 2016-03-02 | 2017-09-08 | Amphenol-Tuchel Electronics Gmbh | Shield connection element for a printed circuit board |
| CN108701920A (en) * | 2016-03-02 | 2018-10-23 | 安费诺-图赫尔电子有限公司 | Shielding connector for printed circuit board |
| US10950985B2 (en) | 2016-03-02 | 2021-03-16 | Amphenol-Tuchel Electronics Gmbh | Shield connection element for a printed circuit board |
| CN109524808A (en) * | 2017-09-20 | 2019-03-26 | 泰科电子(上海)有限公司 | Connector, electrical connection module and the device for being electrically connected and managing in battery pack |
| WO2021248812A1 (en) * | 2020-06-11 | 2021-12-16 | 苏州富强科技有限公司 | Material belt convenient to feed |
| WO2023275127A1 (en) * | 2021-07-02 | 2023-01-05 | Agc Glass Europe | Electrical connector, antenna system and associated methods |
| WO2023078705A1 (en) * | 2021-11-02 | 2023-05-11 | Agc Glass Europe | Electrical connector, antenna system and associated methods |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee | ||
| CP02 | Change in the address of a patent holder |
Address after: 518106, Shenzhen Guangming District, Guangdong province Gongming office, Mashan Sixth Industrial Zone, fourth buildings, two floors Patentee after: Harumoto Technology(ShenZhen)Co., Ltd. Address before: 518106 Shenzhen Guangming New District Gongming street heshuikou xufa Science Park ninth 3 floor Patentee before: Harumoto Technology(ShenZhen)Co., Ltd. |
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| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140108 Termination date: 20181231 |