CN103107449B - Micro coaxial cable connector assembly - Google Patents

Abstract

A kind of micro coaxial cable connector assembly (100), it comprises: the body (1) comprising upper cover body (15) and the lower cover (16) cooperatively interacted, be contained in intrinsic at least one printed circuit board (PCB) (2), be assembled in the locker (6) on body, to be contained in body and stress elimination block (5) between upper cover body and lower cover and upper cover body and lower cover being bundled and the metal shell (8) of shaded portions locker, mutually locate between described upper cover body and stress elimination block, also mutually locate between described lower cover and stress elimination block.Also be just firmly positioned together between such upper and lower cover body.

Description

Micro coaxial cable connector assembly

[technical field]

The invention relates to a kind of micro coaxial cable connector assembly, particularly relate to the micro coaxial cable connector assembly that a kind of interface is low narrow shape.

[background technology]

Chinese utility model patent is announced No. CN201639088U and is disclosed a kind of micro coaxial cable connector assembly, and this micro coaxial cable connector assembly comprises body, is contained in intrinsic two printed circuit board (PCB)s, is installed on intrinsic stress elimination block, is assembled in the snap close piece of body upper surface, is assembled in body upper surface and is interconnected with snap close piece and can drives the drawing part of snap close piece and be located in the metal shell of body outer surface.It should be noted that, body comprises the upper cover and lower cover that mutually fit together, and stress elimination block is between upper cover and lower cover.Upper cover, lower cover and stress elimination block bundle by metal shell and three are located mutually.In addition, be also positioned together by two screws between metal shell and stress elimination block, make upper cover, lower cover and stress elimination block better be positioned together like this.

But above-mentioned micro coaxial cable connector assembly is also assembled with screw, and therefore whole micro coaxial cable connector assembly number of assembling steps is many, the cost of whole micro coaxial cable connector assembly is also higher simultaneously.Certainly, when above-mentioned micro coaxial cable connector assembly does not assemble screw, the problem that location is unstable mutually between upper cover, lower cover and stress elimination block, also can be there is.

Therefore need a kind of micro coaxial cable connector assembly of improvement to overcome the deficiencies in the prior art.

[summary of the invention]

Main purpose of the present invention is to provide a kind of micro coaxial cable connector assembly, can fixedly positioning between the upper cover body in this micro coaxial cable connector assembly, lower cover and stress elimination block.

For reaching above-mentioned purpose, the present invention adopts following technical scheme: a kind of micro coaxial cable connector assembly, it comprises: comprise the body of upper cover body and the lower cover cooperatively interacted, be contained at least one printed circuit board (PCB) intrinsic, the locker be assembled on body, to be contained in body and stress elimination block between upper cover body and lower cover and upper cover body and lower cover being bundled and the metal shell of shaded portions locker, mutually locate between described upper cover body and stress elimination block, also mutually locate between described lower cover and stress elimination block.

For reaching above-mentioned purpose, the present invention also adopts following technical scheme: a kind of micro coaxial cable connector assembly, it comprises: upper cover body, the lower cover cooperatively interacted with upper cover body, be assembled in the stress elimination block between upper cover body rear end and lower cover rear end, be contained in by the some conducting terminals in the receiving space formed after upper cover body and lower cover combination, be assembled in the locker of upper cover body upper surface and surround the peripheral and metal shell covered by part locker of upper cover body and lower cover, described upper cover body and stress elimination block are located mutually, described lower cover and stress elimination block are also located mutually.

Compared with prior art, the advantage of micro coaxial cable connector assembly of the present invention is: micro coaxial cable connector assembly of the present invention has higher message transmission rate relative to prior art, has good anti-electromagnetic interference effect.In micro coaxial cable connector assembly, the upper and lower cover body of body is positioned together respectively by stress elimination block, does not need extra assembly to be positioned together by upper and lower cover body like this, thus has saved built-up time and the cost of whole micro coaxial cable connector assembly.

[accompanying drawing explanation]

Fig. 1 is the three-dimensional combination figure of micro coaxial cable connector assembly of the present invention.

Fig. 2 is another angle three-dimensional combination figure of the micro coaxial cable connector assembly shown in Fig. 1.

Fig. 3 is the part isometric decomposition view of the micro coaxial cable connector assembly shown in Fig. 1.

Fig. 4 is the part isometric constitutional diagram of the micro coaxial cable connector assembly shown in Fig. 1.

Fig. 5 is the part isometric constitutional diagram of another angle of the micro coaxial cable connector assembly shown in Fig. 4.

Fig. 6 is the three-dimensional exploded view of the locker on the micro coaxial cable connector assembly shown in Fig. 4.

Fig. 7 is the part isometric constitutional diagram that the micro coaxial cable connector assembly shown in Fig. 1 lacks members.

Fig. 8 be the micro coaxial cable connector assembly shown in Fig. 7 lack members the part isometric constitutional diagram of another angle.

Fig. 9 is the cutaway view of Fig. 1 along A-A line.

[embodiment]

Refer to Fig. 1 to Fig. 5, micro coaxial cable connector assembly 100 of the present invention comprise the body 1 with a receiving space 11, printed circuit board (PCB) 2 that two parallel interval be arranged in body 1 receiving space 11 are arranged, to be arranged between two printed circuit board (PCB)s 2 and with body 1 mutually location fit dividing plate 3, is respectively electrically connected with a pair printed circuit board (PCB) 2 rear end and extend back two cables 4 of body 1, to be mounted on body 1 interior and by stress elimination block 5 spaced apart for two cables 4.In addition micro coaxial cable connector assembly 100 also comprises the locker 6 being arranged at body 1 upper surface, and this locker 6 comprises snap close piece 61, is arranged at body 1 upper surface and is interconnected the drawstring 63 that also can drive the drawing part 62 of snap close piece 61 and be connected drawing part 62 rear end with snap close piece 61.Micro coaxial cable connector assembly 100 also comprises the metal shell 8 surrounding body 1 rear end part outer surface and the metal washer 9 surrounding body 1 fore-end outer surface.

Refer to Fig. 1 to Fig. 5, body 1 is cast by metal material and is formed, this body 1 comprises the main part 12 that is positioned at its rear end and is positioned at front end and docking section 13 for docking with butt connector (not shown), and wherein the size of docking section 13 is less than the size of main part 12.Be provided with a receiving space 11 in body 1, this receiving space 11 runs through body 1 from front to back.Body 1 main part 12 has a upper surface 121, and body 1 docking section 13 also has a upper surface 131, and the upper surface 121 of main part 12 is positioned at the top of the upper surface 131 of docking section 13.Wherein main part 12 upper surface 121 is provided with one roughly in step-like conduit 122, and this conduit 122 is for accommodating a part for snap close piece 61 and drawing part 62.The rear end of conduit 122 is provided with a recessed groove 123 and is positioned at recessed groove 123 both sides and to two location notchs 124 of downward-extension certain distance.The front end of conduit 122 has a boss 125, and the upper surface of boss 125 has two projections 126.The outer surface of docking section 13 is provided with one for accommodating the sunk area 132 of metal washer 9, and this sunk area 132 is close to main part 12 and is provided with the projection 133 of two positioning metal packing rings 9 in it.

Body 1 is made up of a upper cover body 15 and lower cover 16, and the front end of upper cover body 15 is a rectangle frame mouth 151, is the docking port of body 1.The middle rear end of upper cover body 15 then roughly takes the shape of the letter U shape, it comprise a roof (sign) and from roof both sides to the sidewall (sign) of downward-extension, a pair holding part 152 is formed on the sidewall of upper cover body 15 rear end.One is provided with for accommodating the cavities 155 of printed circuit board (PCB) 2 in upper cover body 15.In upper cover body 15 two side, table is provided with for some first reference column 153 and the second reference columns 154 of positioning printing circuit board 2.Lower cover 16 is assembled in the lower end of upper cover body 15 and forms body 1.In addition, lower cover 16 is also provided with a pair holding part 161.

Refer to Fig. 1 and composition graphs 4 to Fig. 8, two printed circuit board (PCB)s 2 are contained in body 1 receiving space 11.The front end of each printed circuit board (PCB) 2 is respectively equipped with docking section 21, rear end is equipped with weld part 22 and the connecting portion 23 of connection docking section 21 and weld part 22.The both sides of printed circuit board (PCB) 2 are respectively equipped with a stopper slot 24, and this stopper slot 24 makes printed circuit board (PCB) 2 and upper cover body 15 locate in the longitudinal direction for second reference column 154 of accommodating in upper cover body 15.Docking section 21 upper and lower surface of printed circuit board (PCB) 2 is provided with some conducting terminals (sign).

Refer to Fig. 4 to Fig. 9, dividing plate 3 is made up of plastic material, and it is placed between two printed circuit board (PCB)s 2.The two sides of dividing plate 3 are respectively equipped with a location notch vertically extended 31, each location notch 31 all matches with the second reference column 154 in body 1 upper cover body 15.One is shaped in dividing plate 3 for the ground strip 32 of anti-electromagnetic interference.

Refer to Fig. 4 and Fig. 5 and composition graphs 7 and Fig. 8, two cables 4 are electrically connected with two printed circuit board (PCB)s 2 respectively.There is in every root cable 4 some wires 41 being connected to printed circuit board (PCB) 2 rear end, outside the front end of every root cable 4, be arranged with a ring bodies 42.

Refer to Fig. 4 and Fig. 5 and composition graphs 7 and Fig. 8, one stress elimination block 5 is cast by metal material and is formed, it is arranged in body 1, and its upper and lower surface is respectively equipped with a recessed groove 51, two recessed grooves 51 and is respectively used to accommodate ring bodies 42 on the cable 4 being positioned at the upper and lower both sides of stress elimination block 5.In addition, the left and right sides of stress elimination block 5 are respectively equipped with two vertically upper slits 52 extended, the opening of two slit 52 in the vertical directions on same side is different, and Open Side Down for one of them opening upwards one.Stress elimination block 5 is also provided with an accepting groove 53 extended forward from its rear surface, this accepting groove 53 roughly takes the shape of the letter U, for accommodating a bayonet lock 7.Accepting groove 53 is communicated with four slits 52 are staggered.

Refer to Fig. 4 and Fig. 5 and composition graphs 7 and Fig. 8, bayonet lock 7 roughly takes the shape of the letter U, and it is assembled in stress elimination block 5 from back to front.Two extensions 72 that bayonet lock 7 comprises a base portion 71 and extends forward from base portion 71 both sides.Bayonet lock 7 is contained in the accepting groove 53 in stress elimination block 5, and four sections on two extensions 72 on bayonet lock 7 are placed in four slits 52 of stress elimination block 5.

Refer to Fig. 3 to Fig. 6 and composition graphs 9, locker 6 comprises snap close piece 61, is connected the drawstring 63 that also can drive the drawing part 62 of snap close piece 61 and be connected to drawing part 62 rear end with snap close piece 61.

Snap close piece 61 is bent by metal material punching press and forms, it connecting portion 613 comprising a holding parts 611 being positioned at its rear end, be positioned at the holding part 612 of its front end and connect holding parts 611 and holding part 612.Holding parts 611 is in inverted U-shaped, and it comprises a horizontal part (sign) and to be used for two of positioning lock fastener 61 holding section 6111 in vertical shape to downward-extension by horizontal part both sides.Connecting portion 613 is in step-like, and it is provided with and is positioned at the rectangular aperture 6131 that one of its front end extends along the longitudinal direction and the square aperture 6132 being positioned at rectangular aperture 6131 both sides for a pair.In connecting portion 613, rear end is provided with the breach 6133 that runs through its upper and lower surface.The both sides of holding part 612 are formed with a hook portion 6121 respectively to downward-extension.

Drawing part 62 is made up of plastic material, and it is roughly in long and narrow flat.Drawing part 62 comprise be positioned at its rear end operating portion 621, be positioned at the drive division 622 of the T-shaped shape in its front end and the connecting portion 623 of attended operation portion 621 and drive division 622.Connecting portion 623 comprises the bend 6231 that connects drive division 622 and is extended back by bend 6231 and be connected to the horizontal part 6232 of operating portion 621.Operating portion 621 is provided with a rectangular aperture 6211.One drawstring 63 can be connected on drawing part 62 through rectangular aperture 6211.

Refer to Fig. 1 to Fig. 5, metal shell 8 comprises the surrounding portion 81 that upper cover body 15 and lower cover 16 can be tied together and the shielding portion 82 extended forward from surrounding portion 81.Surrounding portion 81 is by roof 811, diapire 812 and the sidewall 813 connecting roof 811 and diapire 812 for a pair, and above-mentioned wall encloses formation one receiving space 814.Shielding portion 82 is extended forward by roof 811 front end and forms.The roof 811 of surrounding portion 81 and diapire 812 are equipped with two two of extending in receiving space 814 for compressing upper and lower cover body 15, the shell fragment 815 of 16.

Refer to Fig. 2 to Fig. 5, metal washer 9 is bent by sheet metal punching press and forms, and it is assembled in the sunk area 132 of rear end, body 1 docking section 13.The rear end of metal washer 9 is some shell fragments 91, metal washer 9 also comprises the holding parts 92 matched with the reference column 133 in rear end, body 1 docking section 13 sunk area 132.

Refer to shown in Fig. 1 to Fig. 9, during assembly line cable connector assemblies 100, the weld part 22 first conductor 41 in every root cable 4 being soldered to the rear end of a printed circuit board (PCB) 2 makes to complete electric connection therebetween.Like this, two cables 4 just define with the assembly of printed circuit board (PCB) 2.

Secondly, upper cover body 15 is turned around, then cable 4 is contained in the cavities 155 in upper cover body 15 with the assembly of printed circuit board (PCB) 2, the first reference column 153 in upper cover body 15 upwards accepts printed circuit board (PCB) 2 at upper and lower, and the second reference column 154 in upper cover body 15 cooperatively interacts with the stopper slot 24 on printed circuit board (PCB) 2 and printed circuit board (PCB) 2 is located in front and rear direction.

Again, bayonet lock 7 is assembled in stress elimination block 5 from back to front, and then in the receiving space that the ring bodies 42 on cable 4 is contained in formed between stress elimination block 5 and upper cover body 15 of rear end stress elimination block 5 being assembled in upper cover body 15 cavities 155.Meanwhile, a pair holding part 152 in upper cover body 15 is contained in the slit 52 that is positioned at both sides, its rear end and is fastened togather with the part be placed on bayonet lock 7 extension 72 of two slits 52, and like this, upper cover body 15 and stress elimination block 5 are positioned together.

Then, being assembled in by dividing plate 3 in upper cover body 15 cavities 155 and upwards contacting at upper and lower with printed circuit board (PCB) 2, the location notch 34 of dividing plate 3 both sides matches with the second reference column 154 in upper cover body 15 and dividing plate 3 and upper cover body 15 is located in front and rear direction.

Then, cable 4 and another assembly of printed circuit board (PCB) 2 are assembled in upper cover body 15 cavities 155, equally, the second reference column 154 in upper cover body 15 cooperatively interacts with the second stopper slot 24 of printed circuit board (PCB) 2 and printed circuit board (PCB) 22 is located in front and rear direction.A part for ring bodies 42 outside cable 4 is contained in the recessed groove 51 of stress elimination block 5.

Then, lower cover 16 is assembled in upper cover body 15.Now, a pair holding part 161 on lower cover 16 is contained in the slit 52 that is positioned at its both sides, front end and is fastened togather with the part be placed on bayonet lock 7 extension 72 of two slits 52, like this, lower cover 16 and stress elimination block 5 are also positioned together, stress elimination block 5 is placed in upper and lower cover body 15, between 16.Due to upper and lower cover body 15,16 are all positioned together with stress elimination block 5, and therefore upper cover body 15 and lower cover 16 are also positioned together mutually by stress elimination block 5.When lower cover 16 is fully assembled on upper cover body 15, body 1 just defines, and two printed circuit board (PCB)s 2 be contained in upper cover body 15 to be just contained in body 1 receiving space 11 and to be positioned in body 1.

Then, snap close piece 61 is placed in vertical with drawing part 62, and by the rectangular aperture 6131 passed on snap close piece 61 connecting portion 613 of the drive division 622 of drawing part 62, then by snap close piece 6 90-degree rotation, such snap close piece 61 is positioned at same straight line with drawing part 62 and buckle links together mutually.Drawing part 62 connecting portion 623 rearward end is then placed in the breach 6133 on snap close piece 61 connecting portion 613.Transverse width due to drive division 622 free end is greater than the width of rectangular aperture 6131 and makes drive division 622 can not only rely on pulling force backward to make it depart from from snap close piece 6, the movement backward of such drawing part 62 makes the drive division 622 of drawing part 62 backward and move up, thus drives the connecting portion 613 of snap close piece 61 and latch part 612 all to move up.Then drawstring 63 is assembled in the rear end of drawing part 62.Such locker 6 just assembling completes.

Then, snap close piece 61 is assembled on body 1 together with drawing part 62, wherein the connecting portion 623 of drawing part 62 is placed on the upper surface 121 of body 1 main part 12, and connecting portion 623 front end bend 6231 is in hanging shape, and drawing part 62 rear end drive division 622 extends back from body 1 rear end face.In addition, snap close piece 61 is made to be positioned body 1 in two location notchs 124 that the holding section 6111 of snap close piece 61 holding parts 611 both sides is contained on body 1 main part 12 upper surface 121.The latch part 612 of snap close piece 61 is placed in the upper surface 131 of body 1 docking section 13.The front end of snap close piece 61 is cantilever-shaped relative to its rear end.Horizontal part on the holding parts 611 of snap close piece 61 is then placed in recessed groove 123.

Then, metal shell 8 is assembled in the periphery of body 1 main part 12, the surrounding portion 81 of metal shell 8 is looped around the periphery of upper and lower cover body 15,16 and the two is bundled, surrounding portion 81 also by stress elimination block 5 around within it, shielding portion 82 covers the front end of drawing part 62 and the rear end of snap close piece 61.

Finally, metal washer 9 is assembled in the sunk area 132 of body 1 docking section 13.

Micro coaxial cable connector assembly 100 of the present invention has new interface and higher message transmission rate relative to prior art, the drawing part 62 on isochrone cable connector assemblies 100 and the interaction between snap close piece 61 and drive hinge structure to have good operability.The upper and lower cover body 15 of body 1 in micro coaxial cable connector assembly 100,16 are positioned together by stress elimination block 5, do not need extra assembly by upper and lower cover body 15 like this, 16 are positioned together, thus have saved built-up time and the cost of whole micro coaxial cable connector assembly 100.

Claims (7)

1. a micro coaxial cable connector assembly, it comprises: the body comprising upper cover body and the lower cover cooperatively interacted, be contained at least one printed circuit board (PCB) intrinsic, be assembled in the locker on body, to be contained in body and stress elimination block between upper cover body and lower cover and upper cover body and lower cover being bundled and the metal shell of shaded portions locker, it is characterized in that: mutually locate between described upper cover body and stress elimination block, also mutually locate between described lower cover and stress elimination block, described upper cover body is provided with the holding part being fastened in stress elimination block two sides for a pair, described lower cover is also provided with the holding part being fastened in stress elimination block two sides for a pair, the two sides of described stress elimination block are provided with four slits, described stress elimination block has a bayonet lock, a part on described bayonet lock is placed in each slit of described stress elimination block, on described, holding part on lower cover to be contained in described slit and with a part of buckle on the bayonet lock in it.

2. micro coaxial cable connector assembly as claimed in claim 1, is characterized in that: described body comprises the docking section being positioned at its front end and the main part being positioned at its rear end, and described metal shell is assembled in the periphery in body party portion.

3. micro coaxial cable connector assembly as claimed in claim 2, is characterized in that: described micro coaxial cable connector assembly also comprises the metal washer being assembled in periphery, docking section, described metal washer adjacent body main part.

4. micro coaxial cable connector assembly as claimed in claim 2, it is characterized in that: described locker comprises the snap close piece and drawing part that interconnect, the upper surface in described body party portion is provided with a conduit, and described locker is contained in described conduit.

5. micro coaxial cable connector assembly as claimed in claim 4, it is characterized in that: the rear end of described snap close piece is a holding parts being connected to body party portion, front-end driven portion and the described snap close piece of described drawing part are fastened togather, described snap close piece is provided with a breach, and a part for described drawing part is placed in described breach.

6. micro coaxial cable connector assembly as claimed in claim 1, it is characterized in that: at least one printed circuit board (PCB) described comprises two printed circuit board (PCB)s be parallel to each other, described micro coaxial cable connector assembly also comprises the cable that two are connected to two printed circuit board (PCB)s respectively, and described stress elimination block is in the vertical direction by two cable intervals.

7. a micro coaxial cable connector assembly, it comprises: upper cover body, the lower cover cooperatively interacted with upper cover body, be assembled in the stress elimination block between upper cover body rear end and lower cover rear end, be contained in by the some conducting terminals in the receiving space formed after upper cover body and lower cover combination, be assembled in the locker of upper cover body upper surface and surround the peripheral and metal shell covered by part locker of upper cover body and lower cover, it is characterized in that: described upper cover body and stress elimination block are located mutually, described lower cover and stress elimination block are also located mutually, on described, lower cover all has a pair holding part, described stress elimination block assembles a bayonet lock, on described, the holding part of lower cover and the mutual buckle of bayonet lock, the two sides of described stress elimination block are provided with four slits, described stress elimination block has a bayonet lock, a part on described bayonet lock is placed in each slit of described stress elimination block, on described, holding part on lower cover to be contained in described slit and with a part of buckle on the bayonet lock in it.