CN204720694U - Plug electric connector - Google Patents

Abstract

An electrical plug connector comprising: insulating main part, shielding shell and holding piece. The insulating main body comprises a plate body, two sides of the plate body respectively comprise an outer side surface and a groove, and the groove is positioned on one side of the outer side surface. The shielding shell covers the insulating main body and comprises an outer wall and a through hole, the outer wall is opposite to the outer side face, the through hole is located on one side of the outer wall, and the through hole is opposite to the groove. The abutting pieces are positioned on two sides of the plate body and are respectively connected with the shielding shell, and each abutting piece comprises a body, a swinging plate and a protruding block. The body is arranged between the outer side face and the outer wall, the swinging plate is connected with the body and is suspended in the groove, the protruding block is arranged on the swinging plate, when the protruding block is arranged at the first position, the top of the protruding block protrudes out of the through hole, and when the protruding block is arranged at the second position, the top of the protruding block is arranged in the through hole.

Description

Plug connector

Technical field

The utility model has about a kind of electric connector, refers to a kind of plug connector especially.

Background technology

Various electronic product is more multi-functional now, unlimited convenience and height convenience are provided, but form complicated Electromagnetic Interference environment, affect running and the transmission of electronic product, such as electromagnetic interference (Electromagnetic Interference, EMI), the problem of radio frequency interference (Radio Frequency Interference is called for short RFI).

Existing electronic product is because of towards Miniaturization Design, and the USB plug electric connector on electronic product and electronic component adjacent arround other are closely adjacent to each other.When transmission signal, the shielding signal of USB plug electric connector itself with prevent the protection of electromagnetic interference (EMI), radio frequency interference (RFI) from must properly design, to avoid the problem disturbed with other electron component generation signal.

If the shell of general USB plug electric connector and USB socket electric connector because of the shieldings such as holes not good, high-frequency electrical signal is through USB plug electric connector serial connection to the USB socket electric connector that connects with it, and the outside electronic product making device have the electronic product of USB socket electric connector or USB plug electric connector institute to connect will because of noise jamming (EMI), radio frequency interference (RFI) and reduce the accuracy operated.How to solve the problem of existing structure, be the problem that relevant practitioner must think deeply.

Utility model content

For the problems referred to above, the utility model provides a kind of plug connector, comprising: insulating body, upper row's terminal, lower row's terminal, shield shell and holding piece.Insulating body, comprises a upper plate body, a lower body and a slot, and this slot is between this upper plate body and this lower body, and this upper plate body and this lower body comprise lateral surface and groove, and those grooves are positioned at the side of those lateral surfaces.Upper row's terminal, is positioned at the lower surface of this upper plate body, those is arranged terminal and comprises row's shell fragment type contact jaw, extend this slot and transmit one group of first signal.Lower row's terminal, is positioned at the upper surface of this lower body, and those lower row's terminals comprise lower row's shell fragment type contact jaw, extend this slot and transmit one group of second signal.Shield shell is covered in insulating body, and shield shell comprises outer wall and perforation, and outer wall is to being positioned at lateral surface, and perforation is positioned at the side of outer wall, bores a hole to being positioned at groove.Holding piece is positioned at this upper plate body and this lower body and is connected to this screening can, and holding piece comprises body, oscillating deck and projection.Body is between lateral surface and outer wall, and oscillating deck is connected to body and is suspended on groove, and projection is positioned at oscillating deck, and wherein when projection is positioned at primary importance, the top of projection protrudes from perforation, and when projection is positioned at the second place, the top of projection is positioned at perforation.

In sum, outstanding projection on the outer wall that the utility model utilizes shield shell, when the projection of holding piece is connected to the screening can of electric connector for socket, can provide stable contact effect.And, the projection of holding piece is connected to the screening can of electric connector for socket, the shield shell of plug connector is made to be connected with screening can by holding piece with the screening can of electric connector for socket and effectively to conduct and ground connection, reduce the problem of electromagnetic interference (Electromagnetic Interference, EMI).Further, when projection is positioned at a primary importance, when namely plug connector is not with electric connector for socket grafting, the top of projection protrudes from perforation, and projection shelters from perforation.When projection is positioned at a second place, namely when plug connector and electric connector for socket grafting, the top of projection is positioned at perforation and does not protrude from perforation, projection also can shelter from perforation and have good shielding, perforation is avoided to produce the problem of radio frequency interference (Radio Frequency Interference is called for short RFI) because shielding is not good.When plug connector and electric connector for socket grafting are provided, reduce the shield shell of plug connector and the screening can holes of electric connector for socket, reach the effect of good protection electromagnetic interference (EMI) and radio frequency interference (RFI).

Accompanying drawing explanation

Fig. 1 is the schematic appearance of the plug connector of the utility model.

Fig. 2 is the decomposing schematic representation of the plug connector of the utility model.

Fig. 3 is the perspective cross section schematic diagram () of the plug connector of the utility model.

Fig. 4 is the perspective cross section schematic diagram (two) of the plug connector of the utility model.

Fig. 5 is the side elevational cross-section schematic diagram of the plug connector of the utility model.

Fig. 6 is the partial enlarged drawing of A part in Fig. 5.

Fig. 7 is the side elevational cross-section schematic diagram that the plug connector of the utility model is plugged in electric connector for socket.

Fig. 8 is the partial enlarged drawing of B part in Fig. 7.

Symbol description

100 plug connectors

11 insulating bodies

111a upper plate body

111b lower body

1111 lateral surfaces

1112 grooves

1113 through holes

1114 depressed areas

112 slots

113 grafting frame mouths

114 catching grooves

12a arranges terminal

Terminal is arranged under 12b

Shell fragment type contact jaw is arranged on 121

122 times row's shell fragment type contact jaws

13 shield shells

131 outer walls

132 perforation

133 connection box mouths

14 holding pieces

141 bodies

1411 extension boards

1412 pins

1413 holes

142 oscillating decks

1421 necks

143 projections

1431 cylinders

1432 arc contact surfaces

1433 recesses

200 electric connector for socket

20 screening cans

201 medial surfaces.

Embodiment

Fig. 1 is the schematic appearance of the plug connector of the utility model, Fig. 2 is the decomposing schematic representation of the plug connector of the utility model, Fig. 3 is the perspective cross section schematic diagram () of the plug connector of the utility model, and Fig. 4 is the perspective cross section schematic diagram (two) of the plug connector of the utility model.Referring to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, is the embodiment of the plug connector 100 of the utility model.In the present embodiment, plug connector 100 is micro USB (Type-C) linkage interface specification, and plug connector 100 is the USB linkage interface specification of neomorph, can meet the transmission signal of USB3.0 or the signal of USB2.0.Plug connector 100 comprises insulating body 11, upper row's terminal 12a, lower row's terminal 12b, shield shell 13 and holding piece 14.

Refer to Fig. 2, Fig. 3 and Fig. 4, insulating body 11 comprises upper plate body 111a, lower body 111b and slot 112, at this, upper plate body 111a, lower body 111b is formed in the mode of ejection formation (injection-molding), and between upper plate body 111a, lower body 111b, be recessed to form slot 112, at this, upper plate body 111a, lower body 111b are for being parallel to each other.Further, the outside of upper plate body 111a, lower body 111b comprises lateral surface 1111 and groove 1112 respectively, and groove 1112 is positioned at the side of lateral surface 1111.At this, groove 1112 is positioned at the front side of lateral surface 1111, but not as limit, implement in aspect at some, groove 1112 can at the rear side of lateral surface 1111 or between front side and rear side.In addition, in the present embodiment, the outside of upper plate body 111a, lower body 111b comprises depressed area 1114 respectively, is positioned at lateral surface 1111, the degree of depth of depressed area 1114 is more than or equal to the thickness of slab of holding piece 14, and groove 1112 is for being depressed in the side of the medial surface of depressed area 1114.Further, insulating body 11 comprises grafting frame mouth 113, be positioned at the side of slot 112 and be connected in slot 112, and groove 1112 is adjacent to grafting frame mouth 113.

Refer to Fig. 2, Fig. 3 and Fig. 4, upper row's terminal 12a is positioned at upper plate body 111a, lower row's terminal 12b is positioned at lower body 111b, at this, upper row terminal 12a and lower row's terminal 12b can be combined when ejection formation upper plate body 111a, lower body 111b, or be that upper row's terminal 12a and lower row's terminal 12b are incorporated into upper plate body 111a, lower body 111b with assembling mode.Further, the side of upper row's terminal 12a has upper row's shell fragment type contact jaw 121, lies along slot 112.The side of lower row's terminal 12b has lower row's shell fragment type contact jaw 122, lies along slot 112.At this, the side of upper row's terminal 12a has upper row's shell fragment type contact jaw 121, is positioned at the lower surface of upper plate body 111a, and upper row's shell fragment type contact jaw 121 extends slot 112 and transmits one group of first signal (i.e. USB3.0 signal).At this, the side of lower row's terminal 12b has lower row's shell fragment type contact jaw 122, is positioned at the upper surface of lower body 111b, and lower row's shell fragment type contact jaw 122 extends slot 112 and transmits one group of second signal (i.e. USB3.0 signal).

Refer to Fig. 2, Fig. 3 and Fig. 4, shield shell 13 is a hollow housing, and shield shell 13 is covered in insulating body 11, and that is, insulating body 11 is arranged at the inside of shield shell 13.At this, shield shell 13 comprises outer wall 131 and perforation 132, and outer wall 131 is to being positioned at lateral surface 1111, and perforation 132 is positioned at the side of outer wall 131, and perforation 132 is to being positioned at groove 1112.In the present embodiment, shield shell 13 can be one piece composition, but not as limit, implement in aspect at some, shield shell 13 can be that multi-piece type component combined.In addition, the side of shield shell 13 is formed with the connection box mouth 133 of circular arc type.

Refer to Fig. 2, Fig. 3 and Fig. 4, holding piece 14 claims toward each other for the structure of individual microscler lamellar body, and holding piece 14 is positioned at the lateral surface 1111 of the upper and lower both sides of upper plate body 111a.At this, holding piece 14 is arranged at depressed area 1114, holding piece 14 is unlikely and protrudes from lateral surface 1111.Further, holding piece 14 comprises body 141, oscillating deck 142 and projection 143.Body 141 is a horizontal sheet material, between lateral surface 1111 and outer wall 131.Oscillating deck 142 is connected to the front side of body 141, and oscillating deck 142 is suspended in groove 1112.Projection 143 is positioned at the surface of oscillating deck 142 and outwardly, projection 143 is substantially perpendicular to oscillating deck 142.Further, the top extension of projection 143 protrudes from perforation 132, and this means, the top of projection 143 exposes to outside perforation 132.In the present embodiment, the side of holding piece 14 is connected to screening can 13, and at this, holding piece 14 comprises extension board 1411, is positioned at the rear side of body 141, and extension board 1411 tilts upward extension and is connected to the medial surface of shield shell 13.

Fig. 5 is in side elevational cross-section schematic diagram the present embodiment of the plug connector of the utility model, the partial enlarged drawing of A part in Fig. 6 system Fig. 5, Fig. 7 is the side elevational cross-section schematic diagram that the plug connector of the utility model is plugged in electric connector for socket, the partial enlarged drawing of B part in Fig. 8 system Fig. 7.Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, when plug connector 100 and electric connector for socket 200 grafting, plug connector 100 can be inserted in the screening can 20 of electric connector for socket 200, makes the medial surface 201 of screening can 20 touch the projection 143 of plug connector 100.The screening can 20 of electric connector for socket 200 is connected to by the projection 143 of holding piece 14, the shield shell 13 of plug connector 100 is made to be connected with screening can 20 by holding piece 14 with the screening can 20 of electric connector for socket 200 and effectively to conduct and ground connection, reduce the problem of electromagnetic interference (Electromagnetic Interference, EMI).

And, when projection 143 is positioned at a primary importance, namely when plug connector 100 is not with electric connector for socket 200 grafting, the top of projection 143 protrudes from perforation 132, when providing plug connector 100 and electric connector for socket 200 grafting, outstanding projection 143 can contact with the medial surface 201 of screening can 20.When projection 143 is positioned at a second place, namely when plug connector 100 and electric connector for socket 200 grafting, the top of projection 143 is subject to the extruding of medial surface 201, the top of projection 143 is shifted downwards and is positioned at perforation 132, projection 143 can shelter from perforation 132 and have good shielding, perforation 132 is avoided to produce the problem of radio frequency interference (Radio Frequency Interference is called for short RFI) because shielding is not good.When the utility model provides plug connector 100 and electric connector for socket 200 grafting, reduce the shield shell 13 of plug connector 100 and screening can 20 holes of electric connector for socket 200, reach the effect of good protection electromagnetic interference (EMI) and radio frequency interference (RFI).

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, implement in aspect at some, when projection 143 is subject to pushing of medial surface 201, the top of projection 143 can be complete be displaced in perforation 132, or be, the top of projection 143 only some is displaced in perforation 132, and another part of the top of projection 143 is exposed to perforation 132.Its mainly with the internal diameter of the medial surface 201 of the screening can 20 of electric connector for socket 200 distance and shield shell 13 outer wall 131 external diameter distance and determine.This means, when the internal diameter distance of medial surface 201 equals the external diameter distance of the outer wall 131 of shield shell 13, the top of projection 143 is pushed and complete being displaced in perforation 132 by medial surface 201.When the internal diameter distance of medial surface 201 is greater than the external diameter distance of the outer wall 131 of shield shell 13, there is between medial surface 201 and outer wall 131 spacing, and the top that this spacing is projection 143 is pushed by medial surface 201 and incomplete is displaced in perforation 132, that is, the top of projection 143 only some is displaced in perforation 132, and another part is exposed to perforation 132.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, in addition, when the medial surface 201 of the screening can 20 of electric connector for socket 200 touches the projection 143 of plug connector 100, projection 143 together with oscillating deck 142 to beat in the groove 1112 of insulating body 11, the space of oscillating deck 142 elastics wing is provided with groove 1112, when plug connector 100 extracts the outside in electric connector for socket 200, oscillating deck 142 can rebound and return back to horizontal level, and the top of projection 143 also can be reset to again and protrudes from perforation 132.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, projection 143 is a prominent pack arrangement, and projection 143 is provided with cylinder 1431 and arc contact surface 1432 further, and the side of cylinder 1431 is connected to oscillating deck 142, and the opposite side of cylinder 1431 is connected to arc contact surface 1432.This means, the prominent pack arrangement of projection 143 can at top for forming arc contact surface 1432, and arc contact surface 1432 exposes to perforation 132.When being plugged in plug connector 100 with electric connector for socket 200, the screening can 20 of electric connector for socket 200 can touch arc contact surface 1432, and while oscillating deck 142 swings in groove 1112, also drive cylinder 1431 and arc contact surface 1432 to swing.With the bounce of oscillating deck 142 itself, and the arc structure of arc contact surface 1432 and continuous contact can be provided in the contact effect of the medial surface 201 of screening can 20.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, in addition, projection 143 comprises recess 1433 further, be positioned at the inside of cylinder 1431 and arc contact surface 1432, at this, projection 143 can be processed into take out the mode of drawing on oscillating deck 142, can extrude on flat oscillating deck 142, make the cylinder 1431 and the arc contact surface 1432 that oscillating deck 142 are formed projection 143, and make the inside of cylinder 1431 and arc contact surface 1432 have recess 1433.Processing projection 143 by taking out the mode of drawing, can guarantee the structural intergrity of projection 143, cylinder 1431 and arc contact surface 1432 can be avoided breaking, and the material at each position is thick consistent and guarantee stability.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, in addition, projection 143 be positioned at oscillating deck 142 surface and outwardly, when plug connector 100 tilts to insert electric connector for socket 200, also contact with the medial surface 201 of screening can 20 by arc contact surface 1432, the effect of stable contact with conduction is provided.When avoiding plug connector 100 to tilt to insert electric connector for socket 200, projection 143 is collided or pushes rear generation distortion, projection 143 is contacted and lost efficacy with conducting effect.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, oscillating deck 142 comprises neck 1421 further, is connected to body 141, neck 1421 arrangement spaced apart.When the screening can 20 of electric connector for socket 200 touches projection 143, projection 143 is together with oscillating deck 142 while swing, and the width by neck 1421 is less than oscillating deck 142, provides the effect of oscillating deck 142 beat centered by neck 1421.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, holding piece 14 comprises pin 1412 further, is positioned at the both sides of body 141, and at this, pin 1412 is positioned at the both sides of the rear side of body 141.Further, pin 1412 is substantially perpendicular to body 141.In addition, upper plate body 111a comprises catching groove 114 further, is positioned at the both sides of lateral surface 1111.When holding piece 14 is assembled in the both sides up and down of upper plate body 111a, holding piece 14 is inserted in catching groove 114 with pin 1412, and the rear side of holding piece 14 is fixed on upper plate body 111a.In the process that oscillating deck 142 swings, the pin 1412 of the rear side of holding piece 14 is combined with catching groove 114 and provides firm locating effect, avoids the problems such as holding piece 14 side displacement afterwards.

Refer to Fig. 5, Fig. 6, Fig. 7 and Fig. 8, upper plate body 111a comprises through hole 1113 further, is positioned at lateral surface 1111.Further, through hole 1113 is connected in slot 112.In addition, shell fragment type contact jaw 121 is positioned at through hole 1113 for correspondence.In the present embodiment, holding piece 14 comprises holes 1413 further, and be positioned at body 141 and correspond to through hole 1113, this means, body 141 hollow out is formed with holes 1413, and through hole 1113 can be exposed to holes 1413.When termination contact with electric connector for socket 200 of shell fragment type contact jaw 121, shell fragment type contact jaw 121 can swing and be positioned at through hole 1113 and holes 1413, and then avoid shell fragment type contact jaw 121 to touch holding piece 14, and affect structure and the elastic force thereof of shell fragment type contact jaw 121.

The utility model, by projection outstanding on the outer wall of shield shell, when the projection of holding piece is connected to the screening can of electric connector for socket, can provide stable contact effect.Further, make the shield shell of plug connector be connected with screening can by holding piece with the screening can of electric connector for socket and effectively conduct and ground connection, reduce the problem of electromagnetic interference (Electromagnetic Interference, EMI).Further, when projection is positioned at a primary importance, when namely plug connector is not with electric connector for socket grafting, the top of projection protrudes from perforation, and projection shelters from perforation.When projection is positioned at a second place, namely when plug connector and electric connector for socket grafting, the top of projection is positioned at perforation and does not protrude from perforation, projection also can shelter from perforation and have good shielding, perforation is avoided to produce the problem of radio frequency interference (Radio Frequency Interference is called for short RFI) because shielding is not good.When plug connector and electric connector for socket grafting are provided, reduce the shield shell of plug connector and the screening can holes of electric connector for socket, reach the effect of good protection electromagnetic interference (EMI) and radio frequency interference (RFI).

Claims (10)

1. a plug connector, comprising:

One insulating body, comprises a upper plate body, a lower body and a slot, and this slot is between this upper plate body and this lower body, and this upper plate body and this lower body comprise lateral surface and groove, and this groove is positioned at the side of this lateral surface;

Upper row's terminal, is positioned at the lower surface of this upper plate body, and on this, row's terminal comprises row's shell fragment type contact jaw, extends this slot and transmits one group of first signal;

Lower row's terminal, is positioned at the upper surface of this lower body, and this lower row's terminal comprises lower row's shell fragment type contact jaw, extends this slot and transmits one group of second signal;

One shield shell, inside is arranged at this insulating body, and this shield shell comprises outer wall and perforation, and this outer wall is to being positioned at this lateral surface, and this perforation is positioned at the side of this outer wall, and this perforation is to being positioned at this groove; And

Holding piece, is positioned at this upper plate body and this lower body and is connected to this screening can, it is characterized in that: this holding piece comprises:

Body, between this lateral surface and this outer wall;

Oscillating deck, is connected to this body and is suspended on this groove; And

Projection, is positioned at this oscillating deck, and wherein, when this projection is positioned at a primary importance, the top of this projection protrudes from this perforation, and when this projection is positioned at a second place, the top shift of this projection is in this perforation.

2. plug connector according to claim 1, is characterized in that: described projection comprises cylinder and arc contact surface, and the side of this cylinder is connected to this oscillating deck, and the opposite side of this cylinder is connected to this arc contact surface.

3. plug connector according to claim 2, is characterized in that: described projection comprises recess, is positioned at the inside of this cylinder and this arc contact surface.

4. plug connector according to claim 2, is characterized in that: described arc contact surface exposes to this perforation.

5. plug connector according to claim 1, is characterized in that: described oscillating deck comprises neck, is connected to this body.

6. plug connector according to claim 1, is characterized in that: described holding piece comprises extension board, is positioned at this body and is connected to the medial surface of this shield shell.

7. plug connector according to claim 1, is characterized in that: described holding piece comprises pin, is positioned at the both sides of this body, and this upper plate body and this lower body comprise catching groove, are positioned at the both sides of this lateral surface and are fixed on this pin.

8. plug connector according to claim 1, it is characterized in that: described upper plate body and this lower body comprise through hole, be positioned at this lateral surface and be connected in this slot, on this, row's shell fragment type contact jaw and this lower row's shell fragment type contact jaw are positioned at this through hole, this holding piece comprises holes, is positioned at this body and corresponds to this through hole.

9. plug connector according to claim 1, is characterized in that: described upper plate body and this lower body comprise depressed area, are positioned at this lateral surface, and this holding piece is arranged at this depressed area.

10. plug connector according to claim 1, is characterized in that: described insulating body comprises a grafting frame mouth, is positioned at the side of this slot, and this groove is adjacent to this grafting frame mouth, and this oscillating deck is adjacent to this grafting frame mouth.