CN106505343B - The semi-automatic connector of flexible circuitry - Google Patents

Abstract

The present invention provides a kind of semi-automatic connector of flexible circuitry, including：Button hole is arranged on upper shell, button is arranged in button hole for conducting wire, upper shell, lower housing, grafting clamping part, its main feature is that：One wiring board is set in lower housing, shrapnel is arranged in circuit plate top surface, wiring board is connect with conducting wire, grafting clamping part is arranged above assist side, slot and two elastic cantilevers are arranged in grafting clamping part, and setting barb buckles on elastic cantilever free end, and barb is stuck in the card slot on the flexible circuitry plug connector in slot, it is locked, flexible circuitry plug connector bottom surface and the shrapnel of circuit plate top surface are adjacent to.Button down state, bends downwards elastic cantilever, and two barbs buckle the card slot for exiting flexible circuitry plug connector.Simple in structure, parts are few, and connection flexibly, reliably, is not easy；Further objective is that having anti-defibrillating function.

Description

The semi-automatic connector of flexible circuitry

Technical field

The invention belongs to circuit connector technical fields, are related to a kind of connector of electrode, for medical conducting wire Connection, specifically a kind of semi-automatic connector of flexible circuitry.

Background technology

Currently, as electronic product increasingly minimizes, flexible circuitry is since its is flexible, lays convenient, manufacturing cost Cheap characteristic is widely used.In general, connection mostly uses flexible printed wiring between plate inside equipment（FPC）, or it is flexible Wide cable（FFC）.As for the demand of the flexibility of cable, frivolous property, the connection line of machine exterior is also begun in the market Flexible circuitry is used on a large scale.Currently, the connection of flexible circuitry mostly uses onboard connector to realize, flexible circuitry is inserted into plate Flexible circuitry and conductive arm are connected by pressure locking device after carrying connector.

The inadequate problem of current onboard flexible line connector generally existing tensile strength, when circuit both ends apply pulling force When flexible circuitry and conductive arm be easy poor contact or from connector abjection cause open circuit, this reduces making for electronic product Use reliability.Secondly flexible circuitry repeatability cannot be plugged from connector, be both not convenient to use, and also be easy to cause waste.Separately Outside, the complicated of the semi-automatic connector of existing flexible circuitry, parts are more, and processing and fabricating is inconvenient, and cost of manufacture is higher.

Invention content

The present invention in view of the above-mentioned problems existing in the prior art, provides a kind of semi-automatic connector of flexible circuitry, structure letter Single, parts are few, and connection flexibly, reliably, is not easy；Further objective is that having anti-defibrillating function.

The purpose of the present invention is what is be achieved through the following technical solutions：

A kind of semi-automatic connector of flexible circuitry, including：Conducting wire, upper shell, lower housing, grafting clamping part, it is described on Button hole is set on shell, button is set in the button hole, which is characterized in that a wiring board is set in the lower housing, Shrapnel is arranged in the circuit plate top surface, and the wiring board is connect with described conducting wire one end, and the grafting clamping part is arranged in institute It states above wiring board, the slot of the grafting clamping part setting insertion flexible circuitry plug connector, it is parallel on the grafting clamping part Two elastic cantilevers are set, and setting barb buckles on the elastic cantilever free end, and two barbs are stuck in the slot In the flexible circuitry plug connector on card slot in, the flexible circuitry plug connector is locked, the flexible circuitry insert Fitting bottom surface and the shrapnel of the circuit plate top surface are adjacent to, the button down state, bend two elastic cantilevers downwards, Two barbs buckle on the grafting clamping part exits the card slot of the flexible circuitry plug connector.

A kind of improvement to above-mentioned technical proposal：The grafting clamping part is structure as a whole, and is set on the grafting clamping part Two cantilever mounteds are set, the cantilever mounted is parallel with the elastic cantilever, and is higher than the elastic cantilever, the cantilever mounted The slot for being inserted into flexible circuitry plug connector is formed between the elastic cantilever, on each elastic cantilever free end top surface Convex block is set close to barb buckle outside, button column, the button down state, the button is arranged in the button bottom Column is withstood on downwards on the convex block of the lower section elastic cantilever free end.

Above-mentioned technical proposal is further improved：Grafting clamping part rear end connects the elastic cantilever fixing end Top is symmetrical arranged two raised lines, and two raised line is embedded in the upper embedded groove in the upper shell fixed, the grafting buckle part Bottom below the elastic cantilever is to be symmetrical arranged two arc fixed strips, under two arc fixed strips insertion is described It is fixed in lower caulking groove in shell.

The another kind of above-mentioned technical proposal is improved：The grafting clamping part is separate structure, including upper grafting clamping part With lower grafting clamping part, the upper grafting clamping part is fastened and connected with lower grafting clamping part, is formed be inserted into flexible wires between the two The slot of road plug connector, the upper grafting clamping part are linked together structure, two elastic suspendeds with the button bottom Arm is arranged on the lower grafting clamping part, is formed between the elastic cantilever and the upper grafting clamping part and is inserted into flexible circuitry Protruding block, institute is arranged close to barb buckle outside on each elastic cantilever free end top surface in the slot of plug connector The setting of grafting clamping part front bottom end is stated by compression leg, the button down state is described to be withstood on downwards by compression leg described in lower section On the protruding block of elastic cantilever free end.

Above-mentioned technical proposal is further improved：Two connecting rods are arranged in parallel in the upper grafting clamping part rear portion, respectively Fixed lobe is arranged in the connecting rod top surface, and two fixed lobes are embedded in the upper embedded groove in the upper shell fixed, each institute State and strip groove be set on the bottom surface of connecting rod, the lower grafting clamping part rear portion have two fixed links respectively with two bullets Property the connection of cantilever fixing end, connected between two fixed links, be arranged on each fixed link top surface and institute by a cross bar The corresponding strip projected parts of strip groove are stated, the strip projected parts of the lower grafting clamping part are embedded in the strip of the upper grafting clamping part It is snapped together in groove, each fixed link is embedded in the lower caulking groove of the lower housing fixed.

Above-mentioned technical proposal is further improved：It is electric with setting in the circuit of the conducting wire unicom on the wiring board Resistance.

Above-mentioned technical proposal is further improved：The both sides of the upper shell are respectively arranged with upper shell anti-slip tank, institute The both sides for stating lower housing are respectively arranged with lower housing anti-slip tank.

A kind of improvement to above-mentioned technical proposal：The grafting clamping part is the integral structure of injection molding.

The another kind of above-mentioned technical proposal is improved：The upper grafting clamping part is injection molding with the button Integral structure, the lower grafting clamping part are the separate piece of injection molding.

The present invention compared with prior art the advantages of and good effect be：

1, the grafting clamping part that the present invention designs is simple and reasonable, it is possible to reduce and amount of parts, processing and fabricating is convenient, Production efficiency is high, and cost of manufacture is relatively low, easy to use, flexible, reliable.

2, after flexible circuitry plug connector of the present invention is inserted into slot, the card slot on flexible circuitry plug connector is stuck in by barb It is interior, and be locked, it avoids flexible circuitry plug connector and pulls, ensure flexible circuitry plug connector bottom surface and circuit plate top surface Shrapnel be adjacent to.Button down state bends downwards two elastic cantilevers, and barb buckle is made to exit the card of flexible circuitry plug connector Slot facilitates flexible circuitry plug connector to release slot.

3, the anti-slip tank in upper-lower casing side is arranged in the present invention, increases frictional resistance, when ensure that user's operation It being capable of the semi-automatic connector of good grip flexible circuitry.

Fig. 1 is a kind of assembly decomposition diagram of the semi-automatic connector embodiment of flexible circuitry of the present invention 1；

Fig. 2 is a kind of grafting clamping part structural schematic diagram of the semi-automatic connector embodiment of flexible circuitry of the present invention 1;

Fig. 3 be the semi-automatic connector embodiment of a kind of flexible circuitry of the present invention 1 assembly after inserted with flexible circuitry plug connector Schematic diagram before connecing;

Fig. 4 is a kind of assembly decomposition diagram of the semi-automatic connector embodiment of flexible circuitry of the present invention 2；

Fig. 5 is that a kind of semi-automatic 2 flexible circuitry plug connector of connector embodiment of flexible circuitry of the present invention is inserted into upper and lower grafting Schematic diagram between clamping part before slot;

Fig. 6 is that a kind of semi-automatic 2 flexible circuitry plug connector of connector embodiment of flexible circuitry of the present invention is inserted into upper and lower grafting Schematic diagram between clamping part in slot;

Fig. 7 is the stereogram of circuit plate top surface in the displaying semi-automatic connector of flexible circuitry of the present invention；

Fig. 8 is the stereogram in circuit board bottom face in the displaying semi-automatic connector of flexible circuitry of the present invention.

Fig. 1-3（Embodiment 1）In：1- upper shells, 1.1- button holes, 2- lower housings, 3- buttons, 3.1- buttons column, 4- are inserted Connect clamping part, 4.1- elastic cantilevers, 4.1.1- barbs buckle, 4.1.2- convex blocks, 4.2- cantilever mounteds, 4.3- arcs fixed strip, 4.4- raised lines, 5- wiring boards, 5.1- shrapnels, 6- conducting wires, 7- net tails, 8- flexible circuitries plug connector, 8.1- slots.

Fig. 4-6（Embodiment 2）In：The upper grafting card of 21- upper shells, 21.1- button holes, 22- lower housings, 23- buttons, 24- Buckle, 24.1- are by compression leg, 24.2- connecting rods, 24.2.1- strip grooves, 24.2.2- fixed lobes, 25- wiring boards, 25.1- Grafting clamping part under shrapnel, 26- conducting wires, 27-, 27.1- elastic cantilevers, 27.1.1- protruding blocks, 27.1.2- barbs buckle, 27.2- fixed links, 27.2.1- strip projected parts, 27.3- cross bars, 28- flexible circuitries plug connector, 28.1- slots.

Specific implementation mode

Below in conjunction with attached drawing, present invention is further described in detail：

Referring to Fig. 1-Fig. 3, a kind of embodiment 1 of the semi-automatic connector of flexible circuitry of the invention, including：Conducting wire 6, net tail 7, button hole 1.1 is arranged in upper shell 1, lower housing 2, grafting clamping part on upper shell 1, and button 1 is arranged in button hole 1.1. One wiring board 5 is set in lower housing 2, and shrapnel 5.1 is arranged in 5 top surface of assist side, and wiring board 5 is connect with one end of conducting wire 6. Above-mentioned 5 top of grafting clamping part setting assist side, the slot of setting insertion flexible circuitry plug connector 8 on grafting clamping part 4, Two elastic cantilevers 4.1 are arranged in parallel on grafting clamping part 4, barb is set on the free end of elastic cantilever 4.1 and is buckled 4.1.1.When flexible circuitry plug connector 8 is inserted into the slot on grafting clamping part 4, two barbs buckle 4.1.1 is stuck in flexible wires In card slot 9.1 on road plug connector 8, the flexible circuitry plug connector 8 is locked, the bottom surface of flexible circuitry plug connector 8 with The shrapnel 5.1 of 5 top surface of wiring board is adjacent to, and flexible circuitry plug connector 8 is made to be connected with conducting wire 6.It is inserted when needing extraction flexible circuitry When fitting 8, button 3 is pressed, bends two elastic cantilevers 4.1 downwards, the two barbs buckle 4.1.1 on grafting clamping part 5 is moved back Go out the card slot 8.1 of flexible circuitry plug connector 8.

Specifically：Above-mentioned grafting clamping part 4 is the integral structure of injection molding, is arranged on grafting clamping part 4 Two cantilever mounteds 4.2, cantilever mounted 4.2 is parallel with elastic cantilever 4.1, and cantilever mounted 4.2 is higher than elastic cantilever 4.1.On The slot on grafting clamping part 4 is stated by being formed between cantilever mounted 4.2 and elastic cantilever 4.1.Each elastic cantilever 4.1 is freely Hold the outside setting convex block 4.1.2 close to barb buckle 4.1.1 on top surface.The setting button column 3.1 in the bottom of button 3, When 3 down state of button, button column 3.1 is withstood on downwards on the convex block 4.1.2 of lower section 4.1 free end of elastic cantilever, makes elastic suspended Arm 4.1 is bent downwardly, and the barb buckle 4.1.1 on elastic cantilever 4.1 exits the card slot 8.1 of flexible circuitry plug connector 8, you can takes out Go out flexible circuitry plug connector 8.

The top that 4.1 fixing end of elastic cantilever is connected in 4 rear end of grafting clamping part is symmetrical arranged two raised lines 4.4, two raised lines Fixed in upper embedded groove in 4.4 insertion upper shells 1, the bottom being located on grafting clamping part 4 below elastic cantilever 4.1 is symmetrical Two arc fixed strips 4.3 are set, and two arc fixed strips 4.3 are embedded in the lower caulking groove in lower housing 2 fixed.

In assist side 5 with resistance is set in the circuit of 6 unicom of conducting wire, the resistance value of resistance is 1 kilohm, is thus had There is anti-defibrillating function.

It is respectively arranged with upper shell anti-slip tank in the both sides of upper shell 1, lower housing is respectively arranged in the both sides of lower housing 2 Anti-slip tank.This adds increased the curable grips between connector and hand, being capable of good grip connector when ensure that user's operation.

Referring to Fig. 4-Fig. 6, a kind of embodiment 2 of the semi-automatic connector of flexible circuitry of the invention, including：Conducting wire 26, on Button hole 21.1 is arranged on upper shell 21 for shell 21, lower housing 22, grafting clamping part, and button 23 is arranged in button hole 21.1, One wiring board 25 is set in lower housing 22, and shrapnel 25.1 is arranged in 25 top surface of assist side, by wiring board 25 and conducting wire 26 1 End connection.The top of above-mentioned grafting clamping part setting assist side 25, grafting clamping part are separate structure, including upper grafting buckle Portion 24 and lower grafting clamping part 27, upper grafting clamping part 24 with lower grafting clamping part 27 by being fastened and connected, upper grafting clamping part The slot 28.1 for being inserted into flexible circuitry plug connector 28 is formed between 24 and lower grafting clamping part 27.

Specifically：Above-mentioned upper grafting clamping part 25 is linked together structure with 23 bottom of button, in lower grafting clamping part 27 On two elastic cantilevers 27.1 are arranged in parallel, the slot for being inserted into flexible circuitry plug connector 28 be by elastic cantilever 27.1 with It is formed between grafting clamping part 24.Barb is set on the free end top surface of each elastic cantilever 27.1 and buckles 27.1.2, each elasticity Protruding block 27.1.1 is set on the outside of barb buckle 27.1.2 on the free end top surface of cantilever 27.1, in upper grafting clamping part 24 Compression leg 24.1 is pressed in front bottom end setting.It is inserted when flexible circuitry plug connector 28 is inserted into for being inserted into the above-mentioned of flexible circuitry plug connector 28 When in slot, two barbs buckle 27.1.2 is stuck in the card slot 28.1 on flexible circuitry plug connector 28, by the flexible circuitry grafting Part 28 is locked, and 28 bottom surface of flexible circuitry plug connector and the shrapnel 25.1 of 25 top surface of wiring board are adjacent to, and make flexible circuitry grafting Part 28 is connected with conducting wire 26.When needing to extract flexible circuitry plug connector 28 out, button 23 is pressed, is pushed up downwards by compression leg 24.1 On the protruding block 27.1.1 of the lower section elastic cantilever free end, elastic cantilever 27.1 is made to be bent downwardly.Elastic cantilever 27.1 Barb buckle 27.1.2 exit the card slot 28.1 of flexible circuitry plug connector 28, you can extraction flexible circuitry plug connector 28.

Two connecting rods 24.2 are arranged in parallel in above-mentioned upper 24 rear portion of grafting clamping part, and the setting of 24.2 top surface of each connecting rod is fixed Raised 24.2.2, two fixed lobe 24.2.2 are embedded in the upper embedded groove in upper shells 21 and fix, on the bottom surface of each connecting rod 24.2 Strip groove 24.2.1 is set.Lower 27 rear portion of grafting clamping part have two fixed links 27.2 respectively with two elastic cantilevers 27.1 Fixing end connects, and is connected by a cross bar 27.3 between two fixed links 27.2.On 27.2 top surface of each fixed link setting with it is described The corresponding strip projected parts 27.2.1 of strip groove 24.2.1, by grafting in the strip projected parts 27.2.1 insertions of lower grafting clamping part 27 It is snapped together in the strip groove 24.2.1 of clamping part 24, each fixed link 27.2 is embedded in fixed in the lower caulking groove of lower housing 22.

Above-mentioned upper grafting clamping part 25 and the integral structure that button 23 is injection molding, above-mentioned lower grafting clamping part 27 For the separate piece of injection molding.

In assist side 25 with resistance is set in the circuit of 26 unicom of the conducting wire, the resistance value of resistance is 1 kilohm, this Sample just has anti-defibrillating function.

It is respectively arranged with upper shell anti-slip tank in the both sides of upper shell 21, lower casing is respectively arranged in the both sides of lower housing 22 Body anti-slip tank.This adds increased the curable grips between connector and hand, being capable of good grip connection when ensure that user's operation Device.

As shown in Figure 7 and Figure 8, in the semi-automatic connector of flexible circuitry of the present invention a wiring board embodiment, circuit Anti- defibrillation electricity consumption resistance 32 is set in the circuit that plate is connect with conducting wire, and the resistance value of anti-defibrillation electricity consumption resistance 32 is 1 kilohm, anti-defibrillation It is arranged on assist side bottom surface with resistance 32, thus realizes anti-defibrillating function.Arrow direction refers to defibrillation height in Fig. 7 and Fig. 8 Pressure trend is the process of a decompression by resistance.Setting is contacted with flexible circuitry plug connector on contact terminal 31 in Fig. 7 Shrapnel.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art Those of ordinary skill, the variations, modifications, additions or substitutions made in the essential scope of the present invention also belong to the present invention Protection domain.

Claims (10)

1. a kind of semi-automatic connector of flexible circuitry, including：Conducting wire, upper shell, lower housing, grafting clamping part, the upper casing Button hole is set on body, button is set in the button hole, which is characterized in that a wiring board, institute are set in the lower housing Circuit plate top surface setting shrapnel is stated, the wiring board is connect with described conducting wire one end, and the grafting clamping part is arranged described Above wiring board, the slot of flexible circuitry plug connector is inserted into the grafting clamping part setting, parallel on the grafting clamping part to set Two elastic cantilevers are set, setting barb buckles on the elastic cantilever free end, and two barbs are stuck in the slot The flexible circuitry plug connector on card slot in, the flexible circuitry plug connector is locked, the flexible circuitry grafting Part bottom surface and the shrapnel of the circuit plate top surface are adjacent to, the button down state, bend two elastic cantilevers, institute downwards State the card slot that the buckle of two barbs on grafting clamping part exits the flexible circuitry plug connector.

2. according to the semi-automatic connector of flexible circuitry described in claim 1, which is characterized in that the grafting clamping part is one Two cantilever mounteds are arranged on the grafting clamping part for body structure, and the cantilever mounted is parallel with the elastic cantilever, and is higher than The elastic cantilever forms the slot for being inserted into flexible circuitry plug connector between the cantilever mounted and the elastic cantilever, Convex block is set close to barb buckle outside on each elastic cantilever free end top surface, button is arranged in the button bottom Column, the button down state, the button column are withstood on downwards on the convex block of the lower section elastic cantilever free end.

3. according to the semi-automatic connector of flexible circuitry described in claim 2, which is characterized in that grafting clamping part rear end The top for connecting the elastic cantilever fixing end is symmetrical arranged two raised lines, and two raised line is embedded in the upper embedded groove in the upper shell Interior fixation, bottom of the grafting buckle part below the elastic cantilever is to be symmetrical arranged two arc fixed strips, described Two arc fixed strips are embedded in the lower caulking groove in the lower housing fixed.

4. according to the semi-automatic connector of flexible circuitry described in claim 1, which is characterized in that the grafting clamping part is point Body structure, including upper grafting clamping part and lower grafting clamping part, the upper grafting clamping part are fastened and connected with lower grafting clamping part, The slot for being inserted into flexible circuitry plug connector is formed between the two, and the upper grafting clamping part is linked as one with the button bottom Body structure, two elastic cantilevers are arranged on the lower grafting clamping part, and the elastic cantilever is buckled with the upper grafting The slot for being inserted into flexible circuitry plug connector is formed between portion, close to the barb on each elastic cantilever free end top surface Protruding block is arranged in buckle outside, and compression leg is pressed in the upper grafting clamping part front bottom end setting, and the button down state is described to press Compression leg is withstood on downwards on the protruding block of the lower section elastic cantilever free end.

5. according to the semi-automatic connector of flexible circuitry described in claim 4, which is characterized in that after the upper grafting clamping part Two connecting rods are arranged in parallel in portion, and fixed lobe is arranged in each connecting rod top surface, and two fixed lobes are embedded in the upper casing It is fixed in internal upper embedded groove, strip groove is set on the bottom surface of each connecting rod, the lower grafting clamping part rear portion has two Root fixed link is connect with two elastic cantilever fixing ends respectively, is connected by a cross bar between two fixed links, respectively Strip projected parts corresponding with the strip groove are set on the fixed link top surface, and the strip projected parts of the lower grafting clamping part are embedding Enter and snapped together in the strip groove of the upper grafting clamping part, each fixed link is embedded in the lower caulking groove of the lower housing It is fixed.

6. according to the semi-automatic connector of claim 1-5 any one of them flexible circuitries, which is characterized in that on the wiring board Resistance is set with the circuit of the conducting wire unicom.

7. according to the semi-automatic connector of claim 1-5 any one of them flexible circuitries, which is characterized in that the upper shell Both sides are respectively arranged with upper shell anti-slip tank, and the both sides of the lower housing are respectively arranged with lower housing anti-slip tank.

8. the semi-automatic connector of flexible circuitry according to claim 6, which is characterized in that the upper shell both sides point It is not provided with upper shell anti-slip tank, the both sides of the lower housing are respectively arranged with lower housing anti-slip tank.

9. according to the semi-automatic connector of claim 1-3 any one of them flexible circuitries, which is characterized in that the grafting buckle Portion is the integral structure of injection molding.

10. according to the semi-automatic connector of flexible circuitry described in claim 4 or 5, which is characterized in that the upper grafting clamping part With the integral structure that the button is injection molding, the lower grafting clamping part is the separate piece of injection molding.